AGRIC.
LIBRARY

LIBRARY

UNIVERSITY OF CALIFORNIA

GIFT OF"

Class

U. S.'DEP

VGRICULTURE.

.lOLOGT.

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INSECTS

AFFECTING THE

AGRICULTURAL
LIBRARY,

-OF-

CALIFORNIA. I

O K AN G-E.

REPORT ON THE INSECTS AFFECTING THE CULTURE OF THE ORANGE

AND OTHER PLANTS OF THE CITRUS FAMILY, WITH PRACTICAL

SUGGESTIONS FOR THEIR CONTROL OR EXTERMINATION,

MADE, UNDER DIRECTION OF THE ENTOMOLOGIST,

H. G-. HUBBARD.

TVTTH

WASHINGTON:

GOVERNMENT PRINTING OFFICE.

1885.

JOINT RESOLUTION AUTHORIZING THE PRINTING OP FIVE THOUSAND COPIES OF
A SPECIAL REPORT ON INSECTS AFFECTING THE ORANGE TREE.

Resolved by the House of Representatives (the Senate concurring}, That there be printed
5,000 copies of a special report from the Department of Agriculture on insects affect-
ing the orange tree, with the' necessary illustrations, 2,500 copies of which shall be
for the use of the House of Representatives, 1,500 for the use of the Senate, and 1,000
for the use of the Department of Agriculture.

JULY 6, 1882.
II

TABLE OF CONTENTS.

Tago.

LETTER OF TRANSMITTAL vii

LETTER OF SUBMITTAL '.. ix

INTRODUCTION.

INJURIES BY INSECTS DISTINGUISHED FROM ORGANIC DISEASE 1

Diseases affecting the condition of the plant ; die-back, 1 bark -fungus,
2 foot-rot; sinut, 3 splitting of fruit, 4 dropping of fruit, 5.

THE INSECT FAUNA or THE ORANGE 5

Attraction which the orange tree has for insects, 5 injurious insects ; ben-
eficial insects, 6 innocuous insects ; importance of distinguishing friends
from foes, 7 presence of .certain injurious insects indicated by ants, 8.

SYSTEMS OF CULTIVATION 8

Influence of shade upon the increase of insect pests, 8 clean culture or
mulching preferable to cropping young groves ; seasons of greatest in-
sect activity, 9 the proper months for applying remedies, 10.

PAET I. COCCID^ [SCALE INSECTS OK BAKK-LICE].

CHAPTER I.

CHARACTERS OF THE COCCID^ AND COMMENCEMENT OF THE CONSIDERATION

OF THE SUBFAMILY DIASPIN^E , 13

General characters of Bark-lice and their relations to other insects; prod-
ucts of Bark-lice, 13 division into subfamilies, 14 life-history of the
Diaspinse : the larva, 15 growth of the scale, 16 the females; the
males, 17 periods of development ; nature of the scale-covering, 18
Long Scale, 19 life-history, 21 broods, 22 parasites, 23 origin and
spread, 24.

CHAPTER II.

DIASPIN.E Continued 26

Purple Scale, 26 Red Scale of Florida, 28 Red Scale of California, 32
White Scale, 35 Chaff Scale, 37 the Orange Chionaspis, 40.

CHAPTER III.

DIASPIN.E Continued RAVAGES OF THE ARMORED SCALES 42

Bark-lice everywhere present in orange groves, 42 relative importance of
the several species as pests; agencies which assist their distribution,
43 influence of the wind, 44 enfeebled condition of the plant favorable
to their increase ; usual course of the pest, 45 the popular belief that
the scales are thrown off at the ends of the branches ; influence of cli-
mate, 46 effect of frost ; natural checks, 47.

IV TABLE OF CONTENTS.

CHAPTER IV.

Page.

LECANIN.E THE NAKED OR WAXY SCALES 48

General characters and life-history of the subfamily; the Turtle-back
Scale ; Broad Scale, 48 growth ; habits, 49 broods ; honey-dew and
ants ; parasites, 50 the Black Scale of California, 53 the Hemispherical
Scale, 55 the Wax Scale, 56 the Barnacle Scale, 59 extent of injuries
and relative importance of the species, 61 smut, 62.

CHAPTER V.
COGGING THE MEALY-BUGS 63

Characteristics of the subfamily ; food plants, 63 the Destructive Mealy-
bug, 64 the Cottony Cushion Scale, 66.

CHAPTER VI.

INSECTS PREYING UPON BARK-LICE 69

Enumeration of external enemies ; work of Mites, 69 internal parasites ;
ants as friends and enemies, 70 Lady- birds, 71 parasites of the Lady-
birds, 74 the Scale-eating Epitragus, 75 the Scale-eating Dakruma, 76
the Pale Dakruma ; the Scale-eating Tineid, 77 the Spider-legged Sol-
dier-bug, 78 hemipterous enemies of the Mealy-bug, 79 Lace-wings,
80 predatory Mites, 81 Glover's Mite, 82 the -Hairy Mite ; the Spear-
head Mite; the Spotted Mite, 83 Mites preying on Mealy-bug, 84 Long-
bodied Mite ; the Orbicular Mite, 85.

CHAPTER VII.

MEANS OF DEFENSE AGAINST SCALE-INSECTSREMEDIES 86

Introduction of Scale-insects upon imported plants, 86 infection from
nursery stock, 87 protection afforded by hedges and trees, 88 plants
available for hedges ; benefits of inside pruning and cleanliness, 89
scrubbing the trunks ; palmetto brushes, 90 ineffectual popular reme-
dies ; fumes of sulphur fatal to the plant ; impossibility of introducing
insecticides into the sap through the roots, 91 or by inoculation ; fight-
ing Scale with fertilizers ; effective remedies ; kerosene ; milk and kero-
sene emulsion, 92 soap and kerosene emulsion ; unrefined kerosene in-
jurious; effect of kerosene upon the Orange, 94 applications best made in
spring; whale-oil soap, 95 potash and soda lyes, 96 carbolic acid, 97
sulphurated lime, 98 bisulphide of carbon ; sulphuric acid ; sulphate of
iron ; ammonia ; silicate of soda, 99 various common remedies of little
value ; the application of remedies ; fineness and force of spray ; cy-
clone nozzle, 100 complete outfit mounted on a cart ; necessity of re-
peated applications, 101 proper seasons for applying remedies, 102.

PAET II. MISCELLANEOUS INSECTS AFFECTING THE

ORANGE.

CHAPTER VIII.

RUST OF THE ORANGE 105

Nature of rust; discoloration of the fruit ; not produced by a fungus,
105 origin of rust ; reasons for considering it the work of a Mite ; the
Mite on the leaves ; first appearance on the fruit, 106 attacks of the
Mite always followed by rust ; development of rust subsequent to the
departure of the Mites ; description of the Rust-mite, 107 growth from
the egg to the adult, 108 food, habits, and numerical abundance, 109

TABLE OF CONTENTS. V

Page.
SUST OF THE ORANGE Continued.

effect of sunshine and shade upon the Mites ; rust-rings on the fruit,
110 influence of the weather ; means of dissemination, 111 ravages
of the Rust-mite confined to Citrus plants; effect of attacks upon the
foliage; rusted fruit, 112 origin and spread of the Mite; periods of in-
crease ; geographical distribution ; remedies ; influence of soil, 113
fruit less liable to rust on low land ; preventive measures ; effect of re-
ducing radiation; protection afforded by wind-breaks, 114 application
of insecticides; whale-oil soap, 115 sulphur, 116 natural sulphur
water; kerosene ; carbolic acid, 118 potash; pyrethrum, 119
lime ; ashes ; caution ; danger of making applications during winter,
120.

CHAPTER IX.

INSECTS AFFECTING THE ROOT, CROWN, TRUNK, AND BRANCHES.

BOOT AND CROWN 121

Tap-root borers ; white ants, 121 description and habits of the common
species; injuries to Orange, 121 the work of Termites distinguished
from that of other insects ; buried wood and stumps a source of danger,
123 needful precautions ; remedies ; exposure to light ; applications
of hot water ; pyrethrum ; kerosene ; bisulphide of carbon, 124
ashes ; lime and sulphur ; means of saving girdled trees ; a larger
species of Termite, 12a.

TRUNK AND BRANCHES 125

The Common Orange Sawyer, 125 injuries the result of careless pruning ;
the tree protected by its gum ; precautions to be observed in pruning;
means of destroying the borers, 127 the Twig-girdler, 128 wood-eat-
ing habits of an ant (Solenopsis), 129 means of destroying their colonies,
130 methods of preventing ants from ascending the trees, 131.

CHAPTER X.

INSECTS AFFECTING THE TWIGS AND LEAVES.

HYMENOPTERA, A leaf-eating ant, 132.

COLEOPTERA, Brachys ovata, 132 Odontota rubra ; the Orange Leaf-notcher
and other weevils slightly injurious to the leaves, 133.

ORTHOPTERA, The Angular- winged Katydid, 134 the Lubber Grasshopper,
135 other locusts, 136.

LEPIDOPTERA, The Orange Dog, 137 defensive measures, 138 parasites,139
slug caterpillars and stinging caterpillars ; Lagoa opercularis, 140 the
Saddle-back Caterpillar, 141 the Hag-moth Caterpillar, 142 the Skiff
Caterpillar, 143 Bag- worms; the Common Bag-worm, 145 provision
made by the female for the safety of her eggs, 145 construction of its
basket by the young ; parasites, 146 the Northern Bag- worm, 147
the Cylindrical Bag- worm ; the Orange Basket- worm, 148 small (unde-
scribed) Bag- worm, 149 cocoons of Artace on Orange ; the Grass-
worm, 150 Leaf-rollers, 151 the Cork-colored Leaf-roller, 152 para-
sites, 153 the Sulphur-colored Leaf-roller ; a larger Leaf-roller ; Web-
makers ; the Orange-leaf Nothris, 154 the Orange Web- worm, 155
insects associated with the Orange Web-worm, 156.

:HEMIPTERA, The Orange Aphis, 157 birth of the young ; destructive pow-
ers; enemies and parasites, 158 the Green Soldier-bug, 159 account of
its ravages at West Apopka, Fla., 160 the Thick-thighed Metapodius,
162 other sucking bugs, 163.

VI TABLE OF CONTENTS.

CHAPTER XI.

INSECTS AFFECTING THE BLOSSOM AND FRUIT SCAVENGER INSECTS.

Page.

AFFECTING THE BLOSSOMS 164

The Orange Thrips, 164.

AFFECTING THE FRUIT 165

The Cptton Stainer, 165 the Leaf-footed Bug, 168 the Mexican Fruit
Worm, 169.

SCAVENGERS 17Q

Insects feeding upon dead wood and bark ; tree-inhabiting ants, 170 the
Orange Sawyer considered as a useful insect ; the Flat-headed Borer, '
171 the Cylindrical Bark-borer, 173 other insects boring in orange wood,
174 insects found in bleeding wounds and sores ; insects feeding upon
decaying fruit ; Sap-beetles, 175 the Wine-fly of the Orange, 176 other
insects found in injured fruit, 177 insects in dry fruit ; white ants in

fruit, 178.

CHAPTER XII.

PREDATORY INSECTS.

INSECTS PREYING UPON PLANT-LICE 180

Lady-birds; Scymnus caudalis, 180 Syrphus flies; life-history, 181 the
Four-spotted Apliis-fly, 183 the Dusky- winged Aphis-fly; the Ruddy
Aphis-fly, 184 the Pruinose Aphis-fly, 185.

OTHER PREDATORY INSECTS FREQUENTING THE ORANGE 186

Wasps ; Polistes americanus, 186 the Vase-maker Wasp, 187 the Camel-
crickets or Soothsayers, 188 the Carolina Mantis, 189 the Slender Man-
tis (Missouriensis?), 190 Soldier-bugs ; the Spider-legged Soldier-bug;
the Rapacious Soldier-bug, 191 the Wheel-bug, 192.

INNOXIOUS INSECTS 193

Case-bearers on Orange ; the Orange Case-bearing Tineid, 193 ; Bark-
cleaners, 193 Psocus venosus Burm., 193 the Orange Psocus, 194,

APPENDICES.

APPENDIX -I.
THE MEALY-BUG AT ORANGE LAKE, FLORIDA 19T

APPENDIX II.

EXPERIMENTS WITH INSECTICIDES 199*

Table I Kerosene emulsions, 199 ; Table II Whale-oil soap, 202 ; Table
III Lye solutions, 204; Table IV Crude carbolic acid (oil of creosote),
206 ; Table V Bisulphide of carbon, 209 ; Table VI Silicate of soda,

211.

APPENDIX III.

THE COITION OF BAG-WORMS 213

NOTES.

Note 1, Additional parasites of Ceroplastes, 215 Note 2, Scale-eating Tineid,
215 Note 3, Telenomus from Leptocorisa eggs, 215 Note 4, Heteroptera
feeding on Dactylopius, 215 Note 5, Perilitus from cocoon of Chrysopa,
215 Notes 6, 7, 8, 9, 10, Descriptions of Orange Mites, 216 Note 11, Compo-
sition of sulphurated lime, 217 Note 12, Miotropis parasitic on Platynota,
217 Note 13, Goniozus parasitic on Platynota, 217 Note 14, Larger Leaf-
roller of the Orange, 217 Note 15, Orange-eating Tineid, 218 Note 16,
Pteromalus from Pruinose Aphis-fly, 218 Note 17, Chrysis from Eumenes
fraterna, 218.

LETTER OF TRANSMITTAL.

DEPARTMENT OF AGRICULTURE,
DIVISION OF ENTOMOLOGY,

Washington, D. 0., May 20, 1885.

SIR: I have the honor to transmit herewith a special report which
was ordered by Congress upon the u Insects affecting the Orange Tree."
This report has been prepared by Mr. H. G. Hubbard, who has been
employed as a special agent at Crescent City, Fla., and who has de-
voted his time for nearly four years in studying the insects that affect
the Orange, and especially in practical experiments to counteract their
injuries. It is but uttering a deserved compliment to say that the prac-
tical results of his labors have been most satisfactory, and mark an im-
portant era in the history of orange- growing in the United States.

The trees of the Citrus family are particularly subject to the disas-
trous ravages of various species of Scale-insects, which not infrequently
thwart all effort to raise a grove. It is to these that the present re-
port is chiefly devoted, and to their control that the greatest efforts
were made.

Mr. Hubbard's work was confined to Florida, but the remedies are
applicable to other orange-growing sections of the country. Prof. J. H.
Comstock had already published much upon the Scale-insects affecting
the Orange in California in the report of this Department for 1880, and
his work has been very freely used in the present report.

The delay in the printing of the report has been partly due to the ill
health from which Mr. Hubbard has suffered during the past year, and
which has necessitated considerable office work, in which I have had the
assistance, which 1 take pleasure in acknowledging, of Messrs. Howard,
Schwarz, and Pergande.
Respectfully,

0. Y. EILBY,

Entomologist.

Hon. NORMAN J. COLMAN,
Commissioner of Agriculture.

LETTER OF SUBMITTAL.

CRESCENT CITY, FLA., March 25, 1885.

SIR : I have the honor to submit the following report upon insects
that affect the culture of the Orange. The investigations conducted un-
der your direction, and which form the basis of this report, were begun
upon my arrival in the field in Florida, in August, 1881, and continued
until March, 1882. The work was resumed in June, 1882, and 1 returned
to Florida in September, remaining in the field twenty-three months,
or until August, 1884.

At your request, a preliminary report upon Scale-insects of the Orange,
with special reference to Remedies and their application, was prepared
in advance of the final report, and was included in the Eeport of the
Entomologist for 1882.

A treatise upon Bust of the Orange, including the essential part of
Chapter VIII of this report, was prepared in the spring of 1883, and
short extracts from this and other portions of the final report have ap-
peared in the Bulletins of the Entomological Division. The full treatise
upon Bust, with illustrations, is included in the Annual Beport of the
Entomologist for 1884.

In the preparation of the present work a single object has been kept
in view, namely, to afford practical aid to the orange-grower in the war-
fare which must be waged with insect foes. Technical terms, which
might render the treatise unintelligible to non-entomological readers,
have been as far as possible excluded from the text, and in the descrip-
tions of insects which fall within the scope of these investigations an
attempt has been made to render the various forms recognizable to an
intelligent observer, by the use of popular language, aided in many cases
by figures, and without a resort to intricacies of description, such as
would be imperatively demanded for specific identification.

Nevertheless, that the work may not prove of less advantage to the
student of entomology, and to the investigator who may seek to correct,
advance, or complete the many imperfect observations here recorded,
references to more complete descriptions elsewhere published are
given when deemed necessary, and descriptions of new insects, with
other purely technical matters, are relegated to notes and appendices
at the end of the volume.

Although my own observations have not extended beyond the State
of Florida, and the accessible notes of observers elsewhere are few and

X LETTEE OF SUBMITTAL.

meager, the first part of the work, that relating to Bark-lice, will be
found applicable to any region where the Orange is grown, since these
universal enemies of the Orange are as cosmopolitan as the plant it-
self. This part of the work, moreover, includes, in addition to those
species which have been the subjects of original investigation in Flor-
ida, such notes as have been published upon the Califoruian species,
and which have not as yet made their appearance upon the Orange in
the East.

Of the miscellaneous insects considered in the second part of this re-
port, by far the greater number are known only in Florida or Louisi-
ana, and are not likely to make their appearance in the Pacific States.

In a record of observations extending over several years of daily and
almost constant work in orange groves, it will not seem strange if many
of the facts observed by previous investigators are found repeated in
the following pages, and if credit is not always given for priority of dis-
covery in matters relating to the habits of insects, such as may be veri-
fied in every orange grove, more intricate researches, or such as have
not been reobserved, are always accompanied by the proper references.
In this way contributions of interest to orange-growers have been ex-
tracted from the writings of well-known entomologists, and particularly
from notes and published treatises on orange insects by Glover, Ash-
mead, and Comstock.

Finally, to your direction and guidance is attributable much of what-
ever valuable may result from my work ; and the influence of your own
scientific researches, not less than your personal co-operation, has light-
ened the labor and made the preparation of this report a pleasant task.

Eespectfully submitted,

H. G. HUBBAKD,

Special Agent.

Prof. C. V. EILEY,
Entomologist.

INTRODUCTION.

INJURIES BY INSECTS DISTINGUISHED FROM ORGANIC DISEASE

DISEASES AFFECTING THE CONDITION OF THE PLANT.

Iii plants, as hi animals, the outward symptoms of disease do not al-
ways indicate plainly the cause of the physical disturbance. There is
often need of skilful diagnosis before it is possible to intelligently apply
a remedy.

Naturally, in exogenous plants, whose vital growing parts are near
the surface, we look for the most part to external enemies for the cause
of disease, and especially upon insects, the natural foes of the vegeta-
ble world, suspicion falls most readily and with greatest reason. Do the
leaves of an orange tree turn -yellow and fall to the ground, some
worm, we suspect, is gnawing at the root, or Scale-insects are sapping
the vital fluids from the bark. Are the blossoms blasted, the fruit drop-
ping or splitting, we are inclined to lay the blame upon some sucking
bug or upon some, it may be, harmless insect that we chance to see
upon the plant.

But these phenomena are not always attributable to insect agencies,
although they are often correctly so assigned. They are frequently the
result of pathological disturbances, as obscure in their origin as are
many diseases of animals.

As the object of the present treatise is solely to make known to or-
ange growers the insect enemies and friends with which they have to
deal, we cannot hre enter upon a discussion of the principles of vege-
table hygiene as applied to orange trees.

There are, however, several organic diseases which in their effect upon
the tree closely copy the work of insects, and it is desirable that they
should be clearly distinguished. We may, therefore, at the outset
briefly examine the forms of fungus and other affections most commonly
met with on plants of the citrus family, and give their distinguishing-
characters, with so much as is certainly known or can be plainly conjec-
tured concerning their nature or origin.

DIE-BACK. (Plate II, Fig. 1.) This is a disease of the bark and young
wood, affecting chiefly the tender shoots. These grow to a length of 1
foot or 18 inches, and then become stunted, and finally die. Trees af-
fected with this disease continually push out new growth which soon

1
6521 o I 1

2 INSECTS AFFECTING THE ORANGE.

dies back, and finally the older portions of the tree become affected and
gradually succumb.

A morbid growth undoubtedly of fungus origin invariably accompa-
nies the disease in its advanced stages. This appears first as discolored
patches or slight swellings, which gradually become confluent, and fin-
ally burst, forming an eruption of brownish color. The older branches
become covered with ridges of exfoliated bark and exudations of gum,
presenting an unsightly appearance, not unlike that of "Black-knot" on
the plum.

The peculiar microscopic fungus which causes " die-back " is undoubt-
edly well known to mycologists. The disease yields readily to treat-
ment with dilute carbolic or creosote washes, and is curable by these
simple means, provided the exciting cause is removed. This fact may
be regarded as confirmatory of its fungus character. The term " die-
back " has been applied to several other diseases of the orange, and
even to injuries from frost, but the affection above described is the one
which is generally known under this name.

The exciting cause of "die-back" has been variously ascribed to over-
fertilization, deep planting, imperfect drainage, the presence of humic
acid in the soil, and finally to insects. While there is good reason
to suppose that conditions of the soil, or of cultivation unfavorable to
the growth of the plant, render it liable to the attacks of fungus dis-
eases, there is no evidence that in this case its presence is due to the
depredations of insects. It is true that the dead and dying branches of
trees affected with die-back attract boring insects of various sorts, but
these are found to belong to wood-eating kinds, which act as scaven-
gers merely, and have no connection with the disease itself. ^/

BARK-FUNGrUS. (Plate II, Fig. 2.) Many forms of lichens attach
themselves to the trunk of the Orange, in common with other trees, and
flourish abundantly in dark and damp situations. There are, however,
several mold-like fungi found more exclusively upon the Orange and
its allies. These bear a deceptive resemblance to incrustations of Scale-
insect.

Of these fungi the one most readily mistaken for Scale-insects com-
monly appears upon the trunk and branches as little hard excrescences
of gray color, which, in wet weather, burst, disclosing a white cottony
interior, from which they are often confounded with the " Mealy Bug,"
(Dactylopius). The resemblance to the Coccid is increased when the
white spicules, a bundle of which fills each little fungus cup, are beaten
out by rains, and felted upon the bark in a mold -like coating. The
fungus is confined to the surface of the bark, and appears to germi-
nate exclusively among the debris of Scale-insects. It is always found
upon trunks that have long been coated with Chaff Scale (Parlatoria
pergandii). It may also be found upon the leaves when they have be-
come infested with this scale, and is easily removed by gentle friction

INJURIES BY INSECTS DISTINGUISHED FROM ORGANIC DISEASE. 3

between the fingers, coming off with the scales, and showing no close
attachment to the surface of the leaf.

The fungus feeds upon the substance of the dead or vacated scales,
and is not directly parasitic upon the plant. It is extremely injurious,
however, by reason of the closely-felted coating which is formed, causing
the bark to harden and the tree to become u hide-bound."

FOOT-ROT. This disease appears only upon sweet seedling orange
trees, most frequently between the ages of nine and twelve years, and
often bears a deceptive resemblance to the work of insects. It takes the
form of cancerous sores, which destroy the cambium layer of the bark.
The sores are confined, except in rare instances, to the foot or collar
of the tree, and begin as little cavities "filled with fermenting sap and
having an offensive, sour odor. These cavities extend their boundaries,
the outer bark dries and cracks, allowing the sap to exude and run
down upon the outside. Sometimes winding channels are formed in the
inner bark by the burrowing of the pus, and when these are laid bare
by the knife the resemblance to the track of a " Sawyer," or coleopter-
ous borer, is very striking. When the sores become extensive the dead
outer bark above them sloughs away, exposing the dry wood beneath.
At this stage the disease is liable to be mistaken for the work of u Wood-
lice" or White-ants (Termites), which will, moreover, very likely have
made their appearance. The characteristic mark by which the galleries
of termites may most readily be distinguished from sores of foot-rot con-
sists of a lining of comminuted wood with which these insects always
smooth the wails of their tunnels and chambers. If this is wanting in
any of the wounds, even though termites be seen in the immediate vi-
cinity, they cannot be the authors of the mischief.

Foot-rot usually ends by girdling and killing the tree. Like cancer
in animals, it is sometimes successfully treated by a free nse of the
knife, although this frequently serves only to aggravate the difficulty
and increase the area of the disease.

Antiseptic treatment with lotions and poultices containing carbolic
acid might prove beneficial, but seems never to have been tried. A
remedy that has been found practicable, if taken in time, is to plant at
the foot of the diseased tree young stocks of the Sour u range, which is
never affected by the disease, and as soon as they have established
themselves, to graft them into the trunk two feet or more above the ground.
These supplementary stocks will in time replace the original roots and
form a new crown, while supporting and preserving the life of the tree.

Many insects, attracted by the fermenting sap, resort to these sores.
They are all scavengers, feeding only upon the lifeless bark and sap,
or else innocuous and predatory species, such as lurk in dark, cool
places everywhere.

SMUT. A deposit resembling soot is found upon the leaves and bark
of trees which have been infested with certain kinds of bark-lice. It
is not confined to the Orange, but is found upon the Oleander, the Olive,

4 INSECTS AFFECTING THE ORANGE.

and many other plants, and always follows the attacks of Lecanium,
Oeroplastes, and other Coccids which produce honey -dew.

The Gall-berry, Ilex glabra, a wild plant which grows in great abund-
ance in the sterile " flat woods" of Florida, and which is much infested
by Oeroplastes scale, is often blackened by it over many acres in ex-
tent.

Prof. W. G. Farlow, in a paper entitled " On a Disease of Olive and
Orange Trees occurring in California in the Spring and Summer of
1875," describes and figures this smut, and shows it to be a fungus.
He determines it to be Capnodium citri Berkeley & Desmazieres, a
species occurring on Orange, &c., in Europe, and says that it seems
nearly or quite identical with the Fumago salicina of older writers.
(See Tulasne, "Carpologia Fungorum," PI. XXXIY, Figs. 14 and 20.)
In the same paper it is shown, from botanical considerations, that it
does not feed on the plant, but on the honey-dew ejected by insects.

Smut upon orange trees has long been known, and its nature and
origin have formed the subject of many curious speculations.

In -a rare work, published at Nice, in 1806, and entitled "Histoire
Xaturelle de la Morf6e, ou de I'Infection de la Famille des Grangers ; par
PAbbe" Loquez," this fungus is described, and also the Bark-louse con-
nected with it, and the two are treated as jointly constituting a disease
of the Orange, which at that -time ravaged the gardens of Italy and
southern France.*

Both the fungus and the insect being nourished, according to the
author's view, upon the superabundant juices of the plant, he proposes
to remedy the disorders produced by their combined attack by depriv-
ing the tree of moisture, and by the dessication of its juices.

Smut probably does no more injury than would be occasioned by a
similar coating of soot or other fine powder coating the leaves and
growing parts of the plant. But as it is never seen except in conjunction
with the destructive insects above mentioned, it is not very easy to
determine what proportion of the damage is attributable to the fungus
alone.

SPLITTING OF FRUIT. Moore, in his treatise on Orange Culture,
says: "The cracking of fruit is occasioned by any suspension of the
growth of the fruit, and a consequent hardening of the rind, followed
by a sudden flow of sap from any stimulating cause, as highly fertil-
izing a bearing grove, especially during summer, or a wet spell follow-
ing a dry." Certain sap-loving beetles of the family Nitidulid&, arid
also vinegar or pomace flies, attack the spli fruit both on the tree and
after it has fallen to the ground. The larvre, which they produce in vast
numbers, penetrate the pulp, and cause it to rot with great rapidity.

Many persons, finding the split fruit infested with these grubs and

* The Bark-louse is called by the author Coccus Jiesperidum Linn. ; but his minute
and excellent account of the insect and its habits clearly indicate that it was a
species of Mealy-bug (Dactylopim).

THE INSECT FAUNA OF THE ORANGE. f>

maggots, are disposed to consider them the originators of the mischief.
A sound orange is, however, most perfectly protected by its oily rind
against the attacks of these and most other insects, and it has been
found that they die of starvation rather than penetrate it to reach the
pulp within.

DROPPING OF FRUIT. Sucking-bugs (Hemiptera) of several kinds at-
tack the orange, and their punctures invariably cause the fruit to drop
and rot.

All fruit trees drop their fruit from causes more or less obscure, but
in some way connected with the condition of the plant. The Orange is
no exception to this rule, but whenever the loss of fruit is attributable
to the bites or punctures of insects, the depredators themselves may be
readily discovered, as all are of large size and easily seen.

WINTER-KILLED BRANCHES. Borers and mining insects are com-
monly found in dead twigs and branches killed by frost in severe win-
ters. They need occasion no alarm, as they are chiefly scavengers, sub-
sisting upon the dead wood and bark, and seldom do injury to the
living parts of the plant.

THE INSECT FAUNA OF THE ORANGE.

ATTRACTION WHICH THE ORANGE TREE HAS FOR INSECTS. The
dark green and glossy foliage of the orange tree, its dense shade, vig-
orous growth, and above all the succulence of the young shoots and
leaves, render it unusually attractive to insects, not only of leaf-eating
kinds, which are general feeders, but also to many predatory and
innocuous insects which lurk in cool and shady places or seek pro-
tection among sheltering leaves.

Thus many kinds of insects are seen about the trees, some of them
injurious, some beneficial, and some occasional visitants, whose pres-
ence is without significance for good or ill. In general, it may be said
that those which are most visible to the casual observer, and which ap-
pear to seek no concealment, are not injurious. They are, as a rule,
predatory insects, such as the wasps and sucking-bugs, which prowl
about the trees in search of prey, or harmless flies and bees, visiting
the flowers for nectar, or sporting among the foliage.

The injurious species generally lie concealed. They hide in folded
leaves, excrete a scale, or form a covering of sticks and bark. Many of
them are of small size, or, if large, they have some device for their
better concealment, and by some peculiarity of form or of coloration
they are made to resemble portions of the plant on which they rest, and
thus escape observation. The large green " Katydid " readily passes for
a leaf, and in spite of its size is very difficult to detect among the
foliage. The "Orange Dog," a caterpillar more than 2J inches long, is
so marked with brown and white as to be inconspicuous when re'sting
upon the bark, from its resemblance to a lichen -covered twig. Its

6 INSECTS AFFECTING THE ORANGE.

chrysalis presents a still more striking example of the same protective
resemblance.

INJURIOUS INSECTS. First in importance are the Bark-lice (Coccidse).
These sap the life of the tree at its source. The vital juices are sucked
up, and probably also poisoned, as the blood of animals sometimes is
by the sucking parasites which infest them.

Of insects injuring the root, little is known. As has been shown,
" Wood-lice " (Termites) are very often injurious just beneath the surface
of the ground, and there are some as yet unknown larvae which are
said to bore into the tap-root at a considerable depth. The trunk has
few enemies, except Bark-lice, some species of which prefer to attack
that part.

The leaves and twigs, being those portions which offer the greatest
extent of exposed surface and the greatest variety of food, support
also the largest number of depredating enemies. A large proportion
of the leaf eaters feed indiscriminately upon many plants. Such are
nearly all the locusts, grasshoppers, and crickets, many caterpillars,
and some true bugs which injure by suction. The latter, however, for
the most part confine their attentions to the tender shoots, blossom
buds and fruit.

With many of these insects the injury is limited to the gnawing of a
few leaves, and their importance to the orange-grower is not great.
Others, on account of their large size and voracity, defoliate the frees
and do appreciable damage.

The tender budding stalks furnish particular species of insects
with their especial food ; certain other species feed upon the budding
leaves in the earlier part of their lives, and, when adult, select them as
places of deposit for their eggs. These do especial harm in checking
the advancing growth, nipping it in the bud, and inflicting far greater
damage than those which confine their attacks to mature parts of the
plant.

Injury to the blossom buds and young fruit- is caused by certain suck-
ing-bugs (Hemiptera), and the fruit as it approaches maturity is attacked
by insects of the same family, whose punctures cause it to drop from the
trees and rot.

A minute mite, which appears to be one of the few forms of insect
life peculiar to plants of the citrus family, infests the leaves and green
fruit, causing upon the rind of the latter a discoloration known as " rust."

BENEFICIAL INSECTS. Under this head are included a great variety
of predaceous insects and parasites, without whose aid in checking the
horde of depredators, the cultivation, not only of the Orange, but of
most other plants, would be an impossibility.

Every order of insects furnishes its predatory species^ which are to a
greater or less extent beneficial in destroying the plant-eating kinds
upon orange trees. The paper wasps, which hang their nests to the
braiacke*, art employed in seeking out spiders and leaf-roiling cater-

THE INSECT F4UNA OP THE ORANGE. 7

pillars, with which to feed their helpless young. The Lady-birds (Ooc-
cinellidae) and their soft- bodied young, with other beetles seen upon the
trunk and branches, are busily engaged in the good work of tearing off
the scales of Bark-lice and feeding upon the Coccids and their eggs.
Wherever is found a tender shoot infested with a colony of Aphides,
there, in the midst of the swarming Plant-lice, will be found the slug-
like larvte of predaceous flies (Syrphus, etc.), gradually but surely re-
ducing their numbers, in spite of the marvelous powers of reproduction
and fecundity of the Plant-lice. Upon the leaves the active young of
the Lace- wing (Chrysopa) may be seen trundling their little heaps of re-
fuse, beneath which the insect lurks in ambush for its prey. Among
the smaller forms, whose operations are invisible to the unassisted eye,
are numerous predatory mites, which swarm among the Bark-lice, and
greatly aid in holding them in check.

First in importance among beneficial insects, although least in size,
and most difficult of observation, are the true parasites, which live
within the bodies, and even inhabit the eggs of other insects, and, after
having eaten and destroyed their host, issue as minute and active winged
insects. Few, if any, of the insect depredators upon the Orange are with-
out internal parasites, belonging with few exceptions to iheUymenopteraj
an order of four- winged insects of which the bees and wasps are types.

Owing to their small size, and the concealment in which they pass
the greater portion of their lives, parasites are themselves seldom seen,
but the extent of their operations is sometimes rendered apparent by
the great mortality which follows their attacks upon an invading army
of plant enemies. Sometimes the presence of a parasite within its body
is indicated by a change of form or color which the parasitized insect
undergoes before its death, and in any case, after death, the work of
the parasite is plainly shown by the round hole which, in issuing, it
leaves behind in the body or the protective covering of its host.

INNOCUOUS INSECTS. Of these little need be said except that their
number is legion. Their importance to the agriculturist consists in the
liability of their being mistaken for noxious insects, and thus diverting
attention from the real depredators.

Many harmless insects, which are so frequently seen upon the orange
tree that they may be considered its regular attendants, are to a certain
extent beneficial, and either feed upon the various mosses and fungi
which accumulate upon the trunk and branches, or upon the lifeless
wood and bark of dead portions of the tree.

IMPORTANCE OF DISTINGUISHING FRIENDS FROM FOES. Although
little can be done to increase the efficiency of beneficial insects, much
good can at times be accomplished by refraining from interference with
their operations. The orange-grower often does injury to his own in-
terests through lack of knowledge in distinguishing friends from foes,
and by the indiscriminate killing of all insects which he finds upon his
trees.

8 INSECTS AFFECTING* 1 THE ORANGE.

Horticulturists cannot be expected to acquire a technical knowledge
of insects attainable only by specialists, but the entomologist can offer
in many cases practical suggestions to aid in protecting the beneficial
while accomplishing the destruction of the injurious species. In these
pages, wherever our present knowledge permits, the ways and means of
securing this advantage will be indicated, and it is hoped, by the aid of
plain descriptions and figures, to render recognizable to the orange-
grower some of the more important beneficial insects with which he is
concerned, as well as the destructive kinds with which he must con-
tend.

PRESENCE OF CERTAIN INJURIOUS INSECTS INDICATED BY ANTS.
Many of the Bark-lice (Coccida3), as well as the common Plant-louse
(Aphis) of the Orange produce sweetish secretions, which are greatly
relished by ants ; indeed, with some species, the honey-dew ejected by
these insects appears to furnish the greater part of their food. At all
events, whenever any of these nectar-giving insects exist upon an orange
tree, ants will be found in attendance upon them, and a stream of ants
ascending and descending the trunk of the tree is an infallible indica-
tion of their presence.

The ascending line of ants readily guides the eye to the spot among
the twigs and leaves where these enemies lie concealed, and they are
especially useful in indicating the whereabouts of incipient colonies,
which may thus be destroyed before they have greatly increased, and by
their numbers and the extent of their injuries have forced themselves
upon our notice.

Young orange trees are particularly liable to suffer injury from Aphis
and the soft-bodied, nectar-producing CoccidaB. In the nursery, where
the greatest attention should be given to prevent stunting and loss of
growth, we may pass rapidly along the rows, and by the presence of
ants upon the stocks detect at a glance those plants upon which the
pests have obtained a foothold.

SYSTEMS OF CULTIVATION.

INFLUENCE OF SHADE UPON THE INCREASE OF INSECT PESTS.
Most insects love shade. Some, and among the number Scale-insects,
the worst pests of the Orange, prefer the darkness and dampness pro-
duced by dense masses of foliage. Plants, on the other hand, require
light and air, for want of which the inner branches pine and lose vital-
ity, a condition which also greatly favors the reproduction of Scale-in-
sects.

The good advice of the horticulturist, a Prune back excessive branch
growth, give and keep an open head to the tree," may be supplemented
and sustained by that of the entomologist, "Let in light and air." Let
this not, however, be construed as indorsing the practice of trimming
high the trunks, and depriving them of their spreading lower branches,

SYSTEMS OF CULTIVATION. 9

their best and most natural protection against extremes of heat and
cold.

CLEAN CULTURE OB MULCHING PREFERABLE TO CROPPING YOUNG
GROVES. The practice of planting crops between the rows of young
orange trees is not without certain evil consequences in attracting dep-
redators. Many of these do indirect damage only. Cotton, for instance,
is attacked by the Cotton Worm (Aletia xylina) which, after stripping
the cotton plants of their leaves, gather upon the orange trees and make
their cocoons between the leaves. The orange trees are fouled with
their webs and tangles, which foster Scale-insects.

A very appreciable amount of damage is always inflicted by locusts or
grasshoppers (AcrididaB) when succulent plants, like Cotton or Cow Pea,
are planted in young groves; and when the system of allowing weeds
to grow about the trees is pursued, the loss of growth from these in-
sects is sometimes very serious. Older trees do not greatly suffer, and
are, moreover, able to spare a portion of their foliage ; but very young
trees when surrounded by weeds are more or less defoliated and checked
in growth. The tops of young trees being small and low their leaders
and tender shoots are gnawed and destroyed as fast as they appear,
and most of the summer growth may thus be lost.

Objection is sometimes made to mulching orange trees with leaves or
vegetable refuse, on the ground that the mulch attracts and harbors
insects. Most of the insects which lurk in such places, however, are
predaceous species, and may be considered either harmless or beneficial.
Very few of them are injurious to the orange tree.

White ants (Termites) must be considered an exception to this rule.
They are attracted by decaying vegetable matter, especially by dead
wood, and sometimes attack the living tree at or beneath the surface of
the ground. To avoid attracting such dangerous neighbors care should
be had in mulching to leave the crown of the tree uncovered and ex-
posed to the light and air. It is also best to exclude from the mulch
all solid masses of wood material, such as chips and branches.

It is to be noted in regard to the common practice of scattering in the
grove and about the trees bits of wood, bark, branches or logs, and al-
lowing them to decay upon the ground, that the danger from this sys-
tem of fertilizing is not always immediate, but consists rather in attract-
ing termites and inducing them to establish colonies in the vicinity of
the trees, which may indeed escape injury while an abundant supply of
dead wood remains, but are liable to be attacked if this should become
dry or partially exhausted.

SEASONS OF GREATEST INSECT ACTIVITY. Although in Florida some
insects breed continuously throughout the year, there is a very general
winter rest from November or December to January or February, ac-
cording to the severity of the season. The awakening in spring is
gradual and not sudden as at the North.

In February most of the species of insects injurious to the Orange

10 INSECTS AFFECTING THE ORANGE.

make their appearance, and in May and June attain their greatest ac-
tivity.

Daring July and August there is a marked lull in the insect world.
Many forms disappear, to return again in September.

The most effective time to wage a war of extermination against insect
pests can only be determined satisfactorily by a special study of each case,
but, if a general rule be required, June and September may be indicated
as the months in which especial efforts should be made to rid the grovel
of insect enemies. For fighting Scale-insects, however, the month of
March or April, if the season be a late one, will be found the best in all
the year.

COCCID./E.

[SCALE-INSECTS OR BARK LICE.]

CHAPTER I.

CHARACTERS OF THE COCCID^B AND COMMENCEMENT OF
THE CONSIDERATION OF THE SUBFAMILY DIASPIN^E.

GENERAL CHARACTERS OF THE COCCID^ AND THEIR RELATIONS TO

OTHER INSECTS.

The Scale-insects or Bark-lice, as they are more comprehensively
called, constitute a striking group of insects, remarkable for the pecu-
liarities of their development. In this family the females never pro-
gress to the winged state ; on the contrary, in many of the species, after
a short larval period, they undergo a change of form, and retrograde,
becoming, when adult, mere living egg-sacks, with organs only of the
simplest sorts, such as are needed for reproducing their kind, and to
support a degraded, almost plant-like existence.

The males, on the other hand, advance further and pass through the
usual metamorphoses of insects, finally appearing as winged insects.
They differ, however, from other insects of the order Homoptera in pos
sessing but one pair of wings; the hind pair (halteres) being aborted,
and reduced to stumps, which are provided with a hook that grapples
the fore- wing, and apparently aids in steadying or directing flight. The
existence of the male after reaching the adult state is fleeting ; he seeks
out and impregnates one or more females of his kind, and then dies,
living at most a day or two, and taking in the mean time no food. In-
deed, in this final stage the insect is entirely unprovided with mouth
organs or digestive apparatus of any sort.

Bark-lice commonly excrete a covering, which may be of a horny,
resinous, waxy, or powdery nature. Some of these coverings afford
products of use in the arts; the white wax of commerce and lac, from
which shell lac is formed, are substances of this sort. The dried -up
bodies of certain other species yield purple or red dyes, of which the
best known in modern times is cochineal. Many of the species, and
especially the naked kinds, eject honey-dew, a sweetish liquid, which
is greedily lapped up by ants, bees, wasps, and many other insects. A
sort of solidified honey-dew, called " manna," is produced by a Bark-
louse (Gossyparia mannipara Ehrenberg); it collects in considerable
quantities upon the tamarix trees in Arabia, and is thought by some to
have been the heaven-sent manna that nourished the Hebrews in their
wanderings. Even in our day it is given as food to invalids, and has a
limited use in pharmacy.

1 4 INSECTS AFFECTING THE ORANGE,

DIVISION INTO SUBFAMILIES.

The species of Coccidse, according to their varied forms and the diverse
nature of their coverings, are divided into several groups or subfamilies.

Three groups are represented in the southern United States, and em
brace all the species doing injury to orange trees. The characters
given below will suffice for the proper arrangement of the species falling
within the scope of this treatise.

I. DIASPIN^E. This subfamily embraces those species which form a
thin, horny scale, supplemented by the molted skins of the insect.
Example, the Long Scale of the Orange, Mytilaspis gloverii.

II. LECANIN^E. The species of this division form no true scale ; they
are either naked or covered with a thick coating of waxy material.
The naked species have, however, toughened skins, which, after the
death of the insect, remain adhering to the bark, and then somewhat
resemble the scales of the Diaspinae. Example, the Turtle-back Scale,
Lecanium hesperidum.

III. COGGING. This division includes soft-bodied Bark-lice, called
"Mealy-bugs" because of their loose coverings of white, fibrous wax, in
the form of a powder, or of long and delicate plates and filaments,
easily destroyed by a touch. Example, the common Mealy-bug, Dacty-
lopius destructor.

In the first of these groups (Diaspina3) the change from an active,
roving larva, possessed of legs, to a fixed and memberless, sack-like
animal, takes place very soon after birth. The scale also is a complete
and separate structure, permanently fastened to the bark, and large
enough to include not only the body of the mother insect, but also her
eggs.

In the second group (Lecaninae) the form of the larva is retained
much longer than in the first group, and the insects, though very slug-
gish in habit, do not become absolutely fixed upon the bark until they
are distended with eggs or young. The legs also are not lost, but
gradually become useless as the insect increases in size, and are finally
lost to sight under the swollen body.

In the third group (Ooccinoa) the form of the larva is retained by the
females through life, and is obscured, but not altered, by the formation
of an egg-sack, or by light costings of wax.* The organs of locomotion
are retained, and the females in most of the species move about freely,
even after they have begun to produce young.

Thus in structure and habits the Diaspinse differ most widely from
other insects, the Coccinse least, while the Lecaniua3 hold in this respect
an intermediate position.

"Except in Kermes, a genus with which orange-growers are not likely to become
concerned.

LIFE-HISTORY OF THE ARMORED SCALES.

DIASPINJE.

(THE ARMORED SCALES.)

[Plate III, and Figures 1 and 2.]*

LIFE-HISTORY OF THE ARMORED SCALES.

The larva. When the young Bark-louse first makes its appearance
from beneath the protecting scale of its mother, it is a minute, oval,
flattened creature, provided with all the organs usually possessed by
the young of insects; namely, six legs, a pair of antennae in front and

FIG. 1.

FIG. 1. 1, egg natural size, scarcely T foj inch; 2, larva as it appears when running over the twigs
natural length, -fa inch ; 3, its appearance soon after becoming fixed; 4, appearance of scale after the
second plate is formed ; 5, form of louse (ventral view) soon after losing its members; G, form oflonse
when full crown; 7, fully formed scales, containing louse, as it appears from the under side, when
raised ; 8, highly magnified antenna of the larva by an error eight joints, instead of seven, the cor-
rect number, are shown in the drawing. (After Kiley.)

a pair of bristles behind, simple eyes on the sides of the head, and a
short sucking beak.

At first the young larva moves restlessly
about, with a lumbering gait, by no means
sluggish, yet markedly less rapid than that
of the minute and active mites which are
often found in company with it. The object
of its wanderings is simply to find a suitable
spot upon the bark in which to insert its suck-
ing tube or beak. Usually within a few hours
after leaving the parent scale the young Bark-
louse has become a fixture upon the surface of
the plant; the sucking mouth-parts, which
consist of a bundle of four slender hairs, grow
rapidly until they greatly exceed the body of
the insect in length, and, penetrating deeply
into the tissues of the plant, can never after-

FIG. 2. a, terminal joint of the
female ; &, spines upon the border ;
c, excretory pores ; d, pregnant fe-
male ; e, structure ot proboscis,
showing four components; /. excre-
tory scale, showing successive lay-
ers; <7, second, or medial, scale; A,
larval, or first scale. ( After Kiley.)

^Figures 1 and 2 illustrate the mode of growth in Mytllaspis pomorum Bouche",
the Oyster-shell Bark-louse of the Apple. They are reproduced from the First and
Fifth Missouri Entomological Reports (1868 and 1872), in which the facts essential to
a complete knowledge of the life-history of Diaspinous Scale-insects are fully set
forth by Prof. C. V, Riley.

16 IJS SECTS AFFECTING THE ORANGE.

wards be removed by the Coccid, but firmly anchor it in place. When
pulled by force from the bark these long bristles separate and curl up,
and the insect is powerless to reinsert them or to again attach itself to
the plant, and must inevitably die of starvation.

As soon as the young Bark-louse begins to feed upon the juices of the
plant excretions of wax commence to exude from its body. There first
appear along the sides and at the end of the body long curled threads
of white wax. These form a tangled mass, enveloping the insect ; but
this first covering is very delicate, and after a time it partially or en-
tirely disappears, owing to the action of the weather. It is succeeded
by a covering formed in a similar manner, but of denser texture. This
second covering is more persistent; it is in fact the beginning of the
permanent scale.

For two or three weeks after the formation of the infantile scale is
completed the external appearance of the insect does not change, butv
within a new body gradually forms and separates from the larva skin
until the latter becomes a loosened envelope, from which finally the
new-formed insect entirely withdraws its body, passing through a split
in the under side. "The molted skin is not abandoned, however, but
remains, partly covering the Coccid above, and ultimately forms the
summit or the extremity of the permanent scale.

With the old larva skin are cast off the now useless members of the
larva, and the insect takes the form of a fleshy sack of very simple con
struction. The joints of the body are indicated by fleshy folds, and the
hair-like mouth-tube projects from the under side near one end of the
body. The thin outer edge of the last or anal joint of the body is fur-
nished with minute, horny lobes and spines, and its upper and lower
surfaces present numerous pores, through which flows a viscid liquid,
the material which on hardening forms the protecting scale. On the
under side of the last joint can also be plainly seen the vaginal opening,
through' which pass the eggs or young.

Immediately after molting the body of the Coccid expands, so that
it can no longer be entirely covered by the cast skin of the larva, and a
portion of the broad terminal joint projects beyond its 'edge ; but the
exposed parts are soon flooded with a glutinous fluid, issuing from the
pores that stud its surface, and this in a few minutes hardens, and
forms an extension of the covering.

During the growth of the insect which follows the molting of the
larva skin, the scale covering receives repeated additions of these thin
Iamina3, each of which underlies and projects slightly beyond the pre-
ceding layer, and the scale constantly increases in size and in solidity ;
while at all times the outer edge remains the thinnest, and therefore
the most vulnerable point. Thus the process of growth at this stage is
seen to be analogous to that of snails or oysters, which form their shells
in an exactly similar manner.

A considerable interval having elapsed after the first molt, the fe-

LIFE-HISTORY OF THE ARMORED SCALES. 17

males agaiu cast their skins ; but their form at this time remains un-
changed. The second skin like the first remains in place and forms a
part of the scale ; it is, however, less distinctly visible than the first
larval skin, being- covered with more or less of the thick excreted ma-
terial.

Soon after the second molt the females are impregnated by the
males. From this time until the scales reach their full size their growth
is very rapid. In the linear scales (Mytilaspis) the females not only
increase in size as their bodies become distended with eggs, but they
also shift somewhat their position under the scale, so that finally, at the
smaller end, that portion which lies immediately under the molted skins
is left vacant. To permit this movement sufficient slack is given the
flexible sucking tube between its junction with the body and the point
at which it enters the bark.

The eggs are now laid under the scale, beginning at the outer edge.
As they are deposited, the body of the female shrinks, and gradually
retreats to its former position, leaving the outer portion of the scale
filled with eggs. When all her qggs are laid the depleted female shrivels
and dries up, and life in her exhausted body gradually becomes ex-
tinct.

The Males. As crawling larvae, and during the time that their scales
are forming, the males are indistinguishable from the females ; but
after the first molt differences begin to appear, and the scales of the
males become recognizable by their form or color, although the insects
themselves are not markedly different until after the second molt.

Shortly before the second molt of the females the males also cast
their skins a second time, and in so doing change to the pupa state. In
the pupa, the legs, wings, and other parts of the perfect insect are grad-
ually formed under a mask-like skin, in which the new form is obscurely
outlined.

At the second molt the male ejects the skin from its scale, while in
the female it remains and forms a part of the scale itself. In the male
growth ceases with this molt ; but the scale of the female is at this
stage less than half its full size; the male scale is therefore much
smaller and thinner than that of the other sex, and the first larva skin,
but not the second, forms part of its structure.

After remaining a week or sometimes less in the pupa state the pupal
envelope is rent and torn from its limbs by the perfect insect. This oper-
ation takes place under the scale, and the winged fly leaves its shelter
only after a rest of several hours, which, indeed, may be prolonged into
days if the weather does not happen to be propitious. The exit of the
fly is made by pushing up a portion of the outer edge of the scale. In
the elongate scales of Mytilaspis, the escape of the male is facilitated
by a thin joint in the scale, which permits the broad end to be lifted as
a flap. The body of the male terminates in a spine-shaped organ, by
(J521 o I -2

18 INSECTS AFFECTING TH& ORANGE.

means of which it is enabled to reach and fertilize the females under
their scales.

Prof. J. H. Comstock, whose minute and exhaustive study of the life-
histories of certain of our common Scale-insects has left little to be added
by subsequent observers, has pointed out that the lives of these insects
are divided by their metamorphoses into nearly equal intervals. In
the words of this author, " the three intervals between the birth of the
female and the first molt, between the latter and the second molt, and
between this and the beginning of ovipositiou are about equal."* The
first molt in the male, and also its second molt, or entrance into pupa,
take place at nearly the same time with the molts of the female. The
existence of the male, however, terminates before the completion of the
third interval by the female.

The interval in which the eggs are laid and hatched, and the young
larvae desert the parent scale, is about equal to the preceding inter-
vals. This fourth period completes the cycle of development, and its
close witnesses the death of the female, following the departure of her
progeny.

During the spring and early summer, in the laboratory at Washing-
ton, twenty days appears to have been the mean duration of each in-
terval $ ill the open air in Florida there is considerable acceleration, due
to the warmer climate. This is apparent especially in the later stages
of development, which are greatly shortened in summer. The first
molt usually takes place within twenty days after hatching, but this
first period, although more constant than the following, varies with the
eeason or in different species, from sixteen to twenty -four days. The
whole cycle, or brood period in winter, may cover three months, but in
summer, it is reduced to five or six weeks.

Nature of the scale covering. As was first clearly pointed out by
Prof. C. V. Riley (see Fifth Missouri Entomological Eeport, p. 80) the
scale of the Diaspina3 is a shield-like structure, covering the in-
sect above, and wholly or partially protecting it beneath. It is con
structed, as we have seen, in part of tbe molted skins of the insect, but
mainly of a horny excretion, covering or surrounding the latter, and de-
posited by the Ooccid in numerous fine, overlapping layers. The under
layer is thinner, and, although perhaps a separate piece, is firmly united
to the upper scale at the edges, so that the latter appear to be turned
under at the sides. In the long scales the ventral plate consists of a
flange along each side, leaving in the middle an open crevice; but in
the oval or circular scales it forms an unbroken shield, which entirely
separates the body of the insect from contact with the bark.

The scale js permanently fastened upon the tree, and so closely molded
to its surface that the pores of the bark or the stomataof the leaf are
seen plainly stamped upon it when removed.

The materials of which the scale is constructed are very indestructi-

* Report of Commissioner of Agriculture for 1880, p. 280.

THE LOWG SCALE OF THE ORANGE. 19

ble, and well serve to protect the helpless organism which they sur-
round, both from the action of the weather and the attacks of exter-
nal enemies. The molted skins consist of chitine, a substance which
forms the hard external parts of nearly all insects, and the excreted
portion of the scale is composed of a sort of hardened wax, having the
toughness of horn.

The upper scale is therefore impervious to most liquids, and is not
soluble in acid or alkaline solutions strong enough to injure the plant.
It resists the action of oils and of bisulphide of carbon, an almost uni-
versal solvent. Many insecticides are therefore inoperative, and all in-
soluble substances, such as sulphur, etc., are clearly useless, as they do
not reach the eggs or mature insects. The thinner, ventral scale is not
impervious to the more volatile oils or to alcoholic solutions, some of
which reach and kill the insect by penetration through the bark.

As the scale, like the shell of the snail, is formed by successive addi-
tions, and keeps pace in its growth with that of the body of the insect
within, its vulnerable point is the growing end, and there are times dur-
ing its formation when the posterior extremity of the insect projects
slightly beyond it and becomes exposed to the action of penetrating
liquids. This is particularly the case at the critical periods when the
Coccid sheds its skin. But when the scale is fully completed and tightly
sealed at all points, no insect is more difficult to reach and to destroy.

LONG SCALE.

(Mytilaspis gloverii, Packard.)

[Plate III, fig. 2; 1Y; and Fig. 3.]

Growth of the Scale. In the Long Scale the increase in size takes place
chiefly in one direction, producing a linear body, which may be either
straight or curved in the form of a cornucopia. The first molt or cast
skin of the wandering larva forms its extreme tip, but the delicate film
of wax which at first covered this skin disappears, or leaves traces only
in the form of two minute projections, and its surface exhibits more or
less plainly marked indications of the body -joints of the young louse.
Beyond, and partly underlying the shield-shaped first larva skin, is that
of the second molt, but this skin is overlaid and imbedded in the sub-
stance of the scale, so that its oval outline is faintly visible beneath
the coating of horn. The scale increases in width during the first half
of its growth, after which the width remains the same and the sides are
parallel. '

The plate which forms the underside is firmly united to the upper por-
tion of the scale, and projects beyond it on the sides, forming thin
flanges, that greatly increase the tenacity of its hold upon the bark.
The ventral plate does not entirely cover the under surface, but is di-
vided in the middle, leaving a long, narrow slit, through which the body
of the insect comes in contact with the bark.

20 INSECTS AFFECTING THE ORANGE.

The Scale of the Female is brownish, about 3 mm (ffe inch) in length, and
less than one-fourth as wide; there is, however, great variation in size,
and dwarfed or malformed scales are numerous. When crowded the
scales are apt to be warped and curved, although normally they are
straight.

The Scale of the Male is much smaller than that of the female, quite
uniformly l mm (Y- O - inch) in length, and very seldom curved.

The colors, varying shades of brown, are lighter, and incline to yel-
low in the males and young, but become dark mahogany-brown in the
older females. The brighter color of the forming scales gives warning
of the increase of the pest, and to a practiced eye discloses the age and
progress of the brood, even when scattered or mingled with the debris
of former broods.

In the aggregate, the scales, when densely clustered, have a reddish
hue, which has caused this species to be known in some localities as the
<< Bed Scale."

Female Coccid. The body is an elongate, flattened sack, rounded at
the extremities and divided into segments or joints. The posterior
segment is bordered with spines and plates of microscopic fineness. Dur-
ing the growth of the insect this segment is the widest portion of the
body, and upon its surface, as upon a trowel, are laid the successive
additions to the scale. After impregnation it loses its prominence,
through the swelling of the intermediate joints of the body.

The young and growing females are translucent, waxy white, with
the thin outer edge of the last joint yellowish (chitinous). As they grow
olde"r, they are tinged with amethyst, and toward the end of their lives
become dark purple in color.

The adult female is 1.3 mm (&$ inch) in length. Its sucking beak con-
siderably exceeds the body in length. The structural details are given
in the Report of the Commissioner of Agriculture for 1880, page 323.

Male Coccid. The male is a minute fly, T ^ inch in length. Its body is

JFlG. Z.Mytilaspix gloverii (Pack.), male. (A fter Comstock.)

pale pink in color, and three or four times as long as wide. The differ-
ent joints *of which it is composed are very closely united, but are indi-

THE LONG SCALE OF THE ORANGE. 21

cated upon the naked surface by a variety of Hues, some of which in-
close shield-shaped plates. Toward the head these plates are small and
more or less. triangular; upon the middle portion, to which the \fmgs
are attached, they are large and with rounded sides. The abdominal
extremity is divided into short, transverse joints.

The head is small, and bears upon its apex a pair of rather heavy,
many-jointed antennae, equal to the body in length, and clothed with
short hairs. The rnouth-organs are wanting, but in their place are seen
black dots, which are said to be supplementary eyes. The true eyes
are also black in color, and are visible on the sides of the head.

The front pair of legs is placed well forward, and a wide interval
separates it from the second 'and third pairs, which underlie the
abdomen. The wings are long, membranous paddles, strengthened by
a vein with a single branch, and supported by the aborted hind wings,
or balancers, as they are called. The latter are minute, and terminate
in a hook which grapples a pocket in the front wing. Although quite
large, the wings and also the legs are weak and rather imperfect organs
of locomotion, and the insect's powers of flight are not good. The sex-
ual organs, on the other hand, are well developed, and consist exter-
nally of a long, stout spine or style at the end of the body.

Eggs. The eggs are elongate- oval. The first laid are white; those
laid later are tinged with purple. All become purple before hatching.

Young Coccid. The newly-hatched larva is sometimes white, but usu-
ally more or less tinged and mottled with purple. It is oval and flat-
tened, and does not exceed T ^Q of an inch in length. The body is
divided into a number of unequal joints ; the first of these constitutes
the head, and bears a pair of short antenna, provided with bristles;
minute eyes, widely separated, on each margin, and mouth-organs be-
neath united to form a sucking beak. The body terminates in two
bristles of extreme fineness, which bend downwards, and are dragged
after the insect as it walks.

Life-history. The development and formation of the scale in the
Diaspinse has already been described. The history of the Long Scale
presents few peculiarities. The newly-hatched larva wanders about for
a very short time. As soon as it has settled upon the bark it begins
to emit along its sides threads of wax. which in a few days form a white
film, and gradually cover the body, beginning from behind and ending
in front in two short, horn-like projections. Some of the threads stand
out from the rest ; being long and curly, they are fragile and easily
broken by the wind, but in calm weather they sometimes accumulate,
and form cottony tufts or tangles.

This first covering is evanescent, but traces of it remain in the horn-
like projections on the sides of the head.

The casting off of the larva skin, or first molt, takes place eighteen or
twenty days after birth, and immediately after this the formation of the
true scale is begun. The first layers of horn are united to the hinder

22 INSECTS AFFECTING THE ORANGE.

end of the larva skin, and partly underlie it. They are thin and trans-
parent, but as each successive layer adds to their thickness, they de-
velop a yellow color, which darkens at length to brown.

In the new form assumed by the insect after the molt the hinder end
is broadly dilated, and as this portion of the body forms and determines
the width of the scale, the latter for awhile increases in width as it
grows in length. After the second molt in the female the extremity of
the body ceases to grow in width, and the portion of the scale formed
after this molt is linear, i. e., has the sides parallel.

The second molt of the female occurs at the age of six or seven weeks.
The male molts and changes to pupa a week or ten days earlier, and as
the time required for this transition period is quite short, during the
time that the females are casting their skins many of the males com-
plete their transformations and issue from their scales as winged flies.

After the second molt the scale of the female continues to grow, and
more than doubles its length, but increases little in width.

In nine or ten weeks from her birth the female begins to deposit eggs.
At this time her body, although greatly elongated and distended with
ova, does not entirely fill the scale ; a space equal to about one-quarter
of its entire length is left vacant at the upper or narrow end. The
female is able, by means of the serrated edges of her body, to make a
slight forward and backward movement within this vacant space.

The eggs are laid in two rows, and are placed obliquely, the eggs of
one row alternating and interlocking at the ends with those of the other.
The number of eggs laid by a single female varies greatly, but rarely
exceeds thirty. The deposition of her eggs occupies the female from
one to three weeks, according to the season. The eggs hatch within
one week, unless retarded by cold weather. The first laid, those at the
outer end, are the first to hatch, but the young lice usually remain
several days under the parent scale. The egg-shells are left in place in
the scale, but their arrangement is somewhat disturbed by the move-
ments of the latest hatched young in making their escape.

The female after depositing all her eggs is much shrunken, and be-
comes very dark purple in color. The end of her existence is passed in
that portion of the scale which she occupied at the time of the last
molt.

Brood Periods. There are at least three and sometimes four genera-
tions of Long Scale daring the year, but the division into separate
broods is not as distinct and clearly defined as with many other in-
sects. The open winters in countries where the Orange is grown per-
mit continuous breeding throughout the year, and at all seasons scales
in every stage of development may be found upon the trees.

Not only does the time required by the insect for its development
vary greatly in different seasons, and under varying conditions, but
also individual insects in each brood undergo their transformations
at unequal intervals, some far outstripping the rest and others lagging

THE LONG SCALE OF THE ORANGE 23

behind. This scattering in early broods confuses the succeeding ones
and renders it impossible to assign to each an exact season or in-
variable duration. But although the limits of each brood cannot be
exactly defined, the general progress in development may be known at
any time by the condition of the majority of the scales.

Thus there are times when the number of migrating young reaches a
maximum, and the application of remedies then proves particularly
effective.

Three such periods occur: The first in spring, usually in March, but
sometimes extending into April; the second in June or July; the third
in September or October. During the winter months, if the season is
a mild one, there is a fourth, very irregular brood beginning in January
and continuing through this and the following month. The spring brood
that follows is greatly confused. In cold and rainy winters the hatch-
ing process is retarded, and the appearance of the Iarva3 on the return
of warm weather is more nearly simultaneous than in ordinary seasons.

Parasites. Upon closely examining a branch or leaf infested with
scales of Mytilaspis gloverii, there will always be found a certain num-
ber which have through their upper surface a small, round hole. The
scales thus perforated are invariably females which have not quite com-
pleted their growth. They are empty or occupied by mites or other in-
truders, and the only trace of the original inhabitant which they con-
tain is its dry, distended skin ; this is also pierced with a round hole,
placed directly beneath the one in the outer shell.

These are the exit holes of Hymenopterous parasites, the most effect-
ive enemies of the Scale-insect, and which, after destroying the maker
of the scale, and after completing their own transformations in its room,
have eaten their way through its skin and its shell, appearing finally as
minute four-winged flies, both male and female.

The female parasite, when seeking to deposit her eggs, probes about
the edges of the scale in order to find, if possible, an open crevice through
which to insert her slender ovipositor. Failing in this she bores directly
through the scale, using her ovipositor as a drill, and in this way inserts
within the body of the Coccid a single egg.

The footless grub that hatches from this egg lives within the body of
the Scale-insect and gradually consumes it. When nothing is left but
the empty skin of its host the little parasite, now swollen to an almost
globular form, transforms first to a pupa, and. then to the perfect fly,
which at last makes its appearance through a hole eaten in the walls
that surround it.

Several distinct species of these minute parasites attack the Long
Scale. They are about yf^ inch in length, with an expanse of wing
equal to nearly twice their length. The head is large, with large com-
pound eyes, and three minute simple eyes (ocelli) like jewels set upon
its vertex. The body is rather short and thick. The wings are trans-
parent and beautifully iridescent ; they are strengthened for a portion of

24 INSECTS AFFECTING THE ORANGE.

their length by a stout .vein, placed very near the margin, and having a
short spur or branch at or near the end of the vein. The front wings
are broader outwards and rounded at the tips. The hind wings are nar-
row and more pointed at the ends. The antennas are elbowed, and
clubbed at the ends ; they arise from the anterior face of the head, in
front of the eyes.

In Aphelinus fuscipennis Howard 1 , the general color is yellow, with a
black band across the head behind the eyes, and several dusky bands
upon the body. The wings are clouded with patches of smoky brown.
Length, 0.6 ram ( T J 5 inch).

Apliycus flavus Howard, is uniformly yellow in color, with clear
wings. Length, 1.2 mm , (yfo- inch).

Under the name Aphelinus aspidioticola, Mr. Ashmead (Orange In-
sects, page 7) describes another parasite of the Long Scale, which has
a reddish brown or dusky body, yellowish legs, and clear wings. It is
T -^ inch in length. According to Mr. Howard, this insect is not an
Aphelinus, but belongs to an unknown genus of another family.

These parasites attack the female Long Scale insect about the time of
her impregnation, and their egg is deposited, not simply beneath the
scale, or, as some writers have affirmed, among the eggs of the Coccid,
but within the body of the Coccid itself. The presence of the parasite
within her body destroys the fecundity of the Scale-insect and she
finally dies without reproducing her kind.

So effective are the attacks of these internal enemies, that not less
than 25 per cent, of the scales are destroyed by them, and at times their
numbers increase to such an extent that colonies of Long Scale are
reduced almost to extermination.

Observations made at various seasons of the year indicate a greater
abundance of the parasites in fall and winter, but they are unfailing
attendants upon every brood of the Scale-insect. The result of twenty-
five detailed examinations in early spring gives an average of 76 per
cent, of the scales destroyed by Hymenopterous parasites. Ten exam-
inations during the summer months give an average of 35 per cent., or
one-half that of spring. Fifteen observations in autumn and the be-
ginning of winter give an average of 40 per cent, of scales parasitized.

The activity of these insects is not perceptibly diminished by cool
weather, which on the other hand greatly retards the development of
the Scale insect. It is not therefore surprising that three-quarters of
the winter brood perish from the attacks of these enemies.

Geographical Distribution. First appearance in the United States. The
Long Scale is supposed to have originated in China, and to have spread
tHence to the orange groves of southern Europe and the United States.
According to one authority* it made its appearance in Florida in 1838 1

* Brown's " Trees of America," cited by Glover, Kept. Commissioner Patents for
1855, Agriculture, p. 117. See also Report for 1858, p. 266.
t Ashmead (Orange Insects, p. 1) gives the date 1835.

THE LONG SCALE OF THE ORANGE. 25

at Mandarin, on the Saint John's Eiver, and was first seen in the grove
of Mr. H. B. Robinson, upon trees purchased in New York from a ship
from China.

In 1840 it was carried to Saint Augustine on trees obtained at Man-
darin, and spread rapidly through the groves of that vicinity. Fifteen
years later the same author records the spread of the pest throughout
all the groves then existing in the State, and says: "Most of the culti-
vated orange trees in Florida have also been injured by them, their tops
and branches having been generally destroyed. Their roots and stems,
it is true, remain alive and annually send forth young shoots, only to
share the fate of their predecessors."

The disastrous results of this invasion, which, twenty-five years ago,
brought ruin to the orange industry, and seemed likely to end in the
extermination of the Orange in this country, were due no doubt to the
almost complete absence of parasites at the first advent of the Scale-
insect, and for some years after it had obtained a foothold. Glover,
writing in 1857 an account of the ravages of this Scale-insect in Florida,
notes the complete absence of parasites, although flies belonging to the
family of the Chalcididce were found to do efficient service in destroying
Bark-lice of other and indigenous species.*

At the present day, although this Scale-insect is everywhere dissemi-
nated in the groves of Florida and Louisiana, and likewise infests the
wild orange trees, however remote from cultivated plantations, the de-
structive hordes are held in check by the effective attacks of parasites
everywhere accompanying the Bark-lice, and increasing with their in-
crease, so that no general onslaught of the Long Scale at least is likely
ever again to occur in this country, and only local irruptions of the pest
need be feared.

* Report of Commissioner of Patents for 1858, Agriculture.

CHAPTER II.
DIASPIN^E Continued.

PURPLE SCALE.

(Mytilaspis citricola, Packard.)
[Plate III, Fig. 1, la, 1&, lc.]

Scale of Female. The scale of this species is larger than that of the
Long Scale. Large females exceed 3 mm (-$ inch) in length. The form
is broadly trumpet-shaped, increasing in width behind, sometimes
curved, like a cornucopia, but never with the sides parallel. The sur-
face is smooth and even glossy, and the color varies with age from light
to dark red-brown and purple. The molted larva skins are very plainly
indicated; they are browned by the sun so as to appear scorched.

Scale of Male. The scale of the male is less than half as long as that
of the female (1.4 mm = yj^ inch); it is also more linear in shape, and
uniformly dark purple in color. The thin hinge is always indicated by
a line of lighter color across the upper surface of the scale, near the
outer end.

The purple color of the male scales gives the mass of scales in the
aggregate a characteristic hue, which readily distinguishes this species
from all others found upon the Orange.

Female. The insect within, as well as its outer covering, has a
broader and less linear form than the Long Scale. The two species
also differ in the number and structure of the microscopic plates and
spines, with which the margins of the last two joints of the body are
armed. The number of excreting pores and spinnerets is greater in M.
citricola than in M. gloverii.

Mature females of the Purple Scale are 1.3 mm (y^ inch) in length,
and occupy less than half the space within their completed scales. The
color is white, tinged with yellow at the extremities.

Male. The male and also its pupa are pale amethyst in color. The
perfect insect is about l mm ( T ^ inch) in length, and, excepting in ite
somewhat stouter- form, hardly differs from the male of the preceding
species.

Egg. The eggs are pearly white, never amethystine, 0.2 mm (yA^ inch)
long, elongate oval, often somewhat distorted in shape by crowding.
They are laid usually in four rows, but the eggs at the outer end are
26

THE PURPLE SCALE OF THE ORANGE. 27

irregularly disposed, and sometimes the whole arrangement is confused.
The number laid by a single female greatly exceeds that of the Long
Scale j it varies from twenty-five to seventy, with a probable average
of forty-five.

Young Larva. The newly-hatched young is irregularly oval in shape,
0.3 mm (rto~o inch) in length, and of a transparent white color, with a
tinge of yellow at the extremities. The antennae are stout, six-jointed.
The eyes are minute, and of so fiery red a color that they resemble
grains of cayenne pepper. The two bristles at the end of the body are
almost invisible by reason of their fineness.

Life-history. The metamorphoses of this species are exactly paral-
leled by those of the Long Scale, and are undergone in about the same
periods of time. The broods of one species are sometimes in advance and
at other times slightly behind those of the other.

Habitat. Like the Long Scale, this species is found upon the twigs
and branches, but has a somewhat stronger tendency to overrun the
leaves and fruit. It is apt to infest the Lemon, Citron, and those varie-
ties of Orange which have large oil cells (Tangerine, etc.). Although it
is most at home upon the Orange and its kind, this scale is not exclu-
sively confined to plants of this family, but is probably a general feeder
upon plants of the order Rosacece, which includes nearly all of our fruit
trees.

Origin and Spread. The Purple Scale must be a common pest in most
.countries where the Orange is grown, for it is very frequently seen upon
imported plants and upon foreign fruit in the northern markets. IB
Florida it is fortunately not as common as the Long Scale. It is, how-
ever, more abundant in the northern than in the southern portions of
the orange belt. It is frequently associated with the Long Scale, and
orange- growers do not readily distinguish the two species.

The introduction of the species into this country probably took place
at an early date, but no certain knowledge of its first appearance
exists. Mr. Ash mead (Orange Insects, p. 26) and Professor Comstock
( Report Commissioner of Agriculture for 1880, p. 323) both give Glover as
authority for the statement that this scale was imported into Jackson-
ville, Fla., in 1855, on some lemons sent from Bermuda, but in the
citation given Glover refers to an entirely different scale, less than half
the size of Hytilaspis eitricola, of a different shape and habit, and which
from his imperfect description appears to be the Chaff Scale, Parlatoria
pergandii Comstock.

Parasite*. The parasites of Mytilaspis citricola and M. gloverii are
identical, and the mode of attack is in both cases the same.

Descriptions of several species will be found in the Keport of the
Commissioner of Agriculture for 1880.

28 INSECTS AFFECTING THE ORANGE.

RED SCALE OF FLORIDA.

( Aspidiotus Jicus, Ashmead.)

[Figs. 4 and 5.]

The following account of this species is given in the Report of the
Commissioner of Agriculture for 1880, page 296 :

" Scale of Female. The scale of the female is circular, with the exuviae
nearly central; the position of the first skin is indicated by a nipple-
like prominence, which in fresh specimens is white, and is the remains
of a mass of cottony excretion, beneath which the first skin is shed.
The part of the scale covering the second skin is light reddish brown j
the remainder of the scale is much darker, varying from a dark red-
dish-brown to black, excepting the thin part of the margin, which is
gray. When fully grown the scale measures 2 mm (.08 inch) in diameter.
In some specimens the part covering the exuviae is depressed, and
when the scale is removed from the leaf and viewed under a micro-
scope with transmitted light, the exuviae, which are bright yellow,
show through this part, causing it to appear as described by Mr. Ash-
mead. This scale is represented in Fig. 5, natural size; Fig. 5&, en-
larged. * * *

"Egg. The eggs are pale yellow.

"Scale of Male. The scale of the male is about one-fourth as large as
that of the female ; the posterior side is prolonged into a thin flap,
which is gray in color ; in other re spects the scale appears like that of
the female. (Fig. 5b. enlarged.)

"Male. (Fig. 4.) The male is light orange-yellow in color, with the tho-
racic band dark brown and the eyes purplish-black. It very closely re-
sembles the males of A. aurantii, but differs from that species in being

\* ^^

Fig. 4. Aspidiotus fifius (Ashm.), male. (After Corastock.)

a smaller insect, with shorter antennae, longer style, wider thoracic band,
and with the pockets of the wings for the insertion of the hair of the
poisers farther from the body.

" Development of the Insect and formation of the Scale. The development
of this insect from the egg to the adult state was followed through five
generations. I give, however, only the substance of a part of the notes

THE RED SCALE OF FLORIDA.

taken on a single brood the second one observed as that will be suffi-
cient for our purpose. >xThe observations were made upon specimens
which were colonized on small orange trees in pots in my office in Wash-
ington. The rate of the development of the insects was probably slower
than would have been the case in the open air in Florida.

u April 12, 1880, specimens of orange leaves infested by this scale were
received from Mr. G. W. Holmes, Orlando, Fla. At this date males
were found both in the pupa and adult state. The females also varied
in size, and some of them were ovipositing. Eggs were placed on an
orange tree for special study.

"April 13, the eggs began to hatch. The newly-hatched larva (Fig.

S80

I<ig. 5. Aspidiotus ficus (Ashui.). 5, scales 011 leaves of orange, natural size; a, scale of female
enlarged; b, scale of male, enlarged ; c, young larva; d, e, and/, different stages in the formation of the
scale. (After Comstock.)

oc) is broadly oval in outline and yellow in color. The antenna} are
five-jointed ; the three basal joints are very short and nearly equal in
length ; the fourth and fifth joints are each longer than the three basal
joints together. The fifth joint is strongly tuberculated at tip so as to
appear bifurcated. The eyes are prominent and of the same color as
the body. The young Iarva3 are quite active, but they settle soon after
hatching. Some settled the same day that they hatched.

"April 14, it was found that the young lice, although only twenty -four-
hours old, had formed scales which completely concealed them from

30 INSECTS AFFECTING THE ORANGE.

sight. These scales resembled in appearance the fruiting organs of cer -
tain minute fungi. They were white, circular, convex, with a slightly
depressed ring round the central portion (Fig. 5d) ; their texture was
quite dense, and they were not firmly attached to either the insects or
the leaf, a slight touch being sufficient to remove them without disturb-
ing the larvae. The larvae had not changed in appearance, and were
able to move their legs and antennae.

" April 15, the lice had not changed perceptibly. The scales had be-
come higher and more rounded.

" April 16, the lice had contracted considerably, 'being now nearly cir-
cular, at least as broad as long; in other respects there was no apparent
change. The scales were found to vary somewhat 5 those most advanced
having the central portion covered with a loose mass of curled white
threads. (Fig. 5e.)

" April 17, there was apparent no further change in the larva ; but the
mass of threads covering the central part of the scale was found in some
specimens to have greatly increased in size, equaling in height three or
four times the width of the scale. This mass is cottony in appearance,
and in those specimens where it is largest is more or less in the form of
a plate twisted into a close spiral (Fig. 5/).

" April 19, not much change was apparent in the larva, but the mass of
cottony excretion upon some of the scales had increased enormously ; so
that in some cases it extended in a curve from the scale to a point five
times the width of the scale above the leaf and down to the leaf.

"April 20, no important change was observed either in the Iarva3 or
scales.

" April 21, it was observed that the larvae had become more or less
transparent, and marked with large irregular yellow spots near the
lateral margin of the head and thorax, and with a transverse row of
similar spots across the base of the abdomen ; the tip of the abdomen
is very faintly yellow.

"April 22, no important change was noted.

"April 23, it was observed that the scales appeared faintly reddish in
color with the center white; the reddish color, however, was due in part
to the body of the larva, which is now orange-red, showing through the
scale. It should be noted that in only a part of the specimens did the
cottony mass become enlarged as represented in Fig. 5/. The greater
part of the scales remained until this date Of the form shown in Fig. 5e,
and the cettony spirals have now disappeared, probably having been
blown away.

"April 24, some of the larvae had become deep orange in color.

"April 26, most of the scales had become deep orange in color with the
central part white ; some had at tke center a small nipple like protu-
berance; others still preserved a short tuft of a cottony excretion.
This tuft is either removed by wind or otherwise, or it becomes com-

THE RED SCALE OF FLORIDA. 31

pact, melted, as it were, to form the nipple-like projection referred to
above.

"April 28, the insects appeared as they did two days ago; the scales
had become very tough, and it was with difficulty that they could be
removed from the insect.

" April 30, the insects still remained apparently unchanged. Some of
the scales were only about one-half as large as others, and still remained
perfectly white ; these proved to be male scales. All the scales at this
date had an elevated ring on the disk with a central nipple.

"May 3, many of the larvae began to show that they were about to
molt, the form of the next stage being visible through the skin of the
insect.

"May 5, nearly all of the larvae had molted ; they were now orange-
yellow, with the end of the body colorless. The last abdominal segment
now presents the excretory pores which are represented in the drawing
of the corresponding segment of the adult female. (Fig. 5.)* The molted
skin adheres to the inside' of the little scale, and therefore cannot be
seen from the outside. The scales are now pink, or rose colored, with
the center white.

" May 14, the insects had become a somewhat paler yellow, with the
anal segment slightly darker. Most of the scales were now dark pur-
ple. On removing an insect a very delicate round white plate was ob-
served adhering to the leaf where the mouth parts were inserted.

" May 18, the male scales were fully grown. At this stage they were
dark reddish brown in color, with the center white, and the posterior
side, which is elongated, gray. At this date some of the males had
transformed to pupae; others were still in the larva state; these larvae
were covered with roundish, more or less confluent yellow spots, leaving
only the margin colorless ; the end of the body was pale orange. The
newly-transformed pupae resembled in markings the larvae just described.
Xone of the females had yet molted the second time; their color was
deep orange.

" May 21, nearly all of the males had changed to pupae. It was observed
that the last larval skin is pushed backwards from under the scale, to
the edge of which it frequently adheres.

" May 24, none of the male pupae had transformed to the adult state.

"May 29, it was found that during the five days previous more than
one-half of the males had issued, and the remainder, though still under
the scales, were in the adult state. It was now forty-seven days from
the time the larvae hatched.

" June 2, no males could be found ; the females were about one-half
grown, and were whitish with irregular yellow spots.

" June 9, eggs were observed within the body of a female.

" June 17, it was found that one of the females had deposited nine eggs,
of which six had hatched. This is sixty-six days from the hatching of

* This figure reference is to the original report and not to Fig. 5 of this report.

32 INSECTS AFFECTING THE ORANGE.

the egg, and probably about twenty days after impregnation of the
female.

"The insects of this brood continued to oviposit until July 1.

"Number of generations per year. This insect, living on orange trees in
a room on the north side of a building in Washington, passed through
five generations in less than one year ; the average time occupied by a
single generation was a little less than seventy days. It is probable
that in the open air in Orange County, Florida, there are at least six
generations each year.

"Habitat. Although I have carefully explored many orange groves in
Florida and California, and have had an extensive correspondence with
orange-growers, I have been unable to find this species in the last-
named State, and have found it only in a single grove in Florida. This
is the grove of Messrs. Holmes and Eobinson, near Orlando, in Orange
County. The insects were first observed here in the spring of 1879 on a
sour-orange tree which was brought from Havana, Cuba, in 1874. On
learning these facts I sent specimens to a friend at Havana in order to
ascertain if the species occurred there. He at once returned me other
specimens with the information that it is a very common pest in public
gardens of that city.

" This species infests the limbs, leaves, and fruit indiscriminately. In
the grove of Messrs. Holmes arid Eobiuson it has spread slowly. The
large trees which are infested do not seem to suffer much from it, but the
young trees are greatly injured by it. Mr. Holmes considers the dis-
figuring of the fruit as the worst feature of the pest. The insect has
multiplied to such an extent upon the trees upon which I colonized it in
my breeding-room, that nearly all of them have been destroyed. The
species is certainly one that is greatly to be feared, and there is no
doubt that it would be a good investment for the orange-growers of
Florida to eradicate the pest, even if in doing so it is found necessary
to purchase and destroy all infested trees. This could be done now
easily, but if delayed a few years the species will doubtless become per-
manently established."

Since the publication of the above by Professor Corastock, the Ked
Scale of Florida has made its appearance at San Mateo upon the St.
Johns Elver. Its transportation was accomplished in 1881 or 1882 by
means of infested fruit (Lemons), sent from Orlando, and packed for
shipment at San Mateo. From the packing-house the pest escaped to
orange trees in the vicinity, and soon obtained a foothold in the sur-
rounding groves.

RED SCALE OF CALIFORNIA.

(Aspidiotus aurantiw Maskell.)

[Fig. 6.]

This very destructive pest of the 'Jrauge is known as yet only from
California j its introduction into Florida upon imported plants is how-

THE RED SCALE OF CALIFORNIA.

ever greatly to be feared. The following discussion of the species is
found in the Report of the Commissioner of Agriculture for 1880, p. 293:
''Scaleof Female. - This scale resem bles that of Axp idiot m liens in shape,
size, and the presence of the nipple-like prominence, which indicates
the position of the first Jarval skin ; but it can be readily distinguished
from the scale of that species as follows: It is light gray, and quite
translucent; its apparent color depending on the color of the insect be-
neath, and varying fiom a light greenish yellow to a bright reddish
brown ; the central third (that part which covers the second skin) is as
dark, and usually darker than the remainder of the scale; and when
the female is fully grown the peculiar reniform body is discernible
through the scale, causing the darker part of the outer two-thirds of
the scale to appear as a broken ring. (Fig. &b.) * * *

Flo. C Anpidiotus attrantn Masfcell. 6, scales on leaves of orango, natnral size; a, adult male,
much uular&ed; b, scales of female, enlarged; c, seale of male, uular^ud. (Alter Couistock.)

"Eyy. I have not seen the eggs of this species, excepting those taken
from the body of the female. And as I have repeatedly found young
larvae under the scalts I am led to believe that the species is vivipar-
ous.

u Scale of Male. The scale of the male resembles that of the female,
excepting that it is only one-fourth as large ; the posterior side is pro-
longed into a flap, which is quite thin; and the part which covers the
larval skin is often lighter than the remainder of the scale.

"Male. The male is light yellow, with the thoracic baud brown, and
6521 o i 3

84 INSECTS AFFECTING THE ORANGE.

the eyes purplish black. The outline drawing, Fig. 6a, represents the
shape of the various organs.

" Habitat. I have observed this species in several groves at San Ga-
briel and Los Angeles, Cal. At the first- named place, where it is very
abundant, it is said to have first appeared on a budded orange tree which
was purchased by Mr. L. J. Kose, at one of the hot-houses in San Fran-
cisco. At Los Angeles it appears to have spread from six lemon trees
which were brought from Australia by Don Mateo Keller.

44 At first I considered this an undescribed species, as I could find no
description of it either in American or European entomological publica-
tions. I therefore described it in the Canadian Entomologist under the
name of Aspidiotus citrL Afterwards I obtained copies of the papers
" On some Coccidce in New Zealand," by W. M. Mask ell, published in
the Transactions and Proceedings of the New Zealand Institute, and
found that he had described an insect infesting oranges and lemons im-
ported into New Zealand from Sydney which was either identical with
or very closely allied to the red scale of California. I at once sent to
Mr. Maskell for specimens of the species described by him. These have
just been received and prove to be specifically identical with those in-
festing citrus trees in California. Thus the question as to source from
which we derived this pest is settled beyond a doubt.

" I have found Avpidiotus aurantii only on citrus trees. It infests the
trunk, limbs, leaves, and fruit. The infested leaves turn yellow, and
when badly infested they drop from the tree. This species spreads quite
rapidly ; and from what I have seen of it, 1 believe that it is more to
be feared than any other scale insect infesting citrus fruits in this
country. As illustrating the extent of its ravages in Australia, Dr.
Bleasdale told me of a grove of thirty-three acres which nine years ago
rented for 1,800 per year, and for which three years ago only 120
rent could be obtained.

" Specimens of this insect colonized on orange trees in the breeding-
room of the Department passed through their entire existence in a little
more than two months ; hence it is probable that in the open air in
Southern California there are at least five generations each year, and
possibly six. The mode of the formation of the scale in this species
very closely resembles that of A.jicus, described at length in this re-
port. The ventral scale, however, reaches a greater degree of develop-
ment in A. aurantii than in A. ficus. At first it consists of a very del-
icate film upon the leaf; when the second molt occurs it is strengthened
by the ventral half of the cast skin, the skin splitting about the margin
of the insect, the dorsal half adhering to the dorsal scale and the ventral
half to the ventral scale. Later, after the impregnation of the female,
the ventral scale becomes firmly attached to the dorsal scale and to the
insect 5 so that it is almost impossible to remove an adult female from
her scale."

tEE WHITE SCALE.

THE WHITE SCALE.

(Aspidiotus nerii Bouche".)

[Fig. 7.]

Although this species has not yet been reported from orange groves
in Florida, it is known to occur upon various plants, within the limits
of the State. Professor Comstock, in the Report of the Commissioner of
Agriculture for 1880, p. 301, gives the following account of its appear-
ance and habits:

"Scale of the Few ale The scale of the female is flat, whitish, or light
gray in color, and with the exuviae central or nearly so (Fig. 7c). Exu-
viae dull orange yellow; the first skin usually showing the segmenta-
tion distinctly, the second skin more or less covered with secretion, often
appearing only as an orange- colored circle surrounding the first skin.
Ventral scale a mere film applied to bark of plant. Diameter of fully-
formed scale, 2 mra (.08 inch). * * *

"Eggs. The eggs are very light yellow in color.

"Scale of Male. The scale of the male is slightly elongated, with the
larval skin nearly central; it is snowy white with the larval skin light
3 T ellow; longest diameter, l mtn (.04 inch) (Fig. 7 b).

"Male. The adult male is yellow, mottled with reddish brown, central
part of thoracic band reddish. Other characters represented in Fig. la.

"Habitat. This is a very common European species which infests
many different plants, and it is spread throughout our. country from the

FIG. l.Aspidlotua nerii Boncli6. 7, scales on leaves of noacia, natural size ; a, adult male, en-
larged; b, scale ot'mak>, enlarged; c, scalo of female, enlarged. (After Comstock.)

Atlantic to the Pacific, and from the Great Lakes to the Gulf of Mexico.
I have found it more abundant on acacias in California than, eL&awhere,

36 INSECTS AFFECTING THE ORANGE.

and for a time believed that it Lad been introduced from Australia with,
this tree. Many trees were found the leaves of which were completely
covered with the scales, appearing as if they had been coated with
whitewash. Leaves of magnolia were received from Mr. 0. U. Dwinelle,
Berkeley, Gal., which were infested to a similar extent. The following
is a list of the plants upon which I have studied this species: Acacia,
Magnolia, oleander, inn pic, Yucca, plum, cherry, currant, and Melia
(Mel la azcderadi) in California; oleander in Utah; English ivy in a
conservatory at Ithaca, N. Y. ; ivy and u China tree" from Dr. II. S.
Turner, Fort George, Fla.; grass and clover growing in pots with orunge
trees upon which I was rearing tho scale at this Department; lemons
imported from the Mediterranean by a San Francisco dealer; and
lemons forwarded to me by Mr. Alex. Craw from the grove of Mr. Wolf-
kill, ut Los Angeles, Cal.

u The scales upon magnolia from Berkeley, Cal., and upon oleander
from Salt Lake City appear somewhat different from those on acacia and
other plants. But after a very careful study of the different forms from
each plant, I am unable to point out any character which will distinguish
those on magnolia and oleander from others.

a Specimens of infested lemons from Europe were forwarded to me at
Washington by the editor of the Riverside Press and Horticulturist, who
had received them from a correspondent in San Francisco, who had
imported them from the Mediterranean. Notwithstanding the great
distance (once across the Atlantic and twice across the continent) which
this fruit had been transported, the insects infesting it were alive and in
a healthy condition. This illustrates the ease with which these insects
may spread from one country to another, and the dangers attending
the introduction of foreign fruit and nursery stock.

u The appearance of this pest upon citrus fruits in Southern California
is greatly to be regretted, for the species is already so common on other
plants that it may be difficult to keep the orange groves free from it.
The fact, however, that it infests acacia, oleander, and other plants to
such a great extent, and has been observed but few times in this country
on citrus fruits, maybe taken as an indication that it is not liable to
multiply to any great extent upon oranges and lemons.

" In the specimens which I have seen the leaves of the lemon were not
infested, but the scales were very abundant on the fruit.

" The young of this insect which were found on ivy in Florida were
colonized on an orange tree in the breeding-room of the Department.
When one day old the larvae had settled and commenced excreting a
covering; when four days old this covering was quite dense; on the
twentieth day some larvae molted, and on the twenty-eighth day the
second molt. occurred. It was observed that this molt was accomplished
by a splitting of the skin at the sides of the body, so that the dorsal
half of the skin became attached to the scale and the ventral half to the
leaf. Soon ai'ter this molt all the specimens died. This was an indica-
tion that this species could not mature upon the orange. But a very

THE CHAFF SCALE OF THE ORANGE. 37

careful study of the form from Florida lias failed to reveal any character
by which it can be separated from that living on lemon in California.

" Although I failed to ascertain the time occupied by a single genera-
tion, the following notes indicate that there are at least two each year,
and probably more. On the 13th of April, 1880, specimens of magnolia
leaves were received from Berkeley, (Jal., infested by this insect. The
eggs were hatching from this date till 27th April. During this time (22d
April) leaves of ivy were received from Florida, upon which were scales
and newly hatched young of this species. On (he 21st of May other
Specimens were received from Florida; of these the females were about
one halt grown, and the males were in the pupa state.

u Ou the 24th of August I observed again at Los Angeles, Cal., the
eggs of this species.

"During April adult males emerged in my breeding cages from both the
California (Berkeley) and Florida specimens. And during August the
males were again flying at Los Angeles, Cal,

"In conservatories there is apparently no regularity in the periods ot
this insect; for specimens of all stages, from the egg to the adult, may
be observed at the same time."

CHAFF SCALE.
(Parlatnria pergandii Comstock.)

[Plate V, and Figs. 8 and 9.]
Scale of Female. This is a thin, light colored
scale, less than half as long as either of the Myti-
laspis scales. It is more or less circular, usually
somewhat pointed, and less curved upon one side
than upon the other. The first larval skin is a little
darker in color than the rest of the scale ; it is dis- F 'v. *-Priatoria per-

ffnha'U Coins, a, sralo of

tinct, and forms a circular shield, placed near the 1 ;. in!l11 ;- 'i>^'--<'<i; b, scale

ot male, enlarged. (After

edge and on the side, opposite the point. Beyond comstuok .)
and partly underneath the first larval skin may be distinguished the
larger but less distinctly visible shield of the second molt. In well de-
veloped scales several faintly elevated lines or ridges are marked upon
the upper surface, which radiate from the point of beginning of the
scale, and are partly obliterated where they are covered by the molted
skins. A structure somewhat similar to this of the Chaff Scale is seeu
in many sea shells, such as the limpet and the oyster.

The female scale is light straw color, 1.4 mm to l.ti mm (0 06 inch) long.

Scale of Male. The male scale is slender and of nearly equal width
throughout. The material of which it is composed is very thin and
white in color; the larva skin at one end covers about one third of the
surface, is darker than the rest of the scale, and has a greenish tinge,
or a dark green center. Length, l mm (0.04 inch).

Female. The female has the form of a thickened disk, nearly circular
in outline. The edges of the last four or five joints are serrate, with
minute tooth-like lobes aud plates. The color, at first waxy white,

38 INSECTy AFFECTING THE ORA.N8B.

becomes dark purple at maturity. The serrated hind margin is thin
and tinged with yellow.

The mature females do not entirely fill their scales. When gravid
with eggs, their bodies, although much thickened, are reduced in cir-
cumference, and in laying they surround themselves with a nearly com-
plete circle of eggs. Length of mature female 0.6 mm (0.02 inch).

Er/gs.The eggs are as large or larger than those of the Long Scale,
and resemble them in shape and color. They are nearly ().2 mm (0.008
inch) in length, and are more or less amethystine in color.

Young Larva. The migrating larva is very broadly oval, and mottled
with purple. It differs from the larva of related species only in minute
details.

Male. (Fig. 9.) As soon as it be-
gins to form its permanent scale, the
male insect becomes distinguishable
from the female by its more elongate
form, and it soon turns to a dark pur-
ple-red color. The skin of the second
molt is pushed toward the mouth or
thrown out of the scale. After shed-

dill g tlllS skil1 tllG inale illS6Ct

no. 9.-Prtetorf pergnnOti, male. (After

comstock.) a pupa of dark red or purple color,

and has the form of the fly with members folded or abbreviated.

The perfect insect emerges from the thin outer end of its scale, which,
however, has no hinge or flap. The fly is very similar to those of the
Kcniis AxpidioiuS) but is shorter and stouter, and has larger eyes than
the species of Mylilaspis. The color is purple, mottled, and somewhat
p.iler upon the large shield of the upper surface. Length to the tip of
the sryh't about equal to that of its scale, O.G mm (0.02 inch).

Life hfcttory. The young Chaff Scale repeats with slight variations
the history of the species already mentioned. After wandering a few
hours, it chooses a fixed position, very often underneath a pile of old,
dead scales, and in a few days covers itself with a circular shield of
white tissue, so thin as to be quite transparent. This covering disap-
pears before tlic- time of the first molt. After the molt the females con-
struct a circular and the males a linear scale.

The number of eggs laid is variable. Professor Comstock records in
one instance twenty-seven eggs. The average number is sixteen.

Number of Gentrations. The earlier metamorphoses take place at
about the usual intervals of twenty days, but the later periods vary
with the seasons, and are greatly accelerated by hot weather.

The Chaff Scale appears to have one moie brood than the Long Scale.
There are four summer generations, but these broods are so greatly
confused by unequal development in the females that the limits of each
cannot be exactly defined. The first brood in spring and the last brood

THE CHAFF SCALE OF THE ORANGE. 39

In fall may be assumed to be approximately contemporaneous with those
of the Long Scale. They occur in March or April and in September or
October. These months are therefore the proper ones for treatment
with remedies.

Habitat. The Chaff Scale infests by preference the trunk and larger
branches, and to these it generally confines itself until every portion of
their surface is thickly coated, and the young Bark-lice can no longer
find places to plant themselves. It is also frequently seen upon the fruity
occupying the pit-like depressions of the rind. This habit, combined
with its light color, renders it inconspicuous upon the fruit. Upon the
trunks of trees, also, its resemblance to the bark causes it to escape
notice, so that many persons whose groves are suffering from the at-
tacks of this scale are unaware of its presence.

Food-plants and Origin. It has been found upon various plants grow-
ing near infested orange trees. Japonicas and similar thick-leaved
plants sometimes suffer severely from its attacks. It is not known to
infest any native wild plants, and is not found upon the Wild Orange,
except in the immediate vicinity of cultivated plantations. . It cannot,
therefore, be considered a native insect, nor is anything known with
certainty concerning its introduction.

Professor Glover, in his report to the Commissioner of Patents
for the year 1855, mentions the introduction in that year of a Scale-
insect, which he says was imported into Jacksonville, Fla., on some
lemons sent from Bermuda. This Scale-insect has been stated to be
Mytilaxpis citricola. From the brief description given by Glover, it is
not possible to determine with certainty the species referred to, but the
small size and shape of the female and the white color of the male scales
agree closely with the species now under consideration, and render it
probable that the Chaff Scale, and not the Purple Scale, was the insect
in question.

Parasites. In addition to many external enemies, a single Hyuae-
nopterous parasite attacks this scale, and is a very efficient destroyer of
the species. It is a larger insect than those found in the scales of My-
tilaspis, and its larva does not live within the body of the Coccid, as is
usual with these minute parasites, but originates from an egg deposited
beneath the scale and among the eggs of the Scale-insect, which is al-
ways of adult size when attacked. The grub of the parasite makes
room for itself as it grows by eating first the eggs of its host and then
her body. Sometimes, indeed, the eggs alone of the Coccid appear to
suffice for its support and the mother Bark-louse is not molested.

The pupa of the parasite is formed under the scale, and although
without cocoon or coverings of its own, is surrounded by the dry skin
and egg-shells of the Bark-louse. x

The fly issues through a round hole which it eats in the top of the
scale.

40 INSECTS AFFECTING THE ORANGE.

The perfect insect is a four-winged fly, 1.2 mm (0.05 inch) long, honey-
yellow in color, and with dark brown eyes. The antennae have appar-
ently six joints, but the last three joints are closely united into an
elongate club, and the real number of joints is therefore eight. The
abdomen is rather broadly oval, and in the female bears on the middle
of her under side*thc sharply-pointed egg-drill.

The larva is a yellowish-white, naked grub, so thick and short as to
be almost spherical. It is without visible members, even the head being
withdrawn out of sight into the body. The body is plainly ringed, in-
dicating the joints, and the dark intestinal contents are seen as a red
or brown cloud through its walls. Length ().5 mm (0.012 inch).

The pupa is twice as long as wide, flattened, oval, and has a tinge of
yellow color. It shows the form of the perfect insect through the trans-
parent envelope.*

THE ORANGE CHIOXASPfS.
(Chionaspis citri Comstock.)

A new Bark-louse of the Orange has been described by Professor
Comstock, in the Second Entomological Report of Cornell University,
as follows: u In the Report of the Department of Agriculture for 1880 I
described a species of Chionaspis which differed from all other species
of that genus known at that time by the color of the scale of the female,
which is black. This species was found on Eaony nus latifolia at Nor-
folk, Va. 1 stated in my account of this insect that it occurred also on
orange trees in Louisiana and Cuba. A rc-examiiiatioa of the speci-
mens on orange has convinced me that they arc specifically distinct
from those on euonymus. I therefore propose for that form the specific
name of citri. The species can be recognized by the following characters :

" Scale- of Female. The scale of the fomale is of a dirty blackish brown
color with a gray margin ; the exuviae are brownish yellow. There is
a central ridge from which ^he sides of the scale slope like the roof of a
house. The greater prominence of this ridge, and the more elongated
form of the scale are the principal differences between this scale am\
that of the female of Ch. euonymi. There is no danger of its being mis-
taken for any other known species.

"Female. * * * This species may readily be distinguished from
Ch. euonymi by the following characters : There are no groups of spin-
nerets; the mesal lobes are larger and more distinctly serrate than in
(Ght euonymi; and in the last-named species the plates are m twos, while
; in Ch. citri they occur singly."

According to observations made by Mr. L. O. Howard, the Orange
Chionaspis is theespecial pest of orange groves in Louisiana. I thus been
found by him at Pattersonville, Saint Mary's Parish ; at Woodville, 50

* This parasite is evidently au Aphdinus, but ike only specimen in Mr. Hubbard's
collection is too poor for specilic determination. C. ,V. 11.

THE ORANGE CHIONASPIS.

miles below New Orleans; on the Mississippi River above Algiers, and
on the east side of the river in the New Orleans cemeteries.

. 10 Chiona*jn'x eiwymi Cotnstock. 10, srnles on Euonymus, natural size ; a, scale of male, en-
b, scalo of 1'ciualo, tulai gcd. (After

Fig. 10 represents Chionaspis euonymi Comstock, to which the above
species is verj* closely allied.

CHAPTER III.

DIASPIN^B Continued.
RAVAGES OF THE ARMORED SCALES-

Bark-lice omnipresent in Orange Groves. In the foregoing pages an ac-
count has been given of all the species of Diaspinse known to attack
citrus plants in this country. The appearance, distinguishing char-
acters and habits of each have been set forth with sufficient clearness,
it is hoped, to render recognizable by orange-growers the different mem-
bers of this group of insect pests, the most destructive and formidable
with which they have to contend. It remains to consider the nature
and extent of the injuries they inflict and the conditions under which
the plant becomes liable to attack.

It may be premised that in all countries where the Orange is exten
sively cultivated Scale-insects exist, and not seldom make their pres
ence known through the losses they occasion the fruit grower. From
time to time there may be sudden irruptions of Scale-insects, which,
like an epidemic, are wide-spread in their effects, and overrun a great
extent of territory. Such an invasion, as has already been shown, oc-
curred in Florida upon the supposed introduction of the Long Scale. " In
southern Europe also, where the Orange and the Lemon have been culti-
vated for centuries, the occurrences of scale epidemics have been re-
corded, one of which, in the iirst decade of the present century, prevailed
throughout the entire district along the shores of the Mediterranean,
from Italy to Spain, and spread consternation among the inhabitants,
who were dependent upon the produce of their lemon and orange groves
for support.

At the present day, however, owing to a better knowledge of these
pests, the use of cheap and effective insecticides, and of effective instru-
ments for applying them, such wide-spread devastation by Scale-insects
need not bo feared. The omnipresence of the pest, however, compels
the orange-grower to be ever upon the alert if he would avoid loss of
growth in the young or of productiveness in the older trees.

In Florida the greater part of these losses are caused by three Dias-
pinous scales : Mytilaspis glovcrii, the Long Scale ; Mytilaspis citricola,
the Purple Scale, and Parlatoria pergandii, the Chaff Scale. These three
insects are so universally distributed that it is safe to say no bearing
orange tree exists in southern and eastern Florida upon which one or
the other cannot be found.

RATA0ES OF THE ARMORED SCALES. 41

The Long Scale is the most destructive, while it is the most readily de-
stroyed. Few if any localities in the State are free from its presence.

The Purple Scale, being stouter and thicker than the Long Scale, is
more difficult to kill. It is not'less injurious to the trees which it infests,
but is less widely distributed.

The Chaff Scale is hardly less common than the Long Scale, and is very
frequently associated with it. Of the three it is decidedly the most
difficult to exterminate, owing, in part at least, to its habit of piling or
lapping one over the other. Except upon very young trees it seldom
does permanent injury, and is much less to be feared than the other
two species. Its thinner scale renders it liable to the attacks of enemies
to a greater extent than the Mytilaspis scales, and they sometimes cause
its complete disappearance from a tree.

A fourth scale of this group, Aspidiotus, ficus Ashtn. has been ^men-
tioned as recently introduced, and there are still others awaiting im-
portation from California and elsewhere.

Afjencibs ivliick assist their Distribution. During the migratory age the
restless habit of the young Bark-lice impels them to crawl actively
about, turning aside for no obstacles, but mounting every object met
with in their path. The instinct of self-protection being entirely want-
ing in these degraded creatures, they make no distinction between dead
and living objects, and crawl without hesitation upon the bodies of
other and larger insects. The latter, impelled by the annoying presence
of the intruders, fly away, bearing with them the scale Iarva3, and thus
assist in distributing them upon surrounding plants.

Some insects, however, do not notice, or at least do not resent, the
liberties taken by the crawling lice.

Thus the Lady-bird beetles (Coccinellidre) are frequently seen quietly
feeding while several young Bark-lice, evidently attracted by their
shining backs, are coursing in all directions over their bodies. It can-
not be doubted that even these enemies of the Scale-insect bear with
them in their flights this seed of the destroyer and scatter the pest from
tree to tree. Doubtless very many flying insects, and also birds, with
their sweeping tail-feathers, aid in disseminating Scale-insects.

But spiders, more than any other animals, must be considered effi-
cient instruments in this inischiavous work. Not only do they trans-
port the lice and it is an observed fact that the movements of the latter
upon their hairy backs do not incommode the spiders but they also
harbor them under their webs in folded leaves, etc., where, safe from
the attacks of parasites and enemies, they increase and multiply inor-
dinately.

The nest web of a spider will most frequently be found the starting
point from which the lice swarm forth as from a hive and cover the
surrounding parts. Other webs, at a distance from the infected one,
will be occupied in time, but only as the tide of scales reaches their
vicinity, for it is not the habit of the migrating Bark lieo to wander far

44 INSECTS AFFECTING THE ORANGE.

in search of such lurking places, however readily they accept the pro-
tection when found.

Theobserved fact that Scale-insects spread most rapidly .in the direction
of prevailing winds has often been verified, and has led to the belief
in direct transportation by the winds, as the most important agency in
their dissemination. This popular theory is thus stated by a writer:
4 - Now, in the spring and fail, just when the insects are hatching and
most numerous, we have our heaviest- storms. * ,* * During
one of these storms I have often seen leaves, twigs, and sometimes
whole branches taken up and carried whii ling through t hi* air for a
quarter of a mile or further. Ilo\v easy, then, would it be for these
microscopical insects, but a few atoms in weight, to becai ried lor miles."*

The gentle southeast trade-winds of Florida and the storms which
are occasional, and, fortunately, somewhat lare visitants, are very
different phenomena. While the influence of the former is sometimes
seen in the more rapid spread of the Scale-insects towards the north-
west it has never been observed that a sudden extension of the pest
has followed any of the violent or long-continued wind storms on record.

That tempest-borne branches and leaves might carry the infection
to a distance cannot of course be denied, but the dissemination of Scale-
insects, continues without Interruption at all seasons and in all parts
of the State, a process of such constancy and regularity, cannot be
attributed in any great measure to the fitful agency of occasional storms.

Nor can it be by direct transportation that the trade-winds assist in
spreading Scale insects, for winds of moderate force are not competent
to dislodge -the young lice from the plants. Of this any one may be
convinced by trial with a bellows or with the breath. Minute and in-
significant in weight though they are, they cling with tenacity to the
bark, and the pressure of uir upon their thin bodies only serves to press
them into closer contact with the surface.

It is rather to the indirect action of the wind, to the influence which
it exerts upon the flight of insects and other winged animals which
transport. Scale insects, that we must look for an explanation of the ob-
served phenomena.

And particularly is this influence of the wind felt in the case of spiders,
most of the-species of which are dependent upon the wind in their mi-
grations. For, although wingless, they are enabled by means of the
buoyancy of their web and the power which they possess of reeling it
out upon the wind to bsidgc long gaps from tree to tree, and even to
copy the flight of winged animals.

The goss.imer spider makes its aerial voyages by clinging to a light
tangle of web, on which, as by a parachute, it is borne to gieat distances
by the wind.

Many species have this habit of the gossamer. Some, however, use,
instead of a tangle, long lines of web which are cast out upon the wind
to a distance of several hundred feet, until their buoyancy becomes

* Ashiiieud, Orau^c Insects, page 3.

RAVAGES OF THE ARMORED SCALES. 45

sufficient to sustain tlio weight of Hie little aeronaut, or until in its sweep
it becomes entangled in the branches oi' a distant tree or shrub, and
forms a bridge upon which the spider readily crosses.

The warm ascending currents of spring, the southeast trade-winds
in Florida, excite multitudes of spiders to set out upon their travels,
speeding them on their way and directing their course. At this season
of the year, when the migrations of insects are at their height, and all
nature is in restless activity, Scale-insects also are most abundantly pro-
ductive, and the leaves and branches of infested trees swarm with their
young. Thus it is that in spring especially the spiders, aided by the
winds, carry the Bark-lice in numbers and to great distance-.

Conditions favorable to their Increase. There is good reason to believe
that Bark-lice, like many other destructive insects, do not, as a rule,
originate the disorders which follow their attacks. An enfeebled con-
dition of the plant, from whatsoever cause it arises, is generally neces-
sary to provoke an invasion. Thoroughly healthy trees, even when in-
fected, may remain uninjured for years. The Scale insects upon them
thrive only upon the lower or inside branches, and are held in check by
their natural enemies and parasites. An unfavorable atmospheric con-
dition, such as long-continued drought, the impoverishment of the soil,
neglect of cultivation, and the many obscure or utterly unknown causes
which produce u die-back, 7 ' yellow and streaked foliage, or other indi-
cations of vegetable indigestion, if such it may be called, all tend to
foster Scale-insects and favor their rapid increase.

In explanation of these facts, it may be conjectured, although it is
not, perhaps, susceptible, of proof, that peculiar conditions of the sap
are especially favorable to the development of Scale-insects, and affect
the reproductive functions, stimulating the females to greater produc-
tiveness. Observations show that the number of eggs deposited varies
considerably, and that the maximum number is produced, not by soli-
tary females upon vigorous p'ants, .but by individuals of the advancing
I. rood taken from portions of the plant plainly affected by their attacks.

Usual course of the Pest. If it be true that outbursts of Scale-insects
commonly owe their origin to some disturbance in the condition of the
plant, it is no less a lict that their ravages not only aggravate the
original trouble, but entail others, it may be, far more s>jrioas in their
consequences. The countless throng of Bark-lice not only weaken the
plant by sapping and diverting its \italjuices and depriving it of nour-
ishment, but they also strangle the parts which they infest by coating
the surface and c'ogging its pores with their myriad bodies. Their
long, hair like sucking beaks penetrate and thread the cellular tissues
of the growing bark, breaking through and altering its structure so
that the tender bark of the twigs and younger shoots is destroyed,
while the thicker bark of the trunk and larger limbs hardens and be-
comes, as it is popularly termed, u hide-bound."

In this condition healthy growth is impossible. If neglected and al
lowed to be overrun by the pest, the growth of the treo is checked;

46 INSECTS AFFECTING THE ORANGE

the infested twigs and brandies die ; often the entire top is lost. The
roots and trunk, however, survive, and the tree endeavors to repair
the injury by throwing out shoots from bdow.

When the tree reaches tbis impoverished condition matters usually
begin to mend. The Bark-lice upon the dead or dying branches perish
by starvation, the parasites reassert their sway, and slowly the tree re-
gains its health and vigor, but seldom its pristine beauty.

The opinion is often expressed that the tree will " throw off the srales,"
or that they will " disappear in time at the ends of the branches." The
facts upon which this belief is founded are simply that the young lice,
when the branches become crowded, wander off and on to new growth;
their course is, therefore, naturally upward and outward. When the
advancing army reaches the ultimate branches, the insects crowd upon
the smaller twigs and leaves, killing them rapidly and involving them-
selves in the common destruction. The tide of scales is then checked,
while the enemies thrive and multiply, feeding upon the dead and starv-
ing Coccids. There then occurs one of those sudden oscillations of the
balance which are familiar enough to entomologists; the unseen ene-
mies increase and the scales visibly diminish/ The tree meantime has
rest and may under favorable circumstances recover its vigor, in which
case the trouble for the time being is over, and the lost branches are
quickly replaced.

More frequently, however, the new growth, which always pushes out
rapidly in such cases, will, as soon as it hardens, be overrun by the
crawling scale-larva3, newly hatched from eggs which were not involved
in the destruction of the mother insects, and after an interval a new
brood will be found again in possession. This process may be repeated
many times in the tops of full-grown trees, and the orange-grower at
each ebb in the tide will perhaps flatter himself with the deluskm that
the scales have in some mysterious manner disappeared at the ends of
the destroyed branches. Well-grown trees may submit again and again
to* these vicissitudes. They may even permanently recover without the
aid of applied remedies, but very young orange trees do not possess
the powers of resistance of adult trees ; their tops being small and
their branches short, they are usually entirely overrun in a single sea-
son, and, if not attended to, sustain irreparable injury, resulting, in the
case of budded trees, in the destruction of the budded portion.

Influence of Climate. The retarding action of cold weather upon the
development of Scale-insects, and the acceleration produced by the
higher temperature of the summer months, has already been mentioned.
The influence of a warm climate is shown in the increased number of
annual generations. The species of Diaspin found in the Northern
States have all, or nearly all of them, a single generation, occupying the
summer months. The same species have in the warmer portions of the
United States at least two broods, and in the extreme South those
species with which orange-growers have to contend produce not less
than three and some of them more than four generations.

RAVAGES OF THE ARMORED SCALES. 47

The long-continued beat of summer acts as a check upon the advance
southward of those species which inhabit the North, and is probably a
more important factor in determining the geographical distribution of
many species than the frosts of the northern winter.

Indeed the notion that Scale-insects are destroyed by frosts is entirely
erroneous. Their eggs withstand any ordinary degree of cold, and the
insects themselves survive a freezing temperature that kills the plants
upon which they feed. The winter climate of a laud in which the open
culture of the Orange is possible cannot be sufficiently rigorous to kill
even the young of Bark-lice. In Florida the coldest weather merely
serves to retard their development.*

Natural Checks. The parasites of Bark-lice, some of which have al-
ready been mentioned, and the numerous enemies to be considered here-
after, are similarly affected by climatic conditions. Their broods in-
crease in number as they extend southwards, and in the main their
activity keeps pace with that of their prey. Ordinarily, therefore,
the various checks upon their increase are sufficient to prevent the
spreading of Bark-lice to an injurious extent, and, as we have seen, it
is only at times that they increase so rapidly as to entirely outstrip their
enemies and overrun the plant.

* Mr. Joseph Voyle, in a report made to Professor Riley, ami published in Bul-
ledn No. 4, United States Department of Agriculture, Division of Entomology,
gives the results of an elaborate series of experiments made by subjecting Scale-in-
sects, with their young and eggs, to the action of low temperatures for varying lengths
of time. In these experiments the Coccids were placed in a small tin cylinder and
surrounded with a freezing mixture of ice and salt. The time of exposure was never
less than one nor more than sixteen hours, and the temperatures ranged from 16 to
:5G F. Eggs were killed when the minimum fell below 25 and were not killed at
higher temperatures; the young Bark-lice were killed in every experiment. It is to
be remarked, however, that an average time of nine days was allowed to elapse before
the results obtained were considered iinal. As Mr. Voylo himself suggests, "Some-
times Iarva3 retain for several days an apparently natural appearance, leaving it
doubtful whether their final death is the result of the temperature or want of food."

In regard to the eggs also it is probable that certain conditions not noted and not
taken into account in these experiments vitiated the results, since they do not cor-
respond with what takes place in the open air during severe frosts.

On this point Mr. Voylo himself gives evidence when he says: "During the past
winter, 1832-'3, by some special observations, positive evidence was obtained that
often very little damage was done to scale insects by cold that killed the tender orange
shoots. On the morning of December 16, 1882, the thermometer was reported at va-
rious figures, from 19 to 25 F. My own lowest reading was v!5. On this morning
I cut orange branches incrusted with scale insects, and found young migratory larvae
of .Uylilaspis running about quite lively."

This discrepancy is remarked by Mr. Voyle, and the following explanation is sug-
gested : " There are conditions practically unattainable artificially, where the coccids
arc protected from the effec's of such temperature as under favorable conditions
would be fatal to them. The leaves of the tree, the warm current rising from the
ground around the trunk of the tree, and the initial heat of the tree itself perform au
important part in modifying temperature for these insects. In a still atmosphere
this might become a perfect protection against a temperature much lower than would
prove fatal in other conditions."

' CHAPTER IV

LECANIXJE THE NAKED Oil WAXY SCALES.

General Characters and L>fc-history. The Bark -lice of this subfamily
make no true scale. They are either naked or possess waxy coats ad-
hering more or less closely to tlic bodj of the insect, but not fastened
permanently to the bark. The development from the larva to the adult
female is apparently one of simple growth, and no molts have been ob-
served. The change in form takes place gradually and is due to the
swelling of the body as it becomes lilled with eggs or young, or to the
accumulation of the covering of wax. Eggs are deposited in a cavity
beneath the body of the mother, or are retained within her body until
hatched, in those species which bring forth their young living.

The young change their position upon the plant at will, and this
freedom of movement is retained until near the end of their lives. The
insects, however, become more sluggish as they grow older, and at last,
in the incubating period, the legs and other external members of the
larva wither and the body becomes adherent to the surface of the plant.
No males have been discpvered in any of the species of the group which
come within the scope of this treatise.

The newly-hatched young of the Lecanina3 closely resemble those of
the Diaspina3. They are active, six-legged creatures, with thin bodies,
oval in form. They feed in the same manner, by plunging their sucking
beaks into the cellular tissues of the plant, but the beak never grows
very long, and while active life remains the insect has power to remove
it and to reinsert it in afresh place.

Two genera of Lecaninie fall within the scope of this work.

In the genus Lecanium the insect makes no covering for itself or its
eggs, but the skin becomes more or less toughened with age, and finally
presents the appearance of a parchment-like scale. The species belong-
ing to the genus Ceroplastcs excrete a thick coating of wax, which wraps
the body of the insect above, but is easily removed from its surface.
Underneath the wax the skin of the Coccid is thin and tender.

THE TURTLE-BACK SCALE BEOAD SCALE.
(Lecanium hesperidum, Linn.)

. [Fig- 11-]

Descriptive. The full grown Coccid is 3 mm to 4 mm (0.12 to 0.1C inch)
long, broadly oval, more or less swollen, arid convex upon the disk, sur-
rounded by a thin, flat margin with two shallow notches on each side
48

THE TURTLE-BACK SCALE.

and one deeper indentation behind. The color changes with age from
transparent yellow in the young to deepening shades of brown in the
adult. ' Individuals attacked by parasites turn black. Until it becomes
gravid and swollen with young, the insect is exceedingly thin and trans-
parent, the green color of the leaf or bark showing through the body so
that the very young Coccid is well nigh invisible. The surface is smooth
and shining, with faint, scattered punctures on the disk. The six slender
legs are concealed beneath the dilated margins of the body. The male,
although for liwny years diligently sought, both in this country and
abroad, still remains undiscovered.

Toinifj Larva. The new-born
insect has the usual oval form of
young Bark-lice. It is yellowish
in color, and has a pair of six-
jointed ant enure, and two long
bristles at the anal extremity.

Metamorphoses. The metamor-
phoses which take place in this
species are very simple, and con-
sist in a llul tening and broaden-
ing of the form of the larva, and
in the gradual loss of external or-
gans by disuse. The first to dis-
appear are the antennae and the
anal bristles; lastly, but not until
the body becomes swollen with
young, the legs become useless,
and are imbedded in the excre-
tions, which iinally cement the
insect to the surface of the plant.
The body of the mother in this
last stage of her existence be-
comes a caskot filled with the

young lice. These in due time

Fio. 11 . Lccantum heupcridvni (Linn.) Adult fe-
males, on Oruuge, natural size. (Afi.tr Cowstock.}

swarm forth together and distri-
bute themselves over the plant.

Restricti >n to youny Growth The young lice invariably settle upon
the bark and leaves of tender growth. Even the adult insects do nci
appear able to pierce with their beaks the tissues of the plant when
hardened by age, and only the gravid and incubating females are found
upon parts which have completed a season's growth.

Gregarious Habits. There is a tendency in the young to kcvp together,
and at seasons when the Orange is in active growth, when the p'aut is
pushing out an ffbundauce of shoots, the swarming larva do not need
to wander far in search of food. The. progeny of each female then set-
tle down together, and extensive colonies are formed. These colonies
G52I o i 4

50 INSECTS AFFECTING THE ORANGE

never long outlast the growing season. If not sooner exterminated by
the attacks of enemies and. parasites, the hardening of the tissues of the
bark and leaves gradually puts an end to their existence, and the -young
of later generations must seek elsewhere for their support.

Brood Periods. Thus, in spring and early summer, when the Orange
renews its foliage and new growth is abundant, the increase of this in-
sect is most rapid, and the number and extent of its colonies often be-
come alarming. The month of June is generally the time of greatest
activity in this species. Later in the season the colonies dwindle and
become reduced to a few gravid individuals. The young are obliged to
wander far in search of bark sufficiently tender to be penetrated by
their beaks. This can be found only upon the solitary shoots and vig-
orous leaders, which the tree in summer sends upwards from the trunk
or main branches below. It is not surprising, therefore, that very many
of the young lice hatched in summer perish from hunger, being unable
to find a spot penetrable by their beaks, or they fall a prey to numerous
enemies in their wanderings over the plant, and in fall and winter, as
a rule, only solitary individuals are met with.

Excretion of Honey. From minute pores upon the sides of the bodies
of these insects exudes a colorless nectar. This liquid may also be
ejected by them with considerable force, so that it falls upon the leaves
ttnd parts of the plant at some distance away, and forms a sticky coat
ing ; but it is never in sufficient quantity to form drops, as sometimes
happens in the case of other sucking-bugs which produce honey dew.
If npt lapped up by other insects, the nectar attracts a black sugar
fungus (Capnodium citri), and the plant becomes coated with "smut."

Attended by Ants. Like all sluggish nectar producing insects, the
Lecanium hesperidum is attended by troops of ants, which feed upon
the sweet excretions, and not only clean the surface of the leaves about
the Bark-lice, but also lick the insects themselves, and with caressing
strokes of their antennse induce them to give out the liquid more
freely. Ants, therefore, are not enemies of this Bark-louse; on the con-
trary they are its friends, and afford it more or less protection from the
attacks of certain enemies. The extent of their services to the Bark-
lice has been greatly exaggerated, however, and they cannot prevent
their destruction by internal parasites.

As indicators of the presence of this Bark-louse, ants become useful to
the observing cultivator, for if a tree is in the slightest degree infested,
and long before the colonies of Lecanium become destructive or even
noticeable, the tell-tale stream of ants ascending and descending its
trunk gives an infallible indication of the impending evil and guides
the eye to the secret lurking places of the pest.

PARASITES. Colonies of the Turtle-back Scale are, however, seldom
allowed to dwindle and dissipate themselves solely by the action of their
own laws of growth and existence 5 they are subject to the attacks of
internal parasites which greatly hasten their dissolution. These para-

THE TURTLE-BACK SCALE. 51

sites are, as usual, minute Hymenopterous flies belonging to the family
of the Chalcididcc. The destruction which they work upon colonies of
the Bark-louse is so great that frequently it appears an accident due to
oversight on the part of the parasites if among the throng an occeasional
individual Coccid escapes. Among scattered and solitary individuals of
Lecanium the destruction by parasites is less complete and many escape.
If it were to remain strictly gregarious at all seasons of the year this
now common Bark louse would no doubt speedily become a rarity. The
following four species of these parasites have been observed to prey
upon Lecanium liexpcridum :

Coccophagu* lecanii (Fitch). In this species the general color of the
body is black, the crescent-shaped shield on the back between the
wings is lemon yellow in the female and brown in the male; eyes dark-
red brown ; anteniuB light brown, with the tip of the club darker;
wings clear, with dark-brown veins; thighs brown, yellow at the ex-
tremities, the remainder of the legs light yellow, with the last joint of
the tarsi brown. The length varies from I 1 "" 1 (0.04 inch) in the female to
0.5 min (0.0-J inch) in the male.

This parasite lives upon several species of Bark lice, and is found in
all parts of the United States. In Florida it is the most common para
site of Lecanium hesperidum, and is seldom absent from its colonies.
With rare exceptions a solitary specimen of Coccophagus occupies the
body of each parasitized Lecanium. The Coccids are always attacked
before they attain full growth. In dying they turn black and adhere
firmly to the bark. The bloated and hardened skin of the Bark-louse
forms a casket in which the parasite undergoes its transformation to a
pupa of dark color, and from which it emerges in time as a perfect tiy
t hrough a round hole eaten in the shell. If there are any distinct broods
they coincide with those of the Bark-louse, and with the colonies of the
latter the numbers of the parasite increase or diminish.

Coccophaguscognatm Howard (Fig. 12)
is a somewhat larger species than the
preceding, rather lighter (dark brown)
in color. In the female the shield upon
the back is orange-yellow ; in the male
the corresponding parts are tipped with
light yellowish-brown. The front legs
are fuscous, the middle and hind pairs
darker; all the tarsi are whitish, with
the last two joints dusky. Length of
female 1.2 mm (0.05 inch), of male 0.6'p
(0.02 inch). This species, first noted Fl - i2.-Coccopjo.7 oognatut. (After

l Howard )

and described by Mr. Howard (Report

of Commissioner of Agriculture for 1880, p. 359), was bred from Lecan-
ium licsperidiim on orange trees in the orange house of the Department
of Agriculture at Washington.

INSECTS AFFECTING THE ORANGE,

Fio. 13. Com ys bicolor. (After Howard.)

The foregoing parasites, belonging to the genus Coccophagus, hare
eight-joiuted antennae. In the genus Comys the antennae are eleven-
jointed, the shield upon the back
(scutellum) terminates in a tuft of
long, stiff hairs, and the fore wings
are clouded with brown.

Comys Mcolor Howard (Fig. 13) is
the largest parasite of Lecanium lies-
peridum. It has dark-brown eyes,
head and face yellowish brown, col-
lar shining black, remainder of tho-.
rax yellowish-brown, with black
hairs; abdomen shining black. The
first and second pairs of legs are
respectively dark and light brown,
with the thighs white below, fn scons
above; the hind legs dark, with silvery white tarsi; length 1.75 mm (007
inch). This parasite is found in company witb Coccophagus Iccanii.

Being larger it inhabits the
full grown scales, while the
Coccophagus attacks only those
which are partly grown. The
Bark-ltee which contain pupae
of this parasite turn black as
with the preceding species.

Encyrtus fluvus Howard
(Figs. 14 and 15). In this spe-
cies the antennae are eleven-
jointed, but the scutellum is
lustrous and without the tuft
of hairs. The sexes are very
dissimilar. Female, general
color ocher yellow; eyes brownish ; eyelets carmine; antennae brownish,
or yellowish at base, three intermediate joints brilliant w.hite, club at

the end black; the lore-wings
dusky, cltar at base, with a clear
band across the middle, and two
triangular clear spaces on the
outer third. Length, 1.2 mm (0.05
inch). Male, color shining me-
tallic green, with bronze tinge on
the back ; legs light yellow, d usky
at tips; antennae dusky, yellow
at base, the joints covered with
long hairs. Length, 0.85 mm (0.03

Fio. 15. -Encyrtus flavus, female. (After Howard.) inch).

Geographical Distribution and Food Plants. Lecanium hesperidum

FIG. l^. Encyrtus flavus, male. (After Howard.)

TITE BLACK Sl'ALE OF CALIFORNIA. 53,

(Linn.) is one of the best known and most widely distributed species of
Bark-louse. For centuries it has been transported from one country to
another, until it lias become thoroughly cosmopolitan and a common pest
in green houses throughout the world. In mild climates, like those of
southern Europe and the southern United States, it thrives in the open
air. It is a general feeder, and although found most constantly upon
plants of the citrus family, others in great variety are attacked. Marked
preference is shown for plants with smooth bark and thick or glossy
leaves; thus the Ivy, Oleander, and Japonica suffer equally with the
Orange from the depredations of this Bark-louse.

THE BLACK SCALE OF CALIFORNIA.

(Lccanium olece Bernard.)
[Fig. 16.]

The following account of this scale is found in the Report of the
Commissioner of Agriculture for 1880, p. 336:

*' Adult Female. Dark brown, nearly black in color ; nearly hemispheri-

FIQ. }6.Lfcanium olccz Bernard. 1C, cdult females on Olive, natural size; a, female, enlarged.
(AiU-rCumtttock.)

cal in form, often, however, quite a little longer than broad: average
lengih from 4 :nri to 5 imn ; average height 3 mm . Dorsum with a median
longitudinal cariua and two transverse cariuae, the latter dividing the

INSECTS AFFLCTLNG THE UilAXGE.

body into three subequnl portions; frequently the longitudinal ridge is
more prominent between the transverse ridges than elsewhere, thus
forming with them a raised surface of the form of a capital H- Tlio
body is slightly margined; outer part of the disk with many (18-30)
small ridges which extend from the margin half way up to center of
dorsuin. Viewed with the microscope, the ^kiu is seen to be filled with
oval or round evils each with a clear nucleus; the average size of the
cells being from .05 mm to .00 mm in length, while the nuclei average .02 mm
in diameter. The antennae are long and 8 jointed, the two basal joints
short; joint 3 longest, joints 4 and o equal and shorter, joints G and 7
equal and still shorter, joint 8 with a notched margin and almost as long
as joint 3. Legs rather long and stout, the tibiae being about one fifth
longer than the, tarsi. The anal ring seems to bear six long hairs.
" The Efjcj. Long oval in shape, 0.4 mm in length, yellowish in color.
" Newly-hatoked Larvce. There is nothing very characteristic about the
young larvae; they are Hat, and their antennae are only G jointed.

u The black scale is stated by Signoret to be properly in France an
olive scale, sometimes, however, becoming so common as to occur
on all 'neighboring plants also. In California we find it infesting the
greatest variety of plants, and becoming a very serious enemy to orange
and other citrus trees. I have found it at Los Angeles on orange and
all other citrus plants, on olive, pear, apricot, plum, pomegranate, Ore
gon ash, bitter sweet, apple, eucalyptus, sabal palm, California coffee,
rose, cape jessamine, Habroth-mus eleyans ; and elsewhere upon an Aus-
tralian plant known as Brachaeton, and also upon a heath. It preferably
attacks the smaller twigs of these plants, and the young usually settle
upon the leaves.

' The development of this species is very slow ; and it seems probable
that there is only one brood in a year. Specimens observed by Mr.

Alexander Craw at Los An-
geles, which hatched in June
or July, began to show the
characteristic ridges only in
November. Mr. Craw has
seen the lice, even when quite
well grown, move from twigs
which had become dry and
take up their quarters on fresh
ones.

''Although carefully looked
for, the males, like those of so
many other lecanides, have

FIG. 17. Tomoccra cctlifornica, male, (.liter Howard.) uevcr beCll f Oil lid.

'< A dark brown bark-louse has been sent me from Florida, on live oak,
holly, oleamle:-, oiange, and one or two unknown plants, by Dr. II. S.
Turner, of Fort George, which appears to be identical with Lecanium

THE HEMISPHERICAL SCALE.

Pio.18. Tomocera calif or nica, female. (After
Howard.)

olece. It is, however, by no means as abundant or injurious in that
State as in California.

"Natural Enemies. Enormous quantities of the eggs of the black
scales are destroyed by the chalcid
parasite Tomoiera californica, de-
scribed on p. [368J of this re-
port. [Fig. 17, male; Fig. 18,
female.] Particulars as to the
work of this parasite are given at
the same place. Upon one occa-
sion (August 25, 1880), I found
within the body of a full-grown
female a lepidopterous larva,
which was very similar in appear-
ance to the'liirvse of the species of
Dakruma described in my last re-
port as destroying bark-lice. The specimen, however, was lost, and no
more have been found since.

u A number of beetles of the genus Latridius were found under scales
which had been punctured by the Tomocera, but probably would not
destroy the live insect. Many mites were found feeding upon the eggs
and young. The infested trees were also swarming with the different
species of lady-bugs ( Coccinellidce)."

THE HEMISPHERICAL SCALE.

(Lecanium hemisphcericum Targioni.)
[Fig. 19.]

Professor Comstock, in the Report of the Commissioner of Agricult-
ure for 1880, p. 334, thus treats of this Bark-louse :

"Adult Female. Shape approaching hemispherical with the edges
flattened. Average length, 3.5 mm ; width, 3 mm ; height, 2 mm . The shape
and proportions vary somewhat according as the scale is formed upon
a leaf or a twig. Upon the rounded twig it loses something of its hem-
ispherical form, becomes more elongated, and its flattened edges are
bent downwards, clasping the twig. In such cases, of course, its height
becomes greater and its width less. The color varies from a very light
brown when young to a dark brown, occasionally slightly tinged with
reddish when old. The oval cells of the skin vary in length from .Ol mm
to .04 mm , and each cell contains a large granular nucleus. The antenuje
are 8-jointed with joints 1 and 2 short and thick; joint 3 is the longest,
and the succeeding joints decrease gradually in length to joint 8, which
is longer than the preceding. Occasionally a specimen is found in which
joint 5 is longer than 4, and I have seen individuals in which this was
the case with one of the anteuua3 while the other was normal. The
legs are long and rather slender; the bristle on the trochauter is long;
the articulation of the tarsi is very well marked. (This fact has sag-

INSECTS AFFECTING THE ORANGE.

gested to Signoret that the insects of this series are less fixed than their
congeners.) The tarsnl digi titles are, as usual, two long and two short,
those of the claws spreading widely at summit, and very ^tout at the
base. The anal-genital ring (more easily seen than in the other species

we describe) is furnished with eight
long hairs. The anal plates are tri-
angular with roum.ed corners, and
are furnished with two long hairs
upon the disk, and three much
shorter ones at the ti >.

" ThcEgg. The egg is ellipsoidal in
form, and 0.10 mm in length. In color
it is whitish with a yellowish tinge,
and is smooth and shining.

" The neicly-hnichcd Larva. The an-
tennae are only 7 -jointed, and the
tarso-tibial articulation is hardly
marked.

" This bark-louse was first noticed
in the orangery of the Department
upon the leaves and twigs." It was
also noticed upon various green-
house plants, pisipyrus, Chryso-
phyllnm, sago palm, and Croton va-
riegatum. Shortly afi er being found
here it was received from corre-
spondents in California as infesting
orange and oleander. Dining my
visit to California I found it upon a
single orange tree in the yard of
Mr. Elwood Cooper, near Santa Barbnra.

"Actual observation shows the sumiise of Siguoret as to the locomo-
tive powers of this insect to have been correct. Wo have seen the
adult insects when removed Ircin their positions crawl back with ap-
parent ease."

THE WAX SCALE WRITE SCALE.

(Ccroplastes floridensis Comstock.)
[Fig. 20.]

Descriptive. The adult kisect with its covering is from 2 mm to 3 mm
(0.08 to 0.12 inch) in length; oval in form, convex above, flattened or
concave beneath. The upper surface presents a rounded central prom-
inence, and on the margins six or eight smaller prominences surround-
ing the central one, and separated from it by a well marked depression.
Near the posterior extremity, at the bottom of a deep pit, is seen the
open end of a fcube projecting from the body of the insect* The excreted

FIG. 19. LecaniumhcmiaphcericumTurff. 19,
adult females on Orange, nutum! size; a, adult
female, enlarged. (Alter Comstock.)

THE WAX SCALE OR \VHITE SCALE.

covering is a soft wax, very similar to the white wax of commerce. The
color is wlirte, rendered impure by surface accumulations of dust and
dirt. A faint tinge of pink i.s sometimes given, to the semi-transparent
wax by the red color of the insect beneath.

When the covering of wax is removed the naked body of the insect
is disclosed to view. This has the
form of an almost globular sack,
with thin and delicate walls, in-
closing dark red liquid contents,
or eggs of similar color. The up-
per surface of the body bears six
prominent tubercles, three on
each side, and a short anal tujje,
the end of which, as has been
seen, penetrates the covering of
wax. Beneath the flattened ven-
tral surface may be discovered the
disused, but not wholly discarded,
legs and antenna of the larva.
The under surface also usually
shows the marginal notches, more
plainly seen in Lecanium, and
which indicates the three struct-
ural divisions of the body. From
these notches radiate streaks of
chalky white exudation, which at
a hasty glance have the appear-
ance of legs, but probably serve
as a cement attaching the scale
more firmly to the bark.

Larva. The newly-hatched
louse has the usual oval, flat-
tened form. Color pale ruddy
brown, with the members yellowish; antennae G jointed, tipped with
long hairs. The caudal bristles are very long.

Eggs 0.25 mm long, elliptical, having the color of sherry wine.

Life-hi8tory. The eggs, to the number of seventy-five or one hun-
dred, are deposited under the covering of the mother, and are simply
transferred from the inside to the outside of her body, which becomes
excavated below, and is more and more depleted as the process of lay-
ing goes on. At last, entirely collapsed, it forms a mere lining to the
walls of the waxen casket, beneath which the eggs are brought to ma-
turity and hatched.

The young, escaping from beneath the scale, scatter in all directions
over the tree, and soon attach themselves, by their beaks, to the sur-
faces of the leaves. After they have begun to feed and to excrete wax,

Fio. 20. Cer plant's floridensis Comstock.
adnit and ymui^ friii;iK-N <>i> ile\", untsiral wiz"; a,
young iiMifal , r n larked ; b, adult 1'ciualc, enlarged.
(Alter Couistock.)

58 INSECTS AFFECTING THE ORANGE.

they are rarely seen to move by day, but at night they frequently change
their position. Finally they desert the leaves, and at maturity the
greater number will be found upon the bark of the twigs and smaller
branches.

The- excretions of wax exude from minute orifices called spinnerets,
placed in groups upon various parts of the body, but chiefly upon the
margins. At first the wax forms in ridges, which unite and form a
crown around a central tuft. Smaller tufts to the number of a dozen
or fifteen arise about the central elevation, and the young louse, when
about a week old, appears as an oval white star upon the leaf. The wax
gradually spreads over the surface of the insect, and for a time forms
distinct plates ; six of these, three upon each side, are large and dis-
tinct ; the three remaining plates are small ; they are situate one at
each end and one in the center. After the insect has attained two-
thirds its adult size, the plates are found to have coalesced, and form
a thick, continuous sheet of wax, from which arise at least as many
tufts as there were plates. The tufts, which are merely exfoliations of
wax, marking the spots where the material is most abundantly given
off, slowly but constantly melt into the surrounding mass. At full
maturity, when the production of wax entirely ceases, these eruptive
centers become obliterated, or are marked by a few projecting frag-
ments which gather dust and dirt and cause discolorations and spots
which have been variously described by different authors.

The honey dew produced and given off by these insects attracts ants
and other insects, and, as in the case of Lecanium, these lap the nectar
from the bodies of the Ooccids and from surrounding objects.

Broods. The development of this insect is not very rapid, and ex-
tends over three or four months. The principal broods are in spring
(April and May) and in midsummer (July and August). A third brood
occurs in October or November.

Habitat and Food Plants. This Bark-louse is found in all parts of the
peninsula of Florida, but is not known to occur elsewhere. Its prin
cipal food plant is the Gall-berry (Ilex glabra), a plant which grows
abundantly in the sterile " flat woods " and in low ground about ponds.
In these waste places, often far removed from cultivated plantations, the
insect may be found in such abundance that the stems of the gall-berry
bushes are loaded with them in dense clusters, while the leaves and all
surrounding objects are coated with the black smut which always ac-
companies crowded colonies of this and other nectar-yielding Coccids.
Such infested patches of Gall-berry sometimes cover acres in extent.

Although the insect lives and thrives upon many other plants, and
particularly upon such fruit trees as the Quince, Apple, and Pear, which
in Florida do not find suitable climatic conditions, and are not thrifty,
yet in cultivated orchards it is seldom destructive. Upon the Orange
it occurs everywhere in numbers usually insignificant, but at times suf-
ficient to excite apprehension. The white color and striking stellate

THE BARNACLE SCALE. 59

form of tho young, clotted over the glossy surfaces of the leaves, fre-
quently attract attention, but their numbers are always so greatly re-
duced during growth that only three or four per cent, reach tho
adult age.

The thinning-out is not alone the work of euemies and parasites, but is
also due to the fact that the lice, when they become gravid, cannot main-
tain their hold upon the smooth surface of the leaves. They fall to the
ground and perish, being in the latter portion of their lives incapable
of free movement and, therefore, unable to reasceud the trees. Tio
Orange is not, therefore, adapted to this species of Scale-insect, and is
never subject to long-continued or very damaging attacks by it.

The occurrence of this Bark-louse upon wild plants, in portions of
Florida very remote from cultivation, seems to indicate that it is indigen-
our, and not imported as supposed by Mr. Ash mead, who, however,con-
siders it identical with Ceroplastcs rusci (Linn.), a common European
species. Professor Comstock, who has carefully compared the 'Jld
World species with our own, remarks that C. floridensis "presents sev-
eral marked differences ; the most easily noticeable being the small
size of the central plate, and its entire disappearance so early in the life
of the insect."

Parasites. A small Hymenopterous fly has been bred from Cero-
plastes floridensis. It is similar in appearance and habits to Encyrtus
tlaviis Howard, previously mentioned as preying upon Lecanium hes-
peridum.* In his paper on parasites of the Coccidae (Report Comin.
Agric. for 1880, p. 3G9), Mr. Howard notices the occurrence of an allied
parasite, a species of the genus Tetrastichus, which also remains unde-
scribed. 1

THE BARNACLE SCALE.

(Ceroplastes cirripediformis Comstock.)

[Fig. 21.]

The following account of this somewhat uncommon scale is given by
Professor Comstock (Report Commissioner of Agriculture for 1880,
p. 333):

"Adult Female. Average length 5 mm ; width, 4 mm ; height, 4 mm . When
naked the color is dark reddish brown; the shape sub-globular, with a
strong spine-like projection at the anal end of the body. The waxy
covering is dirty white, mottled with several shades of grayish or light
brown, and even in the oldest specimens retains the division into plates,
although the form is more rounded and the dividing lines by no means
as distinct as- at an earlier age. There are visible a large convex dorsal
plate, and apparently six lateral, each with a central nucleus; the anal

*This may be Aphycus ccroplaitis Howard, described in Bulletin 5, Bureau of En-
tomology, as bred iroin Ceroplastes artemesice Riley MSS., from Silver City, N. Mex.

INSECTS AFFECTING THE ORANGE.

plate, however, is larger, and shows two nuclei, and is evidently two
plates joined together. Antenna 6 jointed, and proportioned as with
C. Floridcmis. Less long; tibiae nearly twice as long as tarsi ; digitizes
of the claw very large. The other tarsal pair veiy long and slender,

but with a very large button. The skin is
seen in places to be furnished with many
minute, round, transparent cellules, prob-
ably spinnerets (indicated and so called by
Signoret in his description of C. Vinsonii),
and along the border are small groups of
the constricted arrow-shaped tubercles men-
tioned in the last species; but the bristle-
shaped spinnerets seem to be wanting, as in
C. Fairmairii Targ.

." The Eyys. Length, 0.3o mm , rather slen-
der, little more than a third as thick as long.
Color light rt-ddish brown, rather darker
than the egg of C. Florid ensis.

u Youny Larva. Very slender; dark brown
in color; legs and antenua3 as with C. Flori-
den sis.

" Growth of the Insect. The growth of the
insect and the formation of the waxy cover-
ing seems to be very similar to that of the
last species. Soon after the larva settles
the same two dor>al ridges of white secre-
tion make their appearance, but soon split
up into transverse bands. Examined on
the fifth day after hatching, a larva showed
(Alter seven distinct transverse bands, the ante-

. . . . . .

nor one being in the shape of a horseshoe.
At the same time the lateral margin of the body was observed to be
fringed with stiff spines, seventeen to a side. At nine days the small
horse shoe like mass had extended so as to nearly cover the thorax, and
the transverse bauds had lengthened and widened until they presented
the appearance of a nearly complete shield to the abdomen, serrate at
the edges. Fifteen lateral tnfts, such as were noticed in C. Floridensis,
and such as Targioni figures in the larva of C. rusci (Stud. Sulle eoc-
ciniglie, Plate 1, Fig. G) had appeared, though still small.

" At this stage of growth, as with the last species, all development
seemed to stop, although the specimens lived on for months, the tem-
perature in the breeding-room, probably not being favorable to the for-
mation of the plates.

"The smallest specimen in the collect ion with theplates already formed
measures L >mm long by 2 mm wide and l mm high. The, color is light brown,
and the wax has a sornewhac translucent appearance. The dorsal plate

Comstock. Adult fi-mali'H,

8iz.- ; a, female, enlarged.

Comstock.)

GENERAL REMARKS UPON THE LECANIXJE. 61

is seven-sided ; it is truncate anteriorly and pointed posteriorly. From
each angle radiates a suture to the lateral edge, thus forming seven
lateral plates, of which a single one is above the head, while above the
anus is the suture between two. Through this suture projects the anal
spur. Each plate has a dark brown patch in its center, and in the cen-
ter of each brown patch is a bit of the white secretion.

" Habitat and Food plants. Found at Jacksonville and in Volnsia
County, Florida, on orange, quince, and on a species of Eupatorium,
often in company with with C. Floridensis, although it was by no means
so common a species."

GENERAL REMARKS UPON THE LECANINJE.

Extent of Injuries. The Bark-liceof this group arc less injurious to trees
and woody plants than their hard-shelled relations, the Diaspinre. Of
the five species of Lecanina3 which Lave been known to attack citrus
plants, the widely distributed Lecaniuui hesperidum (Linn.) is most com-
mon in Florida, and is generally recognized and somewhat feared by
orange-growers. It is known to occur also in the orange districts of Cali-
fornia, where, however, it does not appear to be destructive. The deci-
mation which this unprotected scale suffers through the attacks of para-
sites and enemies, and the consequent short life of its colonies, effect-
ively limits its destructive powers. Very frequently the orange-grower
will become aware of its presence only to iind it in its decadence and the
life of the colony virtually extinguished through the activity of his in-
visible friends. This fortunate condition will be sufl'ciently indicated
by the black color of the scales which are blasted by the presence of
parasites.

Exten ivc invasions of Lccanium Jicftperidnm have never been known
to oc uir, in this country at least. The injuries which it intlicts in
orange groves arc; confined for the most part to nnrseiies or young
trees before they have become fully established. Upon older trees only
limited portions, and particularly shoots in process of hardening, are
usually found to be infested. Karely indeed does this hcale occupy
the entire top of a grown orange tree. Still more rarely is an entire
orchard overrun by it.

The species of this group having soft bodies, which dry up and shrivel-
after death, become, loosened or washed by rains from their attachment
to the bark, and soon disappear from trees. They do not, as in the 1
case of the D;aspina3, remain and form a permanent coating upon the
baric, clogging its pores and exercising a balelul influence upon the
health of the trea long after life in the insects themselves has become
extinct.

The Black Scale of California, Lccanium o/erc Bernard, is, as its name
indicates, an olive scale. In California, however, it is quite injurious
to the Orange and its kindred, and is said to be sprcadiug upon, decidu-

62 INSECTS AFFECTING THE ORANGE.

ous orchard trees in the more northern portions of the State. It is not
distributed in Florida, but has certainly been introduced and is occa-
sionally seen upon imported plants, particularly upon the Olive.

Lecanium hemisphcericum Targioui, according to Professor Comstock,
has been found upon the Orange in California. It is not known in
Florida.

Of the two species of wax scales, both of which are confined to Florida,
Ceroplastes floridemis Comstock is by far the more abundant. C. cir-
ripediformis is found in certain localities, but is rare or unknown through-
out a large part of the orange district. Serious injuries rarely, if ever,
result from the attacks of the wax scales on orange trees, although the
young of the first named species are frequently sufficiently numerous to
attract attention and excite alarm. They invariably disappear, how-
ever, or become reduced to a few solitary individuals, whose numbers
barely suffice to perpetuate their race.

Smut. The attacks of the various species of Lecauium or Ceroplastes
are frequently accompanied by the appearance of the sugar fungus, Cap-
nodium cilri Berk, and Des., of which mention has been made in the
introductory chapter of this work. The soot-like coating of the fungus
covers leaves and bark, and even the Coccids themselves, feeding evi-
dently upon the nectar which these insects have the power to eject to
a considerable distance, and not upon the juices of the plant. In proof
of this fact it may be mentioned that a similar black coating appears at
times upon objects when smeared with the nectar produced by flowers,
and it is always found upon sugar-cane, where the joints are not too
much exposed to the light.

Not only does smut mask the operations of Scale-insects, so that it is
uot unfrequently mistaken for the cause of the ruin which they work,
but it can hardly be doubted that it is itself directly injurious in clog-
ging the pores and stifling the vital action of the growing parts of the
plant. A coating of soot, to which this fungus bears so strong a resem-
blance, would, it may well be supposed, have an equally deleterious
effect, particularly if, like the smut, it were applied to the plant with a
coating of some viscid liquid.

CHAPTER V.

OOCCI1OG: THE MEALY-BUGS.

General Characters and Habits. Bark-lice, belonging to the subfamily
Cocciua3, cover themselves and their eggs with masses of downy wax
of white color, and hence they receive the name Mealy-bugs. Beneath
the flocculent covering the Bark-louse lies concealed, sometimes nest
ling beside a mass of eggs so large as to quite overshadow the insect
itself, sometimes surrounded by a crowd of young lice, whose succes-
sive generations in a short time cover the surface of an infested plant
with incrustations of dirty-white color resembling mildew.

The Mealy-bugs retain their legs, antenna}, and other organs of the
larva, and to a great extent their freedom of motion throughout their
lives.

As in the last subfamily, development in the female is very simple,
and there is but slight change of form from the larva to the adult.
The males of this group form a pupa, and develop into two winged
flies, like those of the armored scales, and while undergoing these
changes they encase themselves in little sacks of flocculent wax.

Compared with other Coccids occurring on the Orange, the Mealy-
bugs are of large size. In destructiveness they rival any .of the pre
ceding species. They secrete and eject honey-dew, and this, falling
upon the leaves and upon the insects themselves, gives rise to the
black smut fungus (Capnodium citri). The incrustation formed by the
mealy bodies of the insects, befouled with smut, presents a very un-
sightly appearance, and trees smitten with these pests become con-
spicuous objects, visible at long distances.

Food Plants. The Common Mealy-bug, Dactylopius adonidum (Linn.),
is a well-known pest of the garden and greenhouse, attacking nearly
all plants, even pines and evergreens, and undoubtedly including the
Orange and its kind, at least in the gardens of southern Europe. In
the United States, however, this species has not been known to infest
orange groves, but its place is supplied by a very closely related form,
which is considered by Professor Comstock a new species of the same
genus, and has been described by him under the name D. destructor.
The habits of this aid the following species, Icerya purcliasi Mask., are
similar, and, like the common garden insect, they attack, with disas-
trous results, almost all varieties of fruit and shade trees, as well as
shrubs and herbaceous plants of the most widely different sorts.

64 INSECTS AFFECTING THE ORANGE.

TEE DESTRUCTIVE MEALY-BUG.
(Daciylopius destructor, Comstock.

[Figs. 22 and 23.]

This species has been for several years very destructive to orange
trees in groves and gardens in the neighborhood of Jacksonville, Fla.,
but although this, or some other species with difficulty distinguished
from it, attacks the pineapple, Banana, Gtiava, and other tropical plants,
no species of Mealy-bug has hitherto been reported as a pest in orange
groves in the more southern portions of the State.*
Prof. J. H. Comstock gives the following account of this insect: t
" Adult Female. Length, 3.5 mm to4 inm ; width, 2 mm . Color, dull brown-
ish yellow, somewhat darker than with D. longifilis ; legs and antennae

concolorous with body. The lateral append-
ages (seventeen on each side) are short and
inconspicuous and are subequal in length.
Upon the surface of the body the powdery
secretion is very slight. In spite of the small
size of the filaments, the spinnerets and the
supporting hairs are as numerous and as prom-
inent, or nearly so*, as in D. lonijijilis ; those
upon the anal lobes being especially long.
Antenna 8 jointed : joint 8 is the longest and

FIG. y>. T>actylnpws destructor

CmustO'-k; female, enlarged. IS tWlCC JIS loilg OS tllC HCXt 111 length, lOlllt 3.
(AfterC'oiiistocli.) . *.-.* i - i

After 3, joints 1 and f, subequal, theno andG,

joint 4 being the shortest. The tarsi are a little, more than half the
length of the tibiaB and thedigitules are as in the preceding species (D.
adon'uhu)i); claws strung.

u Eyj. Length, O.i'D" 1 " 1 ; shape, rather long, ellipsoidal ; color, light
straw yellow.

u Young Larva. Rather brighter colored than the egg. Antennae
6-jointed with the female, with the same relative proportions as in the
preceding species. Tarsi considerably longer than the tibi3. The
lower lip is large, conical, and reaches almost to the posterior coxre.

" Male. Length, 0.87 mm ; expanse of wings. 2.5 mm . Color light olive-
brown, lighter than in following species ( />. lonyifilix}; legs coucolorous
with body ; antennaB reddish ; eyes dark red ; bands darker brown than
the general color; anterior edge of mesoscutum and posterior edge of
scutellum darker brown. Body, as will be seen from measurements,
rather small and delicate compared with the size of the wings; head
small, with almost no hair; antenna} 10-jointed. joints 3 and 10 longest
and equal; joints 2, G, 7, 8, and 9 nearly equal and considerably shorter

* Local outbreaks of the Mealy-bu^ aro froai time to time reported in the central
portions of the peninsula. (See Appendix I.)
t Report of the Commissioner of Agriculture for 1880, p. 342.

THE DESTRUCTIVE MEALY BUG.

than 3 and 10 ; joints 3 and 4 subequal and a trifle shorter than the follow-
ing-joints. The lateral ocelli are each just laterad of the center of the
eye, and not at its posterior border, as in the following species. (This,
however, isa character which will not hold with specimens long mounted.)

FIG. 23. Dactylopius destructor Comstock, male. (After Comstock.)

Prothorax short ; legs sparsely covered with hairs j tarsal digitules ex-
tremely delicate, and the button is very difficult to distinguish ; we have
been unable to discover a trace of the pair belonging to the claw. The
anal filaments and the supporting hairs are similar to those of the fol-
lowing species.

"This species is readily distinguished from D. longifilis by the short-
ness of the lateral and anal filaments in the female. Indeed, for con-
venience's sake, we have been, in the habit of distinguishing them as the
mealy bug with short threads and the one with long. The life-history
of this species differs quite decidedly from that of D. longifilis, in that
true eggs, which occupy quite a long time in hatching, are deposited.
The female begins laying her eggs in a cottony mass at the extremity of
her abdomen, some time before attaining full growth, and the egg-mass
increases with her own increase, gradually "forcing the posterior end of
the body upwards until she frequently seems to be almost standing on
her head. The young Iarva3 soon after hatching spread in all directions
and settle preferably along the mid-rib on the under side of the leaves,
or in the forks of the young twigs, where they form large colonies, closely
packed together. As mentioned in the description, they are only slightly
covered with the white powder, and many seem to be entirely bare, with
the exception of the lateral threads.
6521 o i 5

66 INSECTS AFFECTING THE ORANGE.

"Habitat. This species is very abundant upon almost every variety
of house-plant in the Department green-houses, but especially so upon
the Arabian and Liberian coffee-plants. On these plants they were
found, curiously enough, in small pits or glands on the under side of
the leaf, along the mid-rib. Almost every pit, of which there is one at
the origin of each main vein, contained one or more young mealy bugs,
and the larger ones whole colonies. The name destructor is, however,
proposed for this insect from the damage done by it to orange trees in
Florida, especially at Jacksonville and Micanopy, where it is the most
serious insect pest of the orange.

"Natural enemies. The Chalcid parasite, Encyrtus inquisitor Howard
[Fig. 24], described in this report, was bred from a specimen of this

mealy bug collected at Jackson-
ville, Fla. A small red bug was
observed by myself and several
of our correspondents to prey
upon the mealy bug. The larvae
of another species have been
found, but the mature form has
not been obtained. These last
have the faculty of changing

-t- U \\' \<=>/ v /I H color quickly from red to brown.

" The very curious larvae of a
lady-bird beetle, known as Seym-
nus bioculatus. were found feed

FlG. 24. Ency i tus inquisitor. (After Howard.) - . ., ,. ,

ing upon the eggs of the mealy

bug at Orange Lake. These larvae mimic the Dactylopii so closely that
they might easily be taken for them. They are covered by a white
secretion, and from each segment exudes a white substance which forms
long filaments like those of the mealy bug. Kemoving the powder the
larvae are seen to be yellow in color, with two roundish dusky spots on
the dorsum of each thoracic segment. Each segment 'of the body is
furnished laterally with one long bristle and a number of small ones. 7 '
Two other parasites on Dactylopius destructor have recently been de-
scribed by Mr. Howard (Bulletin o, Bureau of Entomology, U. S. Dept.
Agric.) as Leptomastix dactylopii and Oliiloneurus dactylopii.

THE COTTONY CUSHION SCALE.
(Icerya purchasi, Maskell.)

[Fig. 25.]

This insect has not yet been introduced into Florida. The following
excellent account of it is from the pen of Dr. S. F. Chapin, State Hor-
ticultural Officer of California : *

* Pacific Rural Press, October 28, 1882.

THE COTTONY CUSHION SCALE. 67

u This scale has been, it is asserted, known to be on the acacia for seven
years in San Jose", bat it is only during the past and present seasons
that it has attracted attention. Its great prolificness and its destruc-
tive abilities have called widespread attention to it. This pest attacks
everything in the way of tree, vine or shrub; all the evergreens as
wc-11 as deciduous trees that fall in its way are attacked, and every orna-
mental shrub on the lawns of some portion of our cities will show its
presence. The ivy, even, is not proof agaras.t it. In San Eafael, San
Muteo, Santa Barbara and Los Angeles it is well established. While
in San Jose it has not this season caused so great damage as last, yet
in the citrus-growing regions it is becoming one of the most serious
pests they have to encounter, and it is even stated that, should its
ravages not be checked, orange and lemon culture will have to be aban-
doned.

" From the rapid destruction which follows the presence of this scale,
it is well that it should be widely recognized, and its first invasion
noticed and checked. In San Jose, in 1881, it was first noticed in May
as the fully developed female, from which the first brood of young then
appeared.

"This present season of 1882 the first young appeared May 25th, the
mother insect having gradually matured her eggs from the opening of
spring until the young were hatched. The egg of the Icerya is small,
pale or orange red, elongated and ovoid. The young just hatched out
are very active, and are very minute, perhaps the twenty-fifth of an
inch in length. The body is pale redj the six legs and two antennaB are
black. The anteuna3 are long and club-shaped, and have from six to
nine joints, as they are further matured. The antenna are covered
with long hairs, which bristle forth prominently. The eyes are small
and black. Between the pair of forelegs on the under side of the body
is to be seen the beak or sucker, by which the insect secures its nour-
ishment.

" The females partly grown are of a variety of colors, orange red mostly,
and spotted over with white and green ; some are nearly entirely a
dirty white, and many are a pea green. It seems that the coloring
matter of the plant they are upon colors them to some extent. Their
body is ovoid and elongated and flattened, the back being ridged up
with several segments quite prominent. Around the rim of the body
are a multitude of hairs, standing out prominently. Around the rear
half of the body on its rim are a row of tubercles or spinarets, from
which a white secretion issues, forming a cottony cord, and these placed
side by side and the interspace filled up by the same material running
lengthwise the body and projecting from it, gives the whole a ribbed,
satin-like appearance whitish in color. Gradually as the insect matures
these projecting ridges approach each other at the ends, and are joined
together and curved under slightly at the point, while the sides are at
the same time curved under the whole length, and the edges joined

INSECTS AFFECTING THE ORANGE.

together like a flat ribbon-like band, the whole forming, when complete,
a soft elastic white sack, the size, and somewhat the shape of a medium
sized white beau. The length, when mature, is about three-eighths of
an inch ; the width one-fifth of an inch.

" Inside the sack are deposited the eggs of the female, among the in-
terstices of a mass of cotton -like fiber, which under a high magnifying
power is shown to be round, and not more than one-sixth part the
thickness of pure cotton fiber, with which it was compared in the same
field. This mass of cottony fiber is filled with a great amount of granu-
lar matter, for the purpose, it may be, of affording sustenance to the
young insects within the sack. The young hatch out in this sack, and
make their way out into the world through a rent in the soft and tender
underside of the sack.

"The female, after finding her home and during maturity, does not
move, although she does not lose her legs, but clings tenaciously with

her feet to her support, leaving the
body tipped up in the rear and the
cottony mass movable in any direction.
The male insect was only found during
a period of about two weeks from
Sept. 25th. This was the observation
of 1881, when I found them in great
numbers. I have failed to find the
male insect this season. It has a long
red body, six legs and one pair of very
long, dark and transparent wings,
prominent eyes and antennae very long
and covered with hairs, arranged very
much as the feathers of a peacock.
(The antennre are 16 or 17 jointed.)

u The winged male is easily seen and
easily caught, as it moves slowly about,
and is not readily disturbed so as to fly
away. The female insect lives upon the trunk of the tree and large
limbs and down to the smallest twigs, around which it may be seen
clinging in clusters sufficiently great to completely hide the branch ;
also upon the leaf, along the stem and ribs of which it is fixed, both
above and below, although more abundant on the underside of the leaf.
u There are three broods of this insect in the season ; the first appearing
in May, the second in August and the third in October, or about three
months apart. I havejust observed, October loth, the mature female
with eggs fully grown and with the young hatched out and crawling in
the same sack. In 1881 they rapidly increased from about the first of
August, and were continually appearing, and still hatching out in De-
cember.

" Every female, it is estimated, produces from 200 to 500 young. The
young will mature and produce a new brood in about three months."

FIG. 25. Icerya purchasi Maskell. Females,
adult and young, on Orange. (After Corn-
stock.)

CHAPTER VI.

INSECTS PBEYING UPON BABK-LICE.

[Plate VI.]

Numerous enemies prey upon Bark-lice in all their stages, and always
greatly reduce their numbers. Besides occasional enemies, such as the
sucking-bugs and other predatory insects, which are general feeders,
there are others which live almost or quite exclusively upon the Coccidse.
Some of these confine their attacks to particular kinds of Scale-insects.
Several very common beetles of the family Coccinellidce, the " Lady-birds,"
are useful destroyers of Bark-lice. One of the smallest of this family,
Hyperaspidius coccidivorus, is found to colonize upon the trunks of orange
trees thickly infested with Chaff Scale, and entirely free them of the
pest. The young of a Lace-wing fly (Chrysopa) feeds upon the Bark-lice
in all stages, and frequently makes its case of scales torn from the bark
and often still containing living occupants. The Orange Basket- worm
(Platceceticns gloveri] has the same habit, and the caterpillars of at least
two moths are Bark-louse eaters. One of these (an unknown Tineid) 2
inhabits silken galleries, which it covers with half eaten fragments of
scales, and performs such efficient service that every scale in its path
is removed from the bark and suspended in the investing web.

The most important external enemies of the Scale-insect are certain
mites, which are omnipresent upon trees infested with scale, and which
feed upon the eggs and young lice. They breed rapidly and lurk in
great numbers under old deserted scales, where their eggs are extremely
well protected from the action of insecticides. For this reason, when an
effective application has been made by spraying infested trees, the
trunks should not be scraped for some time after, but the dead scales
should be allowed to remain upon the bark for several weeks, in order
that the mites which they harbor may be given time to complete the
work of the remedy used. In this they may be confidently relied upon
as powerful auxiliaries. When large numbers of the scales have been
killed by spraying with oils, &c., the mites are often observed to in-
crease suddenly, as they are much less affected by the application than
the Scale-insects themselves. It seems probable that they feed upon
the dead and dying Coccids as well as upon the living, and the loosen-
ing of the scales and abundance of food at such times stimulates them
to rapid increase. They soon swarm in such numbers as completely to
exterminate the remnant of the Coccids left alive by the wash.

70 INSECTS AFFECTING THE ORANGE.

Of all its enemies, the most efficient destroyers of the Scale insect are
its hymenopterous parasites ; several species of which have already been
noticed, each under the head of the particular Coccid with whose life
history it is closely connected. Fig. 1 on Plate VI represents the com-
mon parasite (Aphelinus mytilaspidis) of the Apple Scale. These minute
four- winged flies bore through the scale and deposit within a single egg.
The little grub hatching from this egg feeds upon and destroys the
occupant of the scale and completes its own transformations in its
place. When fully adult the parasite emerges through a round hole
eaten in the shell, leaving behind an empty domicile to serve as a
shelter for the mites.

The numerous species of these parasites, although not invariably con-
fined in each case to a single species of Bark-louse, have distinct meth-
ods of attack from which they do not vary. Thus the Long and the
Purple Scales are parasitized at about the time of impregnation of the
females, or when they are not more than one-half their adult size, and
the young Hymenopteron is developed entirely within the body of the
Coccid. The skin of the latter hardens when life is extinct, and doubly
protects the parasite during the latter part of its larval and in its pupa
stage. The parasite of the Chaff Scale makes its attack at a later stage,
often when the scale is full of eggs, and its larva does not enter the
body of the Coccid, but feeds upon it and the eggs indiscriminately, oc-
casionally devouring the eggs alone and leaving the mother Coccid un-
touched. Its pupa is formed naked within the scale, and has only such
protection as this affords the Coccid and its eggs. In individual num
bers these hymenopterous parasites abound to such an extent that rarely
less than 25 per cent, and often more than 75 per cent, of the scales are
attacked by them, and the work of destruction accomplished through
their agency alone equals if it does not excel that of all other enemies
combined. Doubtless without their aid the culture of the Orange and
related trees would, in Florida at least, become impracticable.

INSECTS OF THE ORDER HYMENOPTEBA.

ANTS. No species of field-ant, in Florida at least, is in any sense
predatory upon Scale-insects. With the hard-shelled Diaspina3 ants do
not concern themselves, except that most of the carnivorous kinds will
feed upon the contents of a scale which they chance to find torn from the
bark. Many of the softer CoccidaB are attended by ants and to some
extent protected by them, for the honey which they produce, and upon
which the ants feed greedily without in the slightest degree harming or
even disturbing the Coccids themselves.

The Chinese, it is said, have an ant which is really predatory upon
Scale-insects, and which they colonize in some manner about their trees
for the purpose of clearing them of these pests. If such a species ex-
ists, its importation to this country would be a great boon and could
undoubtedly be accomplished. There is in fact nothing impracticable

COLEOPTEROUS INSECTS PREYING UPON BARK-LICE. 71

in the idea of domesticating ants and in keeping them with their nests
in movable hives, as we do bees.

We have in Florida a minute yellow ant, very common, and very
troublesome in houses, which might perhaps be employed in this way.
This species seeks the shelter of buildings and hollow tree-trunks ; it
has not as yet been found possible to induce them to remain domiciled
in exposed situations, and to attack the Scale-insects upon living trees
in the open air,- but when branches covered with scale- are brought into
the house, they are voraciously attacked, the scales eaten into or torn
from the bark and their contents devoured. The nests of this ant are
found in very dry and sheltered situations. It is not difficult to estab-
lish a colony in a box filled with shavings, paper, or other loose material.
In order to accomplish this, one or more of the large queens must be
obtained and confined with a sufficient number of the workers to act
as attendants. If the box is kept in a suitable place, the ants will ac-
cept their new quarters, and may be allowed to roam at large and for-
age for themselves and their young, but the slightest exposure to light
or dampness will cause them to desert the hive never to return. It is
this dislike of exposure tnat has hitnerto baffled every endeavor to
colonize this ant upon orange trees and use it as a destroyer of the Scale-
insect. Further experiments with. this and other species are necessary
to determine whether any of them can be effectively employed against
Scale-insects.

INSECTS OF THE ORDEE COLEOPTERA.

LADY-BIRDS Coccinellidce.

The beetles of this family are among the most efficient destroyers of
Bark-lice and also of Plant-lice. Formerly they were supposed to feed
exclusively upon small insects of various kinds. Although it is now
known, through the investigations of Prof. S. A. Forbes and others, that
the spores of fungi and other vegetable matter constitute a large part
of the food of our common species, they are not on that account the less
valuable in the orange grove.

The family contains numerous genera and species which fall into two
divisions ; the first, containing the species of larger size, includes the
common insects, which are popularly recognized as "Lady -birds "; the
second division embraces nearly all the smaller kinds, many of them
insects of minute size, but very voracious and active destroyers of plant-
eating insects and their eggs.

THE TWICE - STABBED LADY- BIRD (Chilocorus Mvulnerus, Muls.).
[Fig. 26, beetle; Fig. 27, larva.] This species is 5 mm (-ft- inch) long,
nearly hemispherical in shape, shining black, with a red spot on each
wing-case.

The larva is rather broadly oval,'the color bluish-black, with the first
body -joint whitish. The body bristles with black spines, which are in

INSECTS AFFECTING THE ORANGE.

Fin. 2G. Chiloco-
rus bivulaierus.
( After Riley.)

l''l(}. 27. Chilocorus
bivitlnerus, larva.
(After Comstor-k.)

turn covered with spinules and give to the insect a mossy appearance.
The spines are arranged in six longitudinal rows.

The larva, when full grown, attaches itself firmly by
the false legs at the end of the body, and becomes wedge-
shaped; the skin of the back splits and gapes open, part-
ly disclosing the pupa, which, however, remains within
the skin of the larva. This mode of pupating is char-
acteristic of the entire family.

The pupa is short and thick, tapering suddenly behind,
in color black, mottled with dusky brown. The stout spines of the larva
are replaced by patches of spiny hairs.

The Twice-stabbed Lady-bird is as abundant in Flor-
ida as in all parts of the eastern and southern United
States, and, with its larva, is frequently seen upon the
orange trees, feeding upon Scale-insects and also upon
Aphis. It is rather fond of cool, damp situations, and
is most abundant in old groves, upon the trunks of
trees infested with Chaff Scale and fungi. It tears up
the scales and devours the Coccids and their eggs.
Several broods occur during the year. The larvae ap-
pear to be somewhat gregarious, and frequently when
they form their pupae suspend themselves in clusters to shreds of Span-
ish moss or in patches upon the bark when it is coated with lichens.

EXOCHOMUS CONTRISTATUS Muls. (Fig. 28, beetle ; Fig. 29, larva.)
This is a much smaller species than the preceding. The beetle is 3.3 mm
(0.13 inch) long. The head, thorax, and body beneath are black, but
the wing-cases are red, with ablack spot near the tip of
each.

The larva has the oval form and spiny appearance of
Chilocorus bivulnerus, but is handsomely marked with
black and white. The spines of the latter become in
this species prominent spiny tubercles.

The pupa is not provided with spiny hairs, but is
smooth and marbled with black and yellowish brown, in a manner
recalling the shell of the tortoise.

In habits this Lady-bird hardly differs from its larger relative. Chilo-
corus bivulnerus. It however shows no preference
for the shade, and is found feeding in exposed
situations upon the branches infested with Scale-
insects, or upon shoots covered with Plant lice.
It is exclusively a southern species. In Florida
it occurs everywhere upon the Oak, and frequent-
ly becomes abundant in the orange grove, where
it does good service in ridding the trees of in-
sect pests, devouring the eggs and the young of the larger kinds, and
tearing up the scales of Bark-lice in order to feed upon their contents,
contents. It is also an active destroyer of the Orange Aphis.

FIG. 28.Exocho-
mug contrista
tus. (Original.)

FIG. IQ.Exochomus con-
tristatus, larva 1 (Orig-
inal.)

COLEOPTEROUS INSECTS PREYING UPON BARK-LICE.

THE BLOOD-RED LADY-BIRD (Cycloneda sanguined, Linn.). (Fig. 30,
larva : Fig. .'51, pupa; Fig. 32, adult beetle, enlarged and natural size.]

FIG. 30. Cycloneda,
larva enlarged.
( After Comstock.)

Fit;. SI. Cycloneda san-
guinea, pupa enlarged.
(After Comstock.)

FIG. 32. Cycloneda sanguined
natural size and enlarged. (Af-
ter Comstock.)

As its name indicates, the color of this species is orange-red or blood-
red, varying somewhat in individuals. The head and thorax are black,
each with a pair of yellowish spots ; the thorax is also bordered with
yellow. Length 5 mm ($> inch). The larva is of a more elongate form
than the preceding species ; the body not armed with spines, but with
rows of small tubercles bearing tufts of short hairs. The colors are
bluish-black spotted with orange.

The pupa is orauge yellow, clouded and spotted with dusky brown or
black.

This is a most common and widely-distributed species, extending
even to California, where, however, it is said to be less abundant than
in the East. Like most of the species, it is not connected with any
particular plant, but is found wherever Plant-lice occur, feeding upon
their honey-dew in preference to Bark-lice or other insects, but not sel-
dom attacking the Orange Scale-insects when the Aphis is not at hand.
It is a sun-loving species, and is most active and voracious in the hot-
test weather.

HIPPODAMIA CONVERGKENS Guer. (Fig. 33, larva, pupa, and adult ;
Fig. 34, beetle, enlarged.) This species is also com
mon from the Atlantic to the Pacific, and every-
where feeds voraciously upon the various species
of Aphis and Bark-lice. Its^ving-cases are orange,
red, with five or six rather small black spots on
each, but the remainder of the body is black. The
head has a white crown and the thorax is edged
with white and has two converging dashes or short lines of white upon
the disk.

The pupa is orange-red, of the same shade as the wing-cases of the
adult, and has upon its surface a varying number of black spots. The
spots are in some individuals entirely wanting, but three spots upon
each wing-pad and at least one pair upon the first abdominal joint are
very rarely absent. The surface of the pupa is without spines or hairs.

FIG. 33.Hippodamia con-
vergens. (After Riley.)

INSECTS AFFECTING THE ORANGE.

The larva has the same general colors as the perfect beetle, but is
mottled, the brighter red appearing as spots surrounded by dusky
areas ; the prominences upon the back of each body-joint are clothed

with downy hairs; the single pair upon each
of the first three joints forms raised shields
of black color j the head and legs are dark.
The larva of this, as well as that of some
other species, is attacked by an internal par-
asite which causes its death soon after it
has become adult. The Lady-bird larva
attaches itself to the plant in the manner
usual to it when about to change into pupa;
the pupa, however, never appears, but the
body of the larva becomes rigid and dry, and
in shrinking sometimes discloses the outlines of the little oval cells
formed by the parasites within. The number of parasites found in the
body of a single Lady-bird varies from three to six, or even eight. Each
parasite finally issues through a separate hole, eaten in the skin of its
host, and appears as a little four- winged fly of black color and with
banded wings (Fig. 35). It has been described by Mr. L. O. Howard

FIG. 31. Hippodamia convergens
natural size and enlarged. (After
Comstock.)

FIG. 35. Homalotylus obscurus. (Original.)

(Bull. 5, Entom. Bureau, United States Department of Agriculture,
1885, p. 22) under the name of Homalotylus obscurus. Species of the
same genus are known to attack the larvae of Lady-birds in Europe.

COLEOPTEROUS INSECTS PREYING UPON BARK-LICE. 75

THE SCALE-DEVOURING HYPERASPIDIUS (Hyperaspidius coccidivorus
Ashinead; Plate V, Fig. 2; , larva; &, head of larva much enlarged;
c, part of side margin of the head, showing antenna and ocelli ; d, bee-
tle.) Although on account of its small size this little beetle has been
generally overlooked, it is'probably the most useful of its family as a de-
stroyer of Bark-lice. It attacks principally the Chaff Scale (Parlatoria
pergandii)^&i\d lives in colonies upon the trunks and branches of orange
trees infested with this scale. Both the perfect beetle and its larva
busy themselves without ceasing in emptying the scales of their con-
tents, and many instances have been observed.of trees ultimately cleared
of Chaff Scale through their persistent efforts.

The larva is 1.8 mm ( T y inch) in length; body dark purple, covered
with minute pubescence having a silver-gray reflection ; the head and
legs black.

The pupa has the color of the larva, and the form, in outline, of the
perfect beetle.

The imago is broadly oval, shining black, with a badly-defined red
spot upon each wing-case. Length, l mm (yfy inch).

The strength of the little insect is apparently not sufficient to pene-
trate the hard scales of some of the Diaspina3 ; it is not often seen to
attack either the Lou g Scale (M. gloverii) or the Purple Scale (M. citricola),
but appears most frequently upon trees infested with Chaff Scale (P.per-
(jandii). Even here it does not seem able to bite through the upper
shell, but inserts its thin, wedge-shaped head and jaws between the
Scale-insect and the bark and eats into it from below. The perfect in-
sect, and to some extent the larva also, devour the young of any species
of Bark-louse, but have not been observed to attack Aphis or any other
insect.

The young hatch in spring, from eggs laid in patches among the
scales.

EPITRAGUS TOMENTOSUS; family Tenebrionidw. (Fig. 30.) This is
about half ail inch in length, regularly oval in form, and convex above.
The body is dark brown, densely sprinkled with ash-
gray pubescence. The habits of the perfect insect are
similar to those of the Lady-birds, and it is very com
monly found upon orange trees, engaged in feeding up-
on Scale-insects of all kinds. It tears the scale from
the bark and devours the contents, and sometimes the
substance of the scales also. Its early history is un-
known, but the larva probably lives upon the ground
among oak leaves. The beetle is also found abundantly
upon scrubby oaks, where it feeds also upon Bark-lice.

Mulching the trees with oak leaves is very, certain to
attract these beetles, and they do good service in
checking the increase of Scale-insects, although they are seldom pres-
ent in sufficient numbers to effectually clean the trees.

76 JNSECTS AFFECTING THE ORANGE.

PREDATORY LEPWOPTEEA.

THE CocciD-EATiNa DAKRUMA (Dakruma coccidivora Con x). [Plate
VI, Fig. 3: a, egg; &, larva; c, pupa; <Z, motli; e, moth resting *n a Bark-
louse.] The predatory habits of this little moth were first ma le known
by Professor Comstock (North American Entomologist, I, p. 25), who
found its larva eating various species of Bark-lice. It is also v, ry com-
mon in the spring of the year on orange trees infested by theoft bodied
Coccids, Lecanium, Ceroplastes, &c., and does incalculable service ii clear-
ing them of these pests. It, however, does not attack the Dia 'pinae
unless compelled by hunger to do so, and seems to experience some diffi-
culty in biting through their hard scales.

Several larvae live together socially in silken galleries, with wh oh
they cover twigs and branches infested with Scale-insects. Undt v-
ueath the covering of web the caterpillars of Dakrurua move back an t
forth, actively engaged in removing' the Bark-lice from the bark am '
suspending them in the investing web. Nothing could be more thor
ough than their work. Branches iucrusted with Lecanium scales ar<
very quickly cleared of the lice, and the Dakrurna larvae do not cease to
extend their operations until every individual Ooccid in the colony has
been lifted from its place and securely fastened in the web above.

While constructing their galleries the caterpillars stop occasionally
to feed upon the Coccids. At such times they seldom finish their repasts,
but, like busy workmen, as they are, hastily snatch a bite or two by way
of lunch, and suspend the half- devoured fragments in their web. When
the entire scale colony has been secured within its net, the Dakruma
larva rests from its labors and feeds at leisure upon the Coccids sus-
pended in its larder. It devours not only the eggs and young and the
softer parts of the Bark-lice, but even to some extent their harder skin
or scale. The result of its operations upon Lecanium and Ceroplastes
scales is to utterly annihilate the colonies of these insects which they
attack.

Larva. A rather slender caterpillar, nearly half an inch in length,
very dark green, almost black in color ; the body bears a few long hairs
arising from pale brown spots.

Pupa. The chrysalis is formed within the galleries of the larva, and
is loosely wrapped in a cocoon of silk. It is slender, tapering to the
anal extremity, of varying shades of brown, darkest on the back and
lighter on the belly and wing-pads.

Imago. A small, dark colored moth, one-third of an inch in length.
The body is dark- brown above and gray beneath ; the forewings are
light gray, with markings of brown and black; the eyes are black and
distinctly faceted.

Egg. White, oval, the surface covered with a network of raised
lines, the meshes forming irregular hexagons.

History. The eggs are laid singly among the Coccids; they hatch in
five or six days ; the caterpillars, if food is abundant, attain their full

LEPIDO1 ,fERA PREDATORY ON BARK-LICE. 77

growth in ten or twelve days 5 their pupa stage lasts about the same
length of time, unless belated in June or July, in which case they re-
main in pupa until the heat moderates in August or September. The
caterpillars are first seen in March, but are not common until April or
.May. The moths are most abundant in June, but disappear in mid-
summer and appear again in the fall. There are at least two, and pos-
sibly three, broods in the spring and early summer, and one in the fall.
The pupa} and a few belated larv.t may be found in winter at any time.

THE PALE DAKRUMA (D.pallida Com stock). Another species, closely
resembling the preceding and having similar habits, is described by
Professor Oomstock (Eept. Coinm. Agric. for 1879, p. 243) from gall-like
Coccids on Oak. From its similarity of habit this species may be ex-
pected to feed upon Orange Scale-insects, although it has not been actu-
ally observed to do so. It is known from the first species by its lighter
color in both the adult and larval stages.

SCALE-EATING TiNEiD. 2 (Fig. 37.) The caterpillars of a Tineid moth
with habits very similar to Dakruma, are found eating various Coc-
cids, and have also been observed to feed
upon the common Long and Chaff Scales
on Orange. Several specimens of the
moth were bred in winter from larva?
inhabiting tightly-rolled dead leaves in-
volved in the webs of a social leaf -eating

Caterpillar (Anwglis). The leaves thus FlG - 37 - -Scale-eating Tineid. (Original.)

occupied had been infested by Scale-insects, and the scales within the
retreat of the larvae were all gnawed and partially devoured.

In summer the same species is found forming silken galleries like
those of Dakruma upon orange branches infested with Diaspinous scales.

The following observations of the habits were made upon several
larvti 1 . placed upon a twig of Orange covered with Long Scale (Mytilas.
pis gloverii). The Iarva3 began at once to make a tangle of web in a fork
of the twig, which was afterwards extended into a gallery along the
branch. From time to time a larva reached out and tore a scale from
the bark. Sometimes it devoured the whole scale, with the contained
insect; again it turned the scale over and ate the contents, eggs and
mother Coccid, retreating finally to its gallery and taking with it the
empty shell, which it fastened in its web. Occasionally the caterpillars
detached from tho bark and fastened in their web scales with their liv-
ing contents untouched.* From the frequent additions made to it, the
retreat of the caterpillars soon became entirely coated with fragments,
and could with difficulty be distinguished from the surrounding bark.

* The contents of these scales were, however, sooner or later devoured. The larvae
also frequently gnawed into a scale at one end and pulled out and devoured the in-
sect, leaving the empty scale still attached to the bark. They also ate sparingly the
gummy exudations of the bark.

78 INSECTS AFFECTING TUE ORANGE.

These fragments consisted in great part of half-eaten scales, from which
the eggs and the Coccids had been extracted.

Larva. The caterpillars are about one-fourth inch long, dark purple
in color, with lines of lighter color in fine blotches along the sides.

Pupa. The chrysalis is sometimes formed upon the branches within a
cocoon of silk densely covered with scales, and sometimes concealed in
a dead, rolled leaf, or otherwise protected under fragments lodged in
spider-webs, &c. It is dark brown in color, and of the usual form, with-
out striking peculiarities.

Imago. The moth is less than one-third inch in length, with rather
long wings ; head and thorax are ashen gray ; the upper wings are lus-
trous lead color, with silvery scales intermixed ; they are marked each
with a single distinct black spot near the base and a pair of faint dots
near the tip. The under wings are silvery gray, with the membrane
showing iridescent blue between the scales in the middle of the wing ;
the antenna in one sex has the third joint thickened and curiously ex-
cised, the excavation covered with a tuft of long scales.

History. The Iarva3 of this species have been observed Only iii the
fall and winter months, and the number of broods is not known. It may
be assumed to have three or four broods. Moths appeared in thirteen or
fourteen days from pupa3 formed late in September. In December and
January they remained twenty days in pupa.

Two other moths of this family ( Tineidcv] have been noted* as feeding
upon Coccids in Florida, but they were bred only from gall-like Bark-
lice found upon Oak, and never occurring upon orange trees.

INSECTS OF THE ORDER HEMIPTEEA.

THE SPIDER-LEGGED SOLDIER-BUG (Leptocorisa tipuloides, Latr. ;
Plate VI, Fig. 4.) This is a slender, long-legged bug. The color of the
body is orange-yellow, with a rounded spot of black upon the thorax ;
the legs, antenna, and tip of the beak are black ; the wings in the
adult have a band of black across the middle and an oval spot of
black covering the terminal half; the legs are covered with almost in-
visible, short, stiff hairs, which cause small light objects to adhere to
them. The bodies of the young especially are covered with fragments,
consisting in great part of the pellicles of insects which have been
emptied of their contents by the bug. Length of the adult, -f^ inch.

The habits of this bug are sluggish, but it flies readily when adult.
It is found, often in great numbers, upon the Orange and other plants
when they are infested with the common Lecanium Scale (Lecanium lies-
perldum. Linn.). The bug sucks the juices of these soft- shelled Bark-
lice, but has never been observed to puncture the hard scales of the
Diaspinse. Unfortunately the Leptocorisa does not discriminate be-
tween friends and foes, but destroys many predatory and useful insects.

* Rept. Comm. Agric. for 1879, p. 244.

HEMIPTEROUS INSECTS PREYING UPON BARK-LICE. 79

It has been observed to capture and suck the juices of ants and of the
larvae of the Lace- wing flies, and also to empty of their contents the
eggs of other insects.

Eggs. The eggs are long, vial-shaped objects, brick-red in color ;
they are deposited upright, in small masses, aglu tin a ted with a viscid,
frothy substance, which dries very slowly and remains sticky long after
the eggs have hatched. The eggs hatch in about one week after they
are deposited.

Life-history. The number of broods is indefinite ; solitary individuals
are found at all seasons, but become more numerous in spring and fall,
upon plants infested with Lecanium Scale, which also breeds most rap-
idly at these seasons. The young suck the juices of plants for a short
time after hatching, but afterward feed exclusively upon insects. They
change their skins frequently, gradually acquiring fully-develbped
wings and other characters of the adult ; the process occupying, accord-
ing to the season and temperature, from three weeks to two months.
This species is much more gregarious in its habits than most predatory
Soldier-bugs. Not only the young, but also the adult insects are fre-
quently found in large colonies.

Parasite. The only enemy known to attack this bug is a minute
Proctotrupid fly, belonging to the genus Telenomus? which is bred
within, and destroys Us eggs. The parasite is black, with yellow legs.
A single fly issues from each egg of the bug, leaving a round hole eaten
in the side of the shell.

Two small bugs (Hemiptera) prey upon the Mealy-bug (Dactylopius
destructor}. Specimens of the young bugs were sent to the Department
of Agriculture, from Florida, on leaves of Orange infested with Mealy-
bugs, and were observed to suck the eggs and young lice of the Mealy-
bug.

In the young of one species the color is deep red, with brown eyes; an-
tennae and legs pale reddish or yellowish white, with the thighs slightly
dusky ; the antennae four-jointed, the fourth joint longest; the proboscis
short, rather stout; from each side of the abdomen, near the tip, projects
a pair of long bristles. Length, when adult, about 3 mm (y 1 ^ inch).

The other species is a smaller insect than the preceding. The young
bugs are coral-red, the shanks and tips of the legs white, the antennae
also parti-colored, having the third joint and tip of the terminal (fourth)
joint white ; the proboscis is white, and reaches beyond the middle of
the body ; the body and members are covered with short, pale hairs. The
adult is purple-brown, with lighter eyes, and has parti-colored legs and
antennae; the wings are ornamented with a large chocolate brown spot
edged with white or pale red, and situate at the base of the membranous
portion, near the tip of each wing- cover; thebodyand surface of the wings
are thinly covered with silvery hairs, giving a hoary appearance to the
insect. Length 2.2 mm ( T f $ inch). The egg is long and slender, vase-
shaped, pearly white, with a tinge of pink, and has a white rim ; it is

80 INSECTS AFFECTING THE ORANGE.

deposited singly, lying upon its side, in any situation where tbe female
may find a lurking place. 4

This little bug is one of a number of insects often associated with the
Orange Web- worm, Anceglis demissalis. (See Chapter X.)

INSECTS OF THE ORDER NEUROPTERA.
LACK -WINGS.

CHRYSOPA. (Fig. 38, adult fly and eggs of Chrysopa ocnlata.) There
may frequently be seen, moving rapidly about upon the trunk and

branches of the orange tree, little floc-
culent masses, grayish in color, nearly
hemispherical, and of about the size of
a split pea. When one of these mossy
bunches is examined closely it is found

to be an insect, whose back is covered with a nondescript collection of
fragments, consisting chiefly of the dried skins and broken remains of
insects. This is the young of a Ohrysopa, or Lace- wing fly, and the cov-
ering with which its soft body is protected, and which renders it less
conspicuous upon the bark, is formed from the accumulated remains of
the victims whose juices have served the animal for food.

The Lace- wing feeds to a great extent upon Bark-lice, tearing loose
the scales from the bark, and after devouring the soft contents adding
a portion of the debris to the load upon its back. Plant lice and many
other small insects are also eaten. The activity and rapacity of the
larva is remarkable ; it wanders restlessly over all parts of the tree in
search of food, and although insignificant as to numbers in comparison
with the swarming millions of its prey, it yet exercises an appreciable
influence in holding them in check.

Larva. The body of the larva, divested of its extraneous covering, is
somewhat broadly oval, divided into joints, from the nicies of which arise
branching spines. These spines serve to hold in place the loose, dry
materials which are piled upon its back. The legs are quite long and
slender, adapted to rapid movements, and the jaws are sickle-shaped,
long and keenly pointed, projecting beyond the ambuscade under which
the insect moves.

Pupa. When prepared to pupate, the larva forms an almost globular
cocoon by drawing together with strands of silk the loose materials it
bears upon its back, and constructing beneath it a spherical cell of thin
but strong parchment, pure white in color. Within this the pupa lies
curved like an embryo. The pupa has the form of the perfect insect,
barely masked by a transparent envelope, and with the wings and other
members contracted and closely applied to the body. It gradually
changes in color from white to pale green, and finally issues by pushing
outward a circular cap which forms one end of its cell.

Imago. The perfect insect is a four-winged fly, of a delicate pea-green
color; eyes a resplendent copper bronze. The wings are large, closely
veined, hyaline with a violet reflection ; when at rest they' meet in a

MITES WHICH DESTROY SCALE-INSECTS. 8i

ridge like the peak of a roof. The antennae are black, paler outwards.
Head porcelain- white; the enlarged first joint of the antennae, aud also
a triangular spot on the head at the base of each antenna purple red; a
band of the same color on each side of the thorax.

Eygs. The eggs are laid upon various parts of the tree, often near a
colony of Plant lice, in groups of five to fifteen, each supported on the
end of an erect, bristle like stalk, about 0.4 inch in length. The object
of this device is said to be the preservation of the egg from the young
of its own kind, for such is the rapacity of the larva that those first
hatched would immediately devour the remaining eggs if they were de-
posited within reach upon the surface of the plant.

Life-history. The development of Chrysopa is quite rapid in hot
weather, and is greatly retarded by cold. There are apparently but
two broods each year, in spring and fall. Eggs are seen as late as the
middle of July, but the larvae only are abundant in midsummer. In
winter both larvae- and eggs are found, but the perfect insect is not
common except in early summer and late in the fall. There are said to
be several species of Chrysopa frequenting the Orange, which, however,
are with difficulty distinguished from each other, and have identical
habits. One of these has been described as new by Ashmead under
the name Chrysopa citri.

Parasites (Perilitus sp.). 5 A four-winged parasite destroys the Chry-
sopa, and issues from its cocoon. It is of slender form, with the abdo-
men stalked; color beneath light yellow, above black, with yellow mark-
ings; the legs yellow, the antennae dark, the face yellow; eyes, ver-
tex, and back of the head black; the rings of the hind-body are alter-
nately black and yellow. Length, 3 mm (^ inch).

HEMEROBIUS. Several species of this genus, which is closely allied
to Chrysopa, exist upon orange trees and feed upon the young of Bark-
lice, and to a still greater extent upon Plant-lice (Aphis). They have
nearly the same habits as Chrysopa, but the larvae do not protect them-
selves with a covering of fragments. The larvae are mottled with gray,
brown, and dull red, and are more slender than those of the preceding
species.

The pupa is formed in a globular cocoon of white parchment, not
covered with fragments.

The perfect insect is much smaller than Chrysopa ; the wings are less
transparent, and are covered with down of light-brown color.

MITES A CA RINA .

Next to their internal parasites, Mites constitute the most important
enemies of Scale-insects, and exert a constant and very powerful influ
ence in checking their increase. They are at all times present wherever
Scale-insects exist, and in numbers limited only by the food supply.
They cannot penetrate the hardened shells of mature Scale -insects, but
6521 o I 6

82 INSECTS AFFECTING THE ORANGE.

they destroy great numbers of the young lice, as soon as the latter have
fastened themselves to the bark, and while their scales are still soft and
thin. They also creep into the open end of scales which have begun to
hatch, and destroy a portion of the eggs. The scales vacated by para-
sites, in which have been left convenient open doorways, furnish the
Mites with secure retreats and places of deposit for their eggs. Usually
the dry and distended skin of the Coccid is left by the parasite, nearly
filling the scale, and with a minute exit hole. immediately opposite that,
in the outer shell. Thus the Mites or their young and eggs are provided
with a double envelope separated by layers of confined air, and nearly
impervious to liquids. It is, therefore, not astonishing that applica-
tions sufficiently penetrating to kill Scale-insects do not reach the Mites
and their eggs thus protected. In fact the latter very frequently in-
crease enormously after an effective application, because the loosening
of the scales by the wash enables them to penetrate to and feed upon
the dead or dying Bark-lice, and the supply of food is for a time largely
increased.

To cause a marked increase in the number of the Mites, it is some-
times sufficient to loosen the scales here and there upon the trunk and
branches which are most thickly encrusted with them, by scraping the
bark with a stick or knife blade. This gives the Mites an increased sup-
ply of food, and stimulates them to active breeding. The result is
often to effectively check the progress of the Scale-insects for the time
being, although they cannot be exterminated in this way. The method
is not advanced as a practicable remedy, and cannot be made to replace
the proper application of insecticides, but from its simplicity it is fre-
quently useful as a means of gaining time, when remedies are not at
hand.

GLOVER'S ORANGE MITE (Tyroylyphus f glorerii Ashniead). [Plate
VI, Fig. 5.] This is the commonest species found among Orange Scale-
insects; it is also the smallest species and the most active and rapid in
its movements; it is somewhat longer than broad, slightly flattened ;
in color it varies from pure white to yellowish, and often a pale pink or
. flesh-color. This color- variation is due to the varying nature of its in
testiual contents, seen through the semi transparent body. Length
about O.l mm ( - ro Vo- inch).*

The eggs are white, and are deposited either singly or in small groups,
under a tangle of spider's web, among dead scales, &c. ; lurking places
in which the white, six legged young congregate and undergo their trans-
formations.

* The form iu most soft-bodied Acariuais very changeable., depending upon the con-
dition of the animal, whether full-fed, or depleted by fasting. The figure of this
species on Plate VI represents the shape commonly seen. When emaciated, the sides
of the body become deeply sinuate or lobed, deep pits are formed upon the upper sur-
face in front, and several transverse folds iu the skin appear to divide the abdominal
portion into segments. In plethoric individuals, the disteution of the body into an
oval sack obliterates every trace of fold or depression upon its surface.

MITES WHICH DESTROY SCALE-INSECTS 83

This species certainly feeds upon the eggs of Coccids, and probably
also upon their young, and sucks the juices of the adult Bark-lice, when-
ever it can get at them.

THE HAIRY ORANGE MITE.* Probably the next in point of abund-
ance is a larger mite, dark red in color, covered with pale hairs, broadly
oval in form, and with several irregular indentations upon the back.
This mite is als,o very rapid in its movements, and is certainly predatory
upon Scale-insects or their eggs.

The eggs are sherry -brown in color, quite large and globular, and aie
usually deposited singly upon the leaf among scales, or strung like
amber beads upon strands of spider's web, which harbor the mites and
their young. '

The six-legged young are spindle-shaped, of a lighter, ruby-red color,
the extremities pale, and have an eye-like prominence on each side of
the anterior body. The length of the adult is 0.3 mm ( T ^f- inch).

THE SPEAR-HEAD MiTE. 7 Another not uncommon Ked Mite seems to
be predatory upon Scale-insects. It is rather larger than the preced-
ing 5 dull, opaque red, not hairy ; the body is distinctly diamond or
spear shaped, somewhat flattened, with a sharp median ridge upon the
back, having on each side a longitudinal depression ; a band of pale
brown is sometimes seen across the middle of the back. Length, 0.35 mm
(i-Jfo inch).

This species is sluggish and solitary. The eggs are deep red, globu-
lar, and are deposited singly among scales.

There are numerous species of Mites found about and among Scale-
insects, of which a few only appear to be dependent upon them for their
subsistence, or peculiar to the orange tree and its kind. Some of these
mites are undoubtedly merely scavengers, living about, if not upon, the
dirt and debris that collect where the plant is fouled with Scale-insects,
but never appearing to attack the insect itself in any stage. Possibly
they feed upon the excrement or excretions of other insects, or upon
molds that accompany such ejected mattep.

The predatory Mites are usually active, running hither and thither
restlessly, occasionally stopping to examine the sealed edge of a scale
or to pry into a vacant and deserted shell.

The young of Mites frequently differ entirely from the adults in form
and coloration; they have, moreover, but three pairs of legs, while the
adults have four pairs. The life-history of many species is imperfectly
known.

THE SPOTTED MiTE. 8 This is a rather large, egg-shaped or pear-
shaped Mite, with a very plump, smooth, shining, and pellucid body,
either white or honey -yellow in color, and provided with a few very
long and fine bristle-hairs ; the division of the body into two parts is
barely indicated by a fine line; in adult specimens the bo.dy behind is
more or less clouded with red-brown, forming sometimes a distinct spot;
a large round spot on each side, upon the declivities of the hind-body,

INSECTS AFFECTING THE ORANGE.

varies in color with the age and condition of the individual, from sulphur-
yellow to brick-red and dull brown. Length, 0.3S mm (T^-Q- inch).
The Mite is slow in movement, and gregarious. White, elongate eggs,
and the six-legged young are found in groups of
three or four to twenty upon scale-infested orange
leaves.

While this Mite may with sdtoe probability be
considered a scavenger, feeding upon dead vege-
table and animal matter, it is almost certain that
it does also suck the eggs of Scale-insects, with
which it is very closely associated.

A species of Rhlzoglyphus (?), 9 similar to but
distinct from the preceding, was sent by Professor
Comstock from Florida. It was found in all stages
from egg to adult on orange leaves infested with
the Long Scale and the Common Mealy-bug. Fig.
FIG. M.-orange Mite. (Origi- 39 represents the mite, after a drawing by Mr.
Th. Pergande; the following are his notes upon the
species: u These Mites were especially numerous around the Mealy-bugs,
and they were noticed to suck and destroy the eggs of that insect ; the
eggs of the Mite were deposited between the egg-masses of the Louse
and also on the leaf itself ; the eggs are white, perfectly oval ; the Mites

are white, almost transparent, the full-grown
ones slightly yellow, with one or sometimes
three pale brownish spots ; when there is only
one spot it is generally situated on the pos-
terior portion of
the abdomen, but
when there are
three spots they
are arranged as
shown in the fig-
ure the front one
is largest and the

FIG. 40. Orange Mite. (Original.)

two posterior
spots are small

FIG. ^l. Tyrofllyphus mali.
(After Kiley.)

and rather mdis-tmct. The male is shorter
and stouter than the female."

Associated with the foregoing is a Mite
[Fig. 40] with a more flattened form, concerning which the following
notes are given, with the figure here produced: 10

"A single specimen of a second species of Mite was also found on an
orange leaf sent by Professor Comstock, from Sanford, Fla. This Mite
is quite different from the preceding; it is smaller, more yellow, and
there are small and very distinct eyes j the legs, especially the first pair,
are quite differently formed. It is not as hairy and not as slender as the

MITES WHICH DESTROY SCALE-INSECTS.

other species. This Mite also evidently preys either on the Mytilaspis
or the Dactylopius."

A very long- bodied Mite, without spots, is found occasionally in empty
Mytilaspis scales ; it has the same habits as the Spotted Mite. This
species may be identical with Tyroglyplms malus Shinier, which preys
upon the Oyster-shell Bark-louse of the Apple. The figures of the lat-
ter, from Eiley 7 s Fifth Missouri Eeport, are here reproduced. [Fig. 41.]

THE ORBICULAR MITE. This is the largest Mite found among Scale-
insects ; it is nearly circular, or slightly oval, in outline ; the body is
thick and somewhat flattened, covered with a pol-
ished, horny shell of brown color, surmounted by
a few fine bristles. The shell or carapace is turned
under at the sides and ends, so that the short,
stout legs are concealed beneath it as the animal
walks, and only the tip of the head and beak pro-
ject beyond the front margin. Length, about
0.4 mm ( T ^ inch).

This is an active, wandering Mite, undoubtedly
predatory upon Scale-insects, but found also suck-
ing the eggs of many other insects. Its eggs are
laid, and transformations undergone, under loose bark and in crevices,
where the early forms are mingled with those of numerous other Mites,
from which they have not been clearly distinguished.*

A variety of other Mites are found from time to time wandering over
scale-infested leaves and branches, but the forms above indicated are
believed to include those most closely connected with orange pests.

FIG. 42. Nothrus ovivorus.
(After Packard).

* This may be the Nolhrus ovivorus of Packard, Fig. 42, which is found sucking the
eggs of the Canker-worm.

CHAPTER VII.

MEANS OF DEFENSE AGAINST SCALE-INSECTS REME-
DIES.

INTRODUCTION OF SCALE-INSECTS ON IMPORTED PLANTS.

In the wide range of insect life few forms possess a greater vitality
than is found among the Bark-lice, and none are more readily trans-
ported upon plants from place to place, and from one country to an-
other. Whenever orange plants are imported from infested districts,
Scale-insects will be brought with them, and their introduction and
spread in regions where they were before unknown are inevitable.

Even the soft and unprotected Coccina3 sustain without injury an as-
tonishing amount of rough handling, and exist for long periods of time
without food or moisture.

During the winter of 1882->83 living specimens of the Common Mealy-
bug (Dactylopius adonidum, Linn.) were sent to the writer, through the
mails, from Italy and also from Morocco, inclosed with a few orange
leaves in common letter envelopes. Although the orange leaves were
entirely dry, and some of the insects were crushed between their sur-
faces, many, even of the adults, were found to be uninjured, and young
lice had even been produced in transit.

The scale-covered Diaspina3, it may well be supposed, are even better
able to sustain long voyages than their soft-bodied relatives, and their
eggs are not affected by long-continued drought, nor by sudden changes
of temperature.

It can hardly be doubted that all the common Bark-lice found upon
the Orange in Europe have been many times imported into Florida upon-
living plants. In this way, in the year 1835, it is supposed, the com-
mon Long Scale (Mytilaspis gloverii] was introduced, first at Jackson-
ville, and subsequently at Saint Augustine, from whence it spread de-
vastation over all the groves then in the State.

In 1855, according to Glover, a new scale, probably the Chaff Scale
(Parlatoria pergandii), was introduced into Florida on some lemons sent
from Bermuda. More recently a new and very destructive scale has
made its appearance at Orlando, in Orange County, Florida, and is
slowly but surely spreading to other parts of the State. This is the
Eed Scale of Florida (Aspidiotus [Ghrysomplialus] ficus Ash mead). It
was first observed in a grove near Orlando, in the spring of 1879, upon
a sour-orange tree brought from Havana, Cuba, in 1874. Professor
86

REMEDIES AGAINST SCALE-INSECTS. 87

Comstock received specimens from Havana, and learned that it was a
very common pest in the public gardens of that city.

In California, owing to the very direct communication with China
and Japan, and frequent importations of plants from these countries,
many destructive species of Bark-lice have been introduced upon fruit
and shade trees. Some of these are the most serious pests of their kind ;
many have a wide range of food-plants, including also the Orange, and
one at least, the Ked Scale of California, is peculiar to citrus plants.
It was introduced into California from Australia. Professor Corn-
stock believes this to be the most destructive species known to in-
fest citrus plants in this country. Its introduction into Florida, to-
gether with others now ravaging the groves of California, is greatly to
be feared, and is probably only a question of time, as the interchange
of plants between these two States increases annually.

Not only plants of the citrus family, but many other trees and shrubs,
and notably the Olive, may cause the introduction of Scale- insects,
some of which have, besides the Orange and its kind, a great variety
of food-plants.

It would be well for the horticultural interests of Florida if some
system of inspection of imported fruit-trees could be adopted and vigor-
ously enforced by the State. This would, no doubt, be difficult of
accomplishment, and, perhaps, impracticable. Individual importers
should, however, be made fully aware of the danger which exists of in-
troducing other destroyers more serious than those already at hand,
and should be on their guard. Living plants received from foreign
countries ought to be carefully cleaned upon their arrival, and all in-
sects found upon them destroyed.

It is not easy to estimate the extent of the damage that would be
occasioned should any of the Aspidiotus scales now ravaging the groves
and orchards of California be permitted to obtain a permanent foothold
in Florida.

PRECAUTIONARY MEASURES.

Infection from nursery Stock. What has been said as to the danger of
introducing exotic Scale-insects by importations from abroad will apply
as well to the spreading of domestic species by the exchange and sale of
nursery stock.

It must be acknowledged that many of the leading nurserymen are
fully alive to the necessity of establishing and maintaining a reputation
for painstaking care, and rarely send out infested plants. Others exer-
cise less care and frequently scatter insect pests by means of the befouled
plants they distribute.

Close planting in the nursery is a most frequent cause ot the appear-
ance of Scale insects in destructive numbers. Young orange trees are
planted a few inches apart in rows, and are often left for years in close
ranks, with their branches interlocking, and affording easy passage for

88 INSECTS AFFECTING THE ORANGE.

the migrating young of Bark-lice, so that if they effect a lodgment upon
any plant, the entire row, and even the whole nursery, is quickly over-
run by them.

The crowding of the plants prevents free and vigorous growth ; they
are stunted, and for want of nourishment, as well as lack of light and
air, they are thrown into a condition in which they are particularly liable
to the attack of Scale insect. In common parlance, "they breed scale."

In the existing almost universal distribution of the pest, those nurser-
ies only can be kept from becoming foul in which a reasonable amount
of space is allowed to each plant for its growth and cultivation. At
least 18 inches should intervene between the plants, and the rows should
be not less than 3 feet apart. Experience teaches that it is easier to
keep clean and uninfested a large, well-ordered nursery than it is to
remove the Scale-insect from a single orange tree of moderate size when
once the pest has become fully established.

No part of the grove is so liable to suffer neglect as the nursery, and
it is unfortunately a very common practice to allow seedling' plants to
grow up without attention in neglected corners, and frequently to become
so foul with scale as to become a source of infection to the groves and
nurseries in the vicinity.

To this neglect, undoubtedly, is due the fact that the advance of insect
pests has fully kept pace with that of the orange industry in the recently
occupied districts, both in Florida and California.

Protection afforded by Hedges and Forest Trees. It is a serious evil, and
one as yet hardly appreciated, that in Florida, in removing the forest
to make way for the advancing orange groves, every tree is generally
sacrificed. Not even in the lanes and roadways has the ax spared an
occasional pine to serve as a wind-break against the sweep of storms.
In many districts, once well clothed with timber, the naked laud for many
miles now lies exposed to the destructive force of gales, which, by whip-
ping and thoruiug the fruit, will, when the groves begin to bear, occasion
severe losses.

The pines of the original forest, from their great height, serve to break
the force of upper currents, and a single giant tree extends its protecting
influence over a wide area. If cut, the loss is well-nigh irreparable ; many
generations must elapse before its place can be satisfactorily supplied
by the lower and more spreading oaks and pines of second growth. But
a discussion of this subject, though of sufficient importance to horticul-
turists, would be out of place in the present treatise, were it not for the
great value of wind-breaks as an aid in isolating and preventing the
spread 6f Scale-insects and other pests of fruit-trees.

From the time of their first appearance it has been remarked that
Scale insects spread most rapidly in the direction of prevailing winds.
This phenomenon is now known to be due to the influence of the wind
in guiding the flight of other insects which transport the minute, crawl-
ing young of Bark-lice upon their bodies.

REMEDIES AGAINST SCALE-INSECTS. &9

The feet and. tail-feathers of birds are also invaded by the crawling
lice, which are thus borne with tUem in their flights to be scattered over
new plantations.

The leaves and branches of shrubs and trees standing to the windward
of a grove protect it by receiving these pest-laden visitors, and detain-
ing them long enough to relieve them of the scale-larvae they bear upon
their bodies.

It is, therefore, a great protection to leave narrow belts of timber be-
tween adjoining groves, allowing the undergrowth to spring up and form
a natural screen, or else to replace this with cultivated plants. Fences
may usefully be replaced by thorny hedges, which will aid in maintain-
ing an effective quarantine against invasions of Scale-insect and other
minute pests.

To be of value the screen or hedge should, of course, be composed of
such plants as are not themselves subject to the attacks of orange insects ;
otherwise it may first become infested and afterward prove a source of
danger, in place of a safeguard. For example, the Oleander is not desir-
able in the neighborhood of orange trees, because of its liability to the
attacks of certain soft Scale-insects (Lecanium.) On the other hand,
pines, cedars, and other coniferous plants, having very few insect ene-
mies in common with other plants, are absolutely safe, and are also
admirably adapted to form wind-breaks.

CLEANLINESS.

Beneficial action of Light. It is with plants as with animals, a rule to
be borne in mind that foulness breeds vermin. The growing bark as
well as the leaves has its pores and its respiratory functions, for the
proper performance of which it needs exposure to light and air. From
the lack of these conditions for healthful growth, the inside branches
of orange trees dwindle and lose vitality, becoming breeders of Scale-
insects, which thrive best when the plant has lost its vigor.

Pruning and opening Tops to Light and Air. Upon trees of consider-
able size and which have formed dense heads, Bark-lice usually make a
start upon the devitalized inside branches, and from thence they may
spread over a portion or the whole of the tops.

It may be doubted if any bearing orange tree entirely free from scale
can be found in Florida. Somewhere under the canopy of leaves there
will always be a twig or stifled branch upon which the enemy lurks in
concealment, latent, but ever present, and waiting for favorable condi-
tions to swarm forth in destructive numbers and possess the tree. The
careful cultivator needs not to be warned of this source of danger, and
will not allow dead and dying branches to remain and accumulate until
they become a menace to the health of the tree and breeders of insect
pests. He will frequently examine his bearing trees, and at least once
each year remove the unfruitful and devitalized inside growth from their
tops,

90 INSECTS AFFECTING THE ORANGE.

Clearing off Webs. Young trees, while-they require less pruning than
the old, will well repay the time and care that may be expended in
keeping them free from entangling moss and from the webs of insects.
These not only befoul and injure the trees, but directly foster Scale-
insects by sheltering and protecting them from the attacks of many
very active enemies and parasites. The webs and lairs of spiders in
particular may be regarded with suspicion, and will very frequently be
found to harbor the foe when it can be found nowhere else.

Scrubbing the Trunks. Accumulations of Scale-insect, living or dead^
as well as of lichens and other fungi, upon their trunks affect most in-
juriously the health of trees, and their removal from the bark always
causes a marked improvement in condition. The incrustations upon
orange trees formed by Chaff Scale are particularly hurtful. This spe-
cies continues to accumulate for many generations, piling its scales over
each other as long as it is possible for the young to find a crevice through
which to insert their sucking beaks. There results a dense crust,
which remains for years, and becomes still further consolidated and
converted into a tough, fibrous coating by the threads of the peculiar
fungus, which, as has already been mentioned, feeds upon the debris of
this Bark-louse.

To partially cleanse the trunks of orange trees, without entirely de-
stroying the life that always remains in scale-crusts, no matter of how
long standing, is to expose the plant to fresh incursions of Scale-insects
by clearing away the obstructions to their spread. Therefore it is im-
portant not only that the clearing should not be neglected, but that,
when undertaken, the work should be thorougly done.

For scrubbing the-trunks properly a brush stiff enough to remove the
scales is>required, and to insure the destruction of any insects or .eggs
that may escape, hidden in unseen crevices, it should be dipped in
cleansing liquids, such as the dilute kerosene and soap emulsions recom-
mended in the following pages for spraying the trees, or very strong
solutions of lye may be used, and will be more effectual in destroying
fungi than the kerosene washes. Solutions of whale-oil soaps are very
commonly employed and with good effect ; but if the solutions are thick
and strong, as indeed they need to be in order to kill the insects, the
trunks should be rubbed down before they dry with clear water, to re-
move the film of soap, for this, if allowed to remain, has a tendency to
harden the bark by clogging its pores.

Palmetto Brushes. A. better implement than the common domestic
scrubbing brush, usually employed in cleaning tree-trunks, may be
made in a few mome'rits out of a bit of saw-palmetto root (root-stalk) by
pounding the ends until the fibers separate and form a brush. For the
removal of scales and dead bark nothing better than this rude brush
can be devised. In Florida the material is always at hand and costs
nothing. In use the palmetto brush wears away slowly, but never
wears out so long as any portion of it remains.

REMEDIES AGAINST SCALE-INSECTS 91

POPULAR METHODS AND REMEDIES.

Cutting back infested Trees. The utter inadequacy of nearly all the
washes hitherto used has led many fruit-growers to despair of obtain-
ing permanent benefit from the application of remedies, and a common
practice has been to cut back badly infested trees, leaving only the
main trunks, or in the case of well-grown trees, a portion of the main
branches, and to scrub thoroughly every part of these with solutions of
soap or lye, using a stiff brush, and as far as possible removing every
scale. This, however, involves great care and considerable labor, and
the complete extermination of the pest -is rarely accomplished in this
way. The loss of branches is indeed replaced with extraordinary rapid-,
ity, but the Scale-insects reappear as if by magic, and in one or two
years become as bad as before.

Fumigating. Various plans have been proposed for destroying Scale-
insects with pungent vapors of various kinds. The difficulties in the
way of applying vapors to trees growing in the open air are very great,
and appear to have been overlooked by the advocates of this method.
Tobacco smoke has been very frequently tried in inclosed green-houses,
but although it will destroy Plant-lice (Aphis), it is found to have no
effect upon Scale-insects, which are far too well protected by their tightly
scaled scales to be reached by vapors, except those of a corrosive na-
ture.

Sulphur has been recommended, evidently on theoretical grounds
only, as its fumes are not less destructive to vegetable than to animal
life. The chloiophyl of the leaves and plants is bleached and the life
of a plant destroyed by a short exposure to any gas containing sulphur.
Actual trial of fumigation upon the Orange was made by covering a
young and vigorous plant with a barrel and exposing it for ten minutes
to the fumes produced by burning one ounce weight of sulphur. The
leaves were completely bleached and tbe plant killed. The Scale-insects
upon it (Long Scale) were uninjured by the sulphur vapor, and survived
until the bark became entirely dead and dry, perishing finally from
want of food and moisture.

Applications to the Roots. No results of any value have been attained
by attempts to kill Scale-insects through the juices of the plant by
making applications to the soil with the expectation that they will be
taken up by the roots. Many nostrums are advertised and sold as
insecticides, which it is claimed act in this way. There are also in the
market not a few combined fertilizers and insect-exterminators, so-
called, to which is assigned a double action, beneficial in- tbe ca.se of the
plant, but deadly to the insect life which it supports. These claims are
based upon the assumed power of the plant to appropriate and mingle
with its juices unchanged the substances which have insecticide prop-
erties an assumption wholly at variance with the known laws of vege-
table physiology. In fact an insecticide, if it could be introduced into

92 INSECTS AFFECTING THE ORANGE.

the circulation through the roots of the plant, would be far more likely
to injure the plant itself than the Bark-lice upon it.

Inoculating with Poisons. For the same reason it has been found im-
possible to reach and destroy insect pests by inoculating the bark or
wood of the trunk or branches.

The attempt has usually been made by boring into the trunk of the
tree, introducing the article to be tested, and tightly closing the hole
with a plug. Numerous experiments of this sort are recorded. Of the
long list of substances which have been thus tried, and which includes
many mineral and vegetable poisons, as well as sulphur and other sub-
stances possessing insecticide properties, none have proved effective.

Popular Fallacies. There is a widespread and apparently well-founded
opinion that vigorous trees are in little danger from attacks of Scale-
insects, but if from any cause a tree becomes enfeebled, its investment
is only a question of time. Many persons therefore reject the aid of
insecticides, and when a tree becomes infested, rely upon a liberal use
of fertilizers to restore its lost vitality and force it into vigorous growth,
believing that in this way it will rid itself of the pest. It cannot be de-
nied that this course of treatment is often successful, at least for a time,
but the Scale-insect is never entirely eradicated, and its return at some
future time may be expected. Indeed, overstimulation by means of
fertilizers is apt to defeat its object, and reaction follows in unfavorable
seasons.

In fighting Scale with fertilizers, therefore, success may be said to
depend upon conditions unknown or beyond our control. When these
are favorable, the system may be found to work well; otherwise failure
is inevitable, and by adhering to it valuable time will be lost, and the
pest will perhaps be allowed to spread until it can with difficulty be
controlled.

' EFFECTIVE REMEDIES.

Kerosene. This is without doubt the most effective insecticide for use
against Scale-insects, and it is almost the only substance known which
will with certainty kill their eggs without at the same time destroying
the plant. The difficulty of diluting it, and the danger to the plant of
applying it undiluted, have long prevented its extensive use. Easy
methods of emulsifying the oil and rendering it miscible with water are
now known, and have recently been set forth by Professor Eiley in his
official reports.

Milk and Kerosene Emulsions. The method of- emulsify ing kerosene
with milk, as given in a preliminary report on Scale-insects in the Ee-
port of the Commissioner for the years 1881 and 1882, remains the
best and simplest, where milk can be easily and cheaply obtained.
The milk should first ba heated nearly to the boiling point, and then
mixed with kerosene in the proportions one part of milk to two parts

REMEDIES AGAINST SCALE-INSECTS.

of keroseue. The mixture requires to be very violently churned for a
period, varying with the temperature, from five or ten minutes to half
an hour. If the mixture is quite hot the emulsion is very easily and
quickly formed. It is quite thin while warm, but thickens on cooling.
If cold, the process is delayed, but after continued agitation the emul-
sion forms suddenly, as in butter making, and becomes at once an ivory-
white glistening paste, or jelly.

To form a perfectly stable emulsion more violent agitation is re-
quired than can be effected by hand stirring, or by dashing in an ordi-
nary churn. The particles of oil and milk are more readily driven
into union by passing the mixture through the spray-nozzle of a force-
pump.

The aquapult pump (Fig. 43), which is also one of the most effective in-
struments for spraying trees, may
be satisfactorily used for this pur-
pose. The pump is inserted in a
pail or tub containing the mix-
ture, and this is pumped back
into the same receptacle through
the flexible hose and spray-nozzle
until the emulsion is formed.
From 3 to 5 gallons of emulsion
may be churned at one time by
means of the ordinary hand form
of this pump. For larger quan-
tities a larger pump or some form
of druggist's churn will be re-
quired.

The emulsion, if well made, is
permanent, provided it is not ex-
posed to the air, which causes in
time a partial separation of the
oil. The union of the ingredi-
ents is purely mechanical, and

FIG. 43. The aquapult.

the presence of the kerosene does
not prevent the fermentation of
the milk, which will become sour and curdle without, however, separat-
ing from the oil.

For fresh milk may be substituted an equivalent of condensed milk
and water, or of sour milk. If sour milk is used no subsequent curd-
ling of the emulsion takes place, and it is therefore preferable to sweet
milk.

The milk emulsions may be diluted in water to any extent, and if
cold require to be thinned at first with a small quantity of water.
One part of emulsion to nine or ten parts of water will be found to
make an effective wash.

94 INSECTS AFFECTING THE ORANGE.

Soap and Kerosene Emulsions. The difficulty of obtaining fresh milk
in Florida, and the cost of condensed milk, have made a cheaper substi-
tute desirable. This is found in a solution of soap, which forms with
kerosene an equally good emulsion. The quantity of soap used in so-
lution need not exceed one-quarter of a pound to, one gallon of water,
but stronger soap solutions are required to form a permanent emulsion.
The percentage of kerosene may also be varied greatly. But emulsions
containing over 80 per cent, of the oil have too light a specific gravity
and are not readily held in suspension in water. On the other hand, in
the process of ernulsifi cation, kerosene loses a portion of its value as an
insecticide, and emulsions containing less than 30 per cent, of the oil,
although they do not at all, or only very slowly, rise to the surface when
diluted with considerable quantities of water, are nevertheless too much
weakened for effective use against Scale-insects.

The following formula is considered the best for general use. It
gives a wash of sufficient strength to kill the eggs of those species of
Scale-insect which are commonly found in Florida, although in dealing
with some of the Aspidiotus scales a somewhat stronger emulsion may
be required.

FORMULA :

Kerosene 2 gallons=67 per cent.

Common soap or whale-oil soap . J pound ) ,> Q ^

/ :=oo uei cent/.
Water 1 gallon )

Heat the solution of soap and add it boiling hot to the kerosene.
Churn the mixture by means of a force-pump and spray-nozzle for five
or ten minutes. The emulsion, if perfect, forms a cream, which thick-
ens on cooling, and should adhere without oiliness to the surface of
glass. Dilute before using, 1 part of the emulsion with 9 parts of cold
water. The above formula gives 3 gallons of emulsion and makes when
diluted 30 gallons of wash.

Necessary precautions in the use of Kerosene. A reckless use of any
penetrating oil upon plants cannot fail to prove detrimental. Kero-
sene is, however, much less injurious than the lighter oils, naphtha,
benzine, &c., with which, in a crude state, it is associated. The refined
oil, such as is commonly used for illuminating purposes, is safer, and
should always be used in preference to the lower grades, which contain
a large admixture of other oils exceedingly deadly to vegetation.

Effect of Kerosene upon the Orange. Although the action of kerosene
proves more injurious to some plants than to others, a healthy orange
tree is but slightly affected by it, and will even support without serious
injury applications of the undiluted oil if judiciously made, i. <?., applied
in fine spray and avoiding exposure of the plant to hot sunshine or to
frost before the oil has evaporated. Unhealthy trees and trees suf-
fering from the attacks of Scale-insects receive a shock more or less

REMEDIES AGAINST S.CALE-INSECTS. J 5

severe, according as their vitality is more or less impaired. Young,
tender shoots, budding leaves and blossoms, are not much affected by
kerosene, and may even be dipped in the pure oil with impunity.

The heat of the sun increases to an injurious extent the action of
kerosene, and applications of very strong solutions or undiluted kero-
sene, if used at all, should be made on cloudy days or at evening.

Milk or soap emulsions containing 60 or 70 per cent, of oil and diluted
with water ten times are more nearly harmless to the Orange than any
other insecticide capable of killing the Scale-insect. Nevertheless the
plant receives a shock, imperceptible when the tree is in good condition,
but sufficiently severe when it is infested and injured by Scale to cause
the loss of the old, devitalized leaves. Complete defoliation and the
death of moribund twigs and branches may be expected to occur in ex-
treme cases. The shock is invariably followed by a reaction, and in ten
to fifteen days new growth appears. This growth is healthy and nat-
ural, and if the application h^s been sufficiently thorough to destroy
the Scale-insect, results in permanent benefit.

Enough has been said to show that kero'serie is a powerful remedy,
perfectly effective and safe if used in moderation, but hurtful in strong
doses 5 that its use undiluted is attended with danger, is entirely un-
necessary, and cannot be recommended. In Appendix II will be found
an examination of results obtained in experimental applications of kero-
sene, together with other insecticides, arranged in tabular form for con-
venience of comparison.

The most favorable season for applying kerosene washes is undoubt-
edly early spring or as soon as all danger of frost is past. The shed-
ding of the last year's leaves, which takes place naturally after the
orange tree has renewed its foliage in spring, is often accelerated by
the action of the oil, which is thus made to appear very severe. But the
loss of old and devitalized leaves is of slight consequence, and in the
case of badly infested trees is a positive advantage, as the leaves in fall-
ing carry with them the scales most difficult to reach with insecticides.

Whale-oil Soap. This has long been considered one of the best insecti-
cides known., and is extensively used as a remedy for Bark-lice. Ex-
periments show that very strong solutions kill the Coccids but have
little or no effect upon their eggs. Solutions of one pound of the soap
to three gallons of water failed to kill the adult Bark-lice or their eggs,
and did not destroy all the young. The strongest solution used, one
pound of the soap to one gallon of water, killed all the Coccids and few
or none of the eggs.

This solution solidifies on cooling, and must, therefore, be applied
hot. The effect upon the trees is about equal to that of effective kero-
sene emulsions 5 badly infested trees are somewhat defoliated, but new
growth and vigorous trees are not appreciably affected. As the eggs
are not killed, several applications at intervals of four to six weeks will
be required to clear a tree of scale. (See Appendix II, table 2.)

96 INSECTS AFFECTING THE ORANGE.

Whale-oil soap is sold in Eastern Florida at 10 to 12 cents per pound.
The cost of an effective wash is therefore much greater than emulsions
of kerosene. For scrubbing and cleansing the trunks of orange trees
this soap may be recommended. A solution of 1 pound to 4 gallons
will probably be sufficiently strong for this purpose.

Potash and Soda Lye. These substances have been recommended as
remedies for Scale-insect in California. According to reports promul-
gated by the State Horticultural Commission, solutions as strong as 1J
pounds to the gallon of water are deemed necessary to exterminate the
pest, and are said to have been used with good results upon Peach,
Pear, and other deciduous fruit-trees. Although these caustic solu-
tions burn and partially destroy the bark, it is said to be soon restored,
and no loss of fruit results if applied in winter while the trees are dor-
mant.

Experiments made in Florida upon the Orange with caustic soda and
potash lyes show that solutions of 1 pound to 2, 2J, and 3 gallons
were of little or no practical benefit as regards the extermination of
Scale-insects, while the effect upon the trees was more severe than with
applications of pure kerosene. Unlike kerosene, lye is injurious to the
tender portions of the plant, an<J new growth is destroyed at once by
strong solutions. Solutions of 1 pound to the gallon severely cauterize
the leaves and tender bark, and kill back the smaller branches, but fail
to destroy all the Bark-lice, and have hardly an appreciable effect upon
their eggs. (See Appendix II, table 3.)

Concentrated potash is somewhat stronger than soda lye, but the re-
sults attained with it are also unsatisfactory. In the strongest appli-
cations, made with a solution of two pounds of potash to one gallon of
water, the trees were burned as by fire, the leaves were charred with-
out falling from the branches, all the growth under two years old was
destroyed, and the main trunks alone remained alive. The Scale-insects
perished with the cauterized bark and foliage ; nevertheless, a very
large percentage of their eggs escaped destruction, and continued to
hatch. A few days later the young were seen in abundance, crawling
over the blackened trunk and branches. It is probable that they all
perished, however, through inability to penetrate the cicatrized bark
with their sucking beaks. The trees thus treated survived, indeed, but
in a mutilated condition and with an entire loss of symmetry in their
tops.

It would appear from careful experiments and observations with both
soda and potash lyes, that these substances are inferior to kerosene in
killing power as regards Scale-insects, and far more injurious to the
tree when used* in solutions strong enough to be effective as insecti-
cides. Weaker solutions are, however, extremely useful in cleansing
the trunks of orange trees with the scrubbing brush. For this purpose
they are superior to solutions of soap, and have an advantage over di-

BEMED1ES AGAINST SCALE-INSECTS. 97

lute kerosene emulsions, in that they destroy the spores of lichens and
fungi, which kerosene does not.

Crude Carbolic Acid or Oil of Creosote. The crude oil, dissolved in
strong alkalies or solutions of soap, forms a very effective remedy for
Scale-insect. It may also be emulsified with milk in the same manner
as kerosene. The undiluted oil is, however, exceedingly injurious to
vegetation, and destroys the bark of Orange and other trees. It is, in
fact, a more dangerous substance than kerosene, and requires to be used
with great caution. Solutions, emulsions, and soaps containing it should
be very carefully mixed, in order that no globules of free oil may be
allowed to come in contact with the bark of the tree.

Its action upon the Scale-insect is even more powerful than kerosene,
but it does not destroy as large a percentage of the eggs. The effect
upon the Coccids is not immediate, as in the case of other insecticides,
and for three or four days after an application very few of the insects
die. At the end of a week, however, the Bark-lice are found to be
affected and continue to perish in increasing numbers for a week longer.
Even after the lapse of three weeks the destructive action of the oil is
still appreciable. These facts lead one to suspect that the insects are
killed, in part at least, by the poisoning of the sap upon which they feed.

The visible effect upon the plant appears to confirm this view. Leaves
upon infested trees begin to drop after four or five days, and the defolia-
tion reaches a maximum during the second week. As is the case with
kerosene, the effect upon the tree depends upon its condition at the
time of application ; but carbolic acid is more severe in its action, and
there is greater loss of leaves and infested branches. With care, how-
ever, an application may be made sufficiently strong to exterminate the
scale without serious injury to the plant, and, as new or vigorous growth
is very slightly affected, recovery is rapid.

The following solution of crude carbolic acid will be found nearly if
not quite as effective as a G4 per cent, kerosene emulsion, and may be
applied without danger to orange trees. Dilute the carbolic acid with
twice its volume of soap solution (2 ounces common soap to I pint hot
water). Mix thoroughly until all the oil is dissolved. Add, before
using, to one part of the above solution twenty parts water, and apply
in as fine spray as possible.

The most effective method of using oil of creosote is to saponify it
with heavy oils and potash. In this way a solid soap containing about
12 per cent., by volume, of the oil may be obtained. The process of
making the soap is, however, exceedingly tedious and difficult, and un-
less proper appliances be used the resulting product is imperfect and
even dangerous to use, as it contains a large amount of free creosote.
Manufacturers of carbolic soap could undoubtedly supply a better article
and at a less cost than the consumer could make for himself.

(For detailed experiments see Appendix II, Table 4.)
6521 o I 7

98 INSECTS AFFECTING THE ORANGE.

SULPHURATED LIME.* A combination of lime and sulphur, made
by boiling the sublimate (flowers) of sulphur in milk of lime, is some-
times recommended as a u cure-all" for application to orange trees.
The preparation contains a mixture of sulphides and sulphates of lime,
together with varying quantities of the uucoinbiued ingredients. By
continued boiling the action of the sulphur is rendered more complete,
and if an excess of lime is present the mixture becomes highly caustic,
eating the skin from the hands and destroying the tender leaves and
bark of plants. Its preparation is rendered unpleasant and even dan-
gerous because of the sulphurous fumes that are given off.

One part sublimated sulphur, two parts lime, and ten parts water,
boiled together half to three quarters of an hour give the best results.
After standing a short time the uncombined lime settles to the bottom,
leaving a clear yellowish liquid, which, according to the United States
Dispensatory, is "an impure aqueous solution of sulphide of calcium,
necessarily containing hyposulphite of calcium."

Under varying conditions higher combinations are formed, and the
chemical reactions are exceedingly complicated. 11 A large percentage
of the yellowish -green mass consists of insoluble and inert sulphides,
but with these are mingled other compounds of lime and sulphur, which
give off sulphureted hydrogen gas (hydro- sulphuric acid), and are grad-
ually altered by exposure to the air. When, therefore, the mixture is
allowed to stand in open barrels, the sulphur compounds part with their
active gases, and at length only the caustic action of the lime remains.

Use in the Orange Grove. As an insecticide sulphurated lime has
nearly the same value as potash or soda lye, and in like manner, by its
caustic action, it kills the Bark -lice, but does not destroy their eggs,
unless it is applied strong enough to injure the bark.

Its action upon the plant resembles very closely that of potash and
other caustics, which are more injurious to the young growth than to
the older and less vital parts of the tree.

The imperfect mixture formed by adding sulphur to lime in the act of
slaking is deficient in strength, and has little value as an insecticide.

Sulphurated lime may prove useful to orange-growers as a destroyer
of fungi, and it is advocated as a remedy for foot- rot or other diseases
of a similar nature. But these claims, it is proper to state, have not as
yet been substantiated by sufficient evidence.

* The term " sulphurated lime" is here used as a convenience, and is made to include
the .various compounds formed by the action of hot water on lime and sulphur. In
strictness, the monosulphide (Ca S.) is not formed by the wet process here given. It
is thus described :

"Sulphurated Lime is a grayish- white, or yellowish- white, powder, gradually
altered by exposure to air, exhaling a faint odor of hydrosulphuric acid, having an
offensive, alkaline taste, and an alkaline reaction. Very slightly soluble in water
and insoluble in alcohol. On dissolving Sulphurated Lime with the aid of acetic-
acid, hydrosulphuric acid is abundantly given off, and a white precipitate (Sulphate
of Calcium) is thrown down." (United States Dispensatory, 1883, page 3*26.)

REMEDIES AGAINST SCALE-INSECTS. 99

If used in sufficient strength to kill Scale-insects, the hands and arms
must be protected from the liquid by rubber gloves, and care must also
be had to avoid inhaling the poisonous gases exhaled.

In its active state the preparation is a depilatory, and by applying it
as a paste the hair upon any part of the body may be reduced to gela-
tine and removed.

Bisulphide of Carbon. The few trials made of this substance have not
given very satisfactory results, and additional experiments are needed
to determine whether it can be safely and economically used as a remedy
for Scale-insects. Although a powerful insecticide, the extreme severity
of its action upon the trees and the cost of the materials detract greatly
from its value. It is an exceedingly volatile and explosive liquid, which
must be kept in tightly-sealed glass bottles, and the fumes cannot be
inhaled by man or other animals without danger. The bisulphide may
be emulsified with oils and milk or soap, but not more than three or
four fluidouuces should be contained in each gallon of the diluted wash.

Appendix II, table 5, gives the result of some experiments with bi-
sulphide of Carbon.

Sulphuric Acid. A single experiment with sulphuric acid, 4 fluid-
ounces .in 6 quarts of water, applied with a brush as far as possible to
all parts of a young tree, killed nearly all the Scale-insects, and very
nearly killed the tree. The bark was blackened but not destroyed, and
nearly all the leaves dropped. The tree, however, slowly recovered.

Sulphate of Iron. This substance is exceedingly injurious to vegeta-
tion, but is, nevertheless, a very common ingredient of patent and pro-
prietary remedies. Its presence can be detected by the inky-black or
brown stains which it forms in the substance of the leaves and the rind
of the fruit.

It does not affect the Scale-insect except by destroying the vegetable
tissues from which it gets its subsistence.

Ammonia. With this in a pure state-no experiments have been made,
but to its presence in fermenting urine is probably due the insecticide
properties of the latter. Applications of urine have often been recom-
mended as a remed3 r lor scale, and are certainly not without value> but
if allowed to stand and ferment, and especially if soot or other absorb-
ents of the ammonia are mixed with it, it becomes highly injurious to
vegetation, and if applied at all should be greatly diluted. A mixture
of soot and fermented urine applied undiluted to a small orange tree
effectually cleared it of scales, but very nearly killed the tree.

Silicate of Soda. This is a thick viscid liquid, sometimes sold as a
solid. It is readily soluble in water. When sprayed upon orange trees
it soon dries and forms a coating of gum which partially peels off, car-
rying with it many of the old dead scales and some living ones. When
applied in sufficient strength it kills most of the Coccids, but does not
destroy the eggs. It injures the plant more than kerosene, with which
it cannot be compared in efficiency or cheapness. The preparation is

100 INSECTS AFFECTING THE ORANGE.

inert and harmless to man, and acts mechanically by covering and stifling
the Bark-lice or by removing them bodily from the tree. (See Appen-
dix II, table G.)

Very many substances used separately, or in various combinations,
are recommended as remedies for Scale-insect. Among the number the
following have been examined with more or less care and found to be
of doubtful or of no value : sal-soda, muriate of potash, salt, lime, soot,
and ashes.

Many otherwise valueless washes and applications have been ren-
dered partially effective by the addition of a small quantity of free kero-
nene. The result in all such cases has been a very unequal distribution
of the oil, some portions of the tree receiving a dangerous dose and
other portions none at all. It seems hardly necessary to point out the
uselessness of such half-way measures in combatting a pest which the
most perfect remedy is powerless to eradicate unless applied with thor-
oughness and care.

THE APPLICATION OF INSECTICIDES.

Fineness and Force of Spray. In dealing with an enemy so thor-
oughly protected as are many of the Bark-lice, liquid insecticides should
be applied in as fine a spray as possible, or at least in moderately fine
spray, driven with considerable force, in order to increase to the ut-
most their penetrating power. The aim should also be to reach and
thoroughly wet every portion of an infested tree, so that no individual
Scale-insect shall escape the action of the liquid. This result is not at-
tainable by the old method of sending a jet from a distance into the tops
of the trees. An ordinary garden syringe is practically useless. There
is needed a force pump and a nozzle giving a finely atomized spray.
This nozzle should be attached to a sufficient length of flexible hose to
allow it to be introduced into the top of the tree. The orifice of the
nozzle should be directed at a right angle to the hose, and not in line
with it. The jet of spray may thus by a turn of the wrist be directed
upward or downward, and brought into contact with all parts of the
foliage and branches, from beneath as well as from the upper side.

The Cyclone Nozzle. (Fig. 44: 1, profile 5 2, plan; 3, section). A nozzle
which answers the above conditions and is easily attached to any force-
pump by means of a rubber tube is described in the report of the En-
tomologist (Report of the Commissioner of Agriculture for 18S1-\S2, p.
1 (J2). It consists of a shallow, circular, metal chamber soldered to a short
piece of metal tubing as an inlet. The inlet passage penetrates the wall
of the chamber tangentially, admitting the fluid eccentrically, and caus-
ing it to rotate rapidly in the chamber. The outlet consists of a very
small hole drilled in the exact center of one face of the chamber. The
orifice should not be larger than will admit the shaft of an ordinary pin.
Through this outlet the fluid is driven perpendicularly to the plane of

REMEDIES AGAINST SCALE-INSECTS.

101

Fio. 44. Cyclone or eddy-chamber
nozzle. (After Barnard.)

rotation In the chamber. Its whirling motion disperses it broadly from
the orifice, and produces a very fine spray, which may be converted
into a cloud of mist by increasing the pressure
in the pump. The perforated face of the noz-
zle-chamber is removable for convenience in
clearing the orifice when it clogs. The diam-
eter of the chamber inside need not exceed
one-half inch and its depth one-quarter inch.
A nozzle of these dimensions attached to the
aquapult pump covers one and a half square
yards of surface at a distance of 4 or 5 feet
from the orifice. The amount of dispersion
depends somewhat upon the thickness of the
perforated face of the chamber. The diam
eter of the cone of spray may be increased by
countersinking the exit hole and making its
edges thin.

Three-eighths-inch guin tubing is sufficient-
ly large to supply one or a gang of several
nozzles. The tubing must be strengthened
with one ply of cloth.

In use, the end of the hose is supported by being fastened to a light
rod of wood, which forms a handle, by means of which the nozzle may
be applied to all parts of the tree. For full- sized trees a rod long
enough to reach nearly to their tops must be used. For this purpose a
convenient device may be made by passing the small rubber hose
through a hollow bamboo rod of the required length. A three-six-
teenth brass tube inserted in a bamboo rod has also been used.

Plate VII exhibits a complete outfit for treating orange groves with
liquid insecticides, from a photograph taken during actual service in the
field. This consists of a common pendulum pump inserted in a barrel
and mounted upon a cart. The liquid is delivered through two lines of
hose, each ending in a cyclone nozzle. The arrangement here shown
permits the spraying of two rows of young trees at once, and thus effects
a considerable saving in time. In the same plate is shown an aquapult
pump fitted with a cyclone nozzle and a single length (12 feet) of three-
eighths-inch hose. The pump is inserted in a pail, ready for use as a
portable apparatus for one, or preferably for two men.

Several Applications necessary. Unless exceptional care is exercised
some portions of the bark or leaves will escape thorough wetting and
isolated scales will be left alive. The eggs also to some extent will
escape destruction and may hatch in sufficient numbers to restock the
plant. As a rule, therefore, two, or even more, applications will be nec-
essary. A second application should not follow too closely on the first.
Sufficient time should be given for the hatching of all the eggs which
may have been left alive. On the other hand, if delayed too long, a

102 INSECTS AFFECTING THE ORANGE.

brood interval will have elapsed and fresh eggs will be deposited. Suc-
cessive applications should, therefore, be made at intervals of not less
than three and not exceeding six weeks.

Proper Seasons for applying Remedies. If kerosene emulsions are used
trees may be treated for Scale at any time during the growing season.
Strong solutions of lye, whale-oil soap, and other applications which
are injurious to tender growth do least harm to the trees when dormant.
The brood periods of Scale-insects are quite irregular, and breeding is
more or less continuous throughout the year. As a rule, however, in
Florida new broods begin in March, June, and September, and in these
months, or the month succeeding each, the application of insecticides
gives the greatest advantage. The period immediately preceding the
appearance of each brood is that in which the majority of scales are
filled with eggs, upon which many insecticides have little or no effect.
The months of February, May, and August, and the winter months
from November to January, are, therefore, seasons in which the applica-
tion of remedies is likely to prove least effective.

To apply washes in winter is somewhat hazardous, and exposes the
trees to risk of serious injury, by causing them to put forth new growth
at a time when there is danger from frost. For in Florida the Orange is
never quite dormant even in the coldest winter, and the reaction that
follows an application is liable to start the buds unless the weather re-
mains uniformly cool.

When the air is charged with moisture, and the nights are cold, with
heavy dews or frost, the evaporation, even of volatile oils, is checked,
and they remain too long in contact with the plant. Applications made
under such atmospheric conditions sometimes prove very severe, and
cause the tree to shed all its leaves, or even kill the branches.

P--ART II.

MISCELLANEOUS INSECTS AFFECTING THE ORANGE.

103

CHAPTER VIII.
BUST OF THE ORANGE.

NATURE OF RUST.

Discoloration of the Fruit The brownish discoloration of the rind
of oranges, familiarly known under the name of "rust," has, since the
production of this fruit became an important industry in Florida, given
great concern to the producers, and occasions annually serious loss by
affecting injuriously the salableuess of the fruit. In appearance the
rust varies from a light or dark brown stain beneath the cuticle to a
rough incrustation resembling an exudation of resinous gum upon the
surface. In the former case the golden color of the ripe orange is more
or less obscured, and in the latter entirely destroyed by the discol-
oration. When entirely coated with rust the surface becomes finely
chapped and roughened, giving to the unripe fruit a likeness to russet
apples.

The season during which rust makes its appearance includes nearly
the entire period of growth of the fruit, beginning in early summer,
when the fruit has attained less than one-third its full size, and contin-
uing late into autumn. Its most rapid increase is, however, in August
and September, as the orange approaches maturity. Rarely is there
any real increase after the rind begins to ripen, although the discolor-
ation usually attracts attention just at this time, and frequently occa-
sions unnecessary alarm. On the contrary, there is always a percep
tible brightening as the fruit attains its full color, and oranges slightly
affected, or affected very early in the season, when fully ripe show but
little trace of rust.

J* Rust a Fungus, or an exudation of Gum? The term "rust" is very
indefinitely applied to a great variety of plant diseases, some of which
are clearly due to the presence of fungi, and others are considered path-
ological conditions of the plant, attributable to, for the most part, un-
known or conjectural conditions of soil or climate.

A good example of the first class is found in the common and very
destructive rust of the Fig. Any one who will take the trouble to ex-
amine with a good glass the brown discoloration upon the surface of
the leaves may easily detect the sacks, or asci, of the fungus, filled to
bursting with the spores, or pouring them out upon the surface.

Nothing of this kind is seen upon the leaves or rusted fruit of the
Orange. A microscopic examination of the fruit-rind reveals no forms

lOt

106 INSECTS AFFECTING THE ORANGE.

of fungus, but shows the oil-cells to be more or less completely emptied
of their contents, and the outer layers, the epithelial cells, clogged with
brownish resin, or entirely broken up and divided by fissures, which
permit evaporation of the fluids from the underlying cells. The rind of
rusted fruit, therefore, shrinks and toughens, and loses by evaporation
or oxidation the greater part of its essential oil.

THE ORIGIN OF RUST.

Reasons for considering it the Work of a Mite. If we examine critically
with a hand lens of considerable magnifying power the surface of a
rusted orange, we will find here and there in the depressions, groups of
'minute white filaments adhering closely to the rind. Carefully trans-
ferring one of these filaments to the stage of a compound microscope,
and applying a power of several hundred diameters, the character of
the object is clearly shown. It is the cast skin of an insect.

If the examination chance to be made in winter, when the fruit is'
ripe, the number of these exuviae will not be strikingly great. But if
made in autumn or late summer, the surface of every orange showing-
rust will be found thickly sprinkled with them, and we shall be forced
to conclude that we have before us the relics of a numerous colony,
which at some former period infested the fruit.

Extending the examination to fruit that as yet shows no indication
of rust, we will, if the season is not too far advanced, obtain abundant
confirmation of this conclusion, and find these colonies in the full tide
of their existence. The former occupants of the cast skins prove to be
elongate Mites, of honey-yellow color, too minute to be seeu as indi-
viduals with the unassisted eye, but visible in the aggregate as a fine
golden dust upon the surface of the fruit.

The Mite on the Leaves. Having tracked the Mite by means of its tell-
tale exuviae, and detected it at work upon the fruit, if we turn our at-
tention to the leaves it needs no prolonged search to discover it here
also, and in even greater abundance. In fact, it is evidently upon the
leaves that the Mites exist and propagate throughout the year j for not
only are they found upon fruiting trees, but upon plants of all ages, in
the nursery as well as in the grove.

Nothing resembling the rust of the fruit follows their attacks upon
the leaves. Each puncture of the Mites gives rise to a minute pimple
or elevation, until the surface of the leaf becomes finely corrugated,
loses its gloss, and assumes a corroded and dusty appearance.

This tarnished appearance of the foliage is very characteristic, and
remains, a permanent indication of their depredations, after the Mites
themselves have disappeared.

First appearance of Mites on the Fruit. From the time when the
cellular structure of the rind has completely developed, and the oil-cells
have begun to fill, until the fruit is far advanced in the process of
ripening; in other words, from early spring until late in autumn, it is

RUST OF THE ORANGE. 107

liable to attacks of the Mites, but it is in the intermediate period of its
growth that the fruit offers conditions most favorable to their increase.

Attacks of the Mite always fottawed ~by Rust. The evidence that rust
follows as a sequence upon the depredations of this Mite is circumstan-
tial rather than direct, but it is also cumulative. Oranges marked and
kept under observation, but allowed to remain upon the tree, have in
all cases rusted after being overrun by the Mites. Those upon which
no Mites made their appearance remained bright to maturity.

A very large number of observations show a close connection between
the occurrence of Mites upon the foliage and rust on the fruit, so that it
may be stated as a rule, when the foliage of a tree retains its gloss, the
fruit also will be bright, and, conversely, when the condition of the
leaves indicates the presence of Mites in great numbers, the fruit will
be discolored.

This is found to be true, not only of the entire tree, but of restricted
portions. Thus the upper, the lower branches, or one side of an orange
tree may produce rusty fruit while that on the other parts of the tree
remains bright. In such cases there will always be a marked difference
in the condition of the foliage upon the two portions, and the leaves
surrounding the affected fruit will indicate more or less clearly the
work of the Mites.

Other and perhaps more conclusive reasons for considering the Mite
responsible for rust will be better understood when the habits of the
Mite itself have been considered.

Interval between the Disappearance of the Mites and the Appearance of
liust. As has been already indicated, the Mites do not permanently
infest. either the surface of the leaf or the rind of the fruit, but wander
off to fresh feeding ground when, through their combined attacks, all
the accessible oil-cells have been emptied of their contents, or the tissues
have been too much hardened by advancing maturity to be easily pene-
trated by their beaks.

The effects of their punctures upon the cellular structure of the plant,
however, continue after their departure, and upon the fruit, rust de :
velops with a varying interval, depending possibly upon the relative
humidity of the air. Usually the discoloration is very apparent after
the lapse of a week, and the rind continues to harden indefinitely, or as
long as it is exposed to the air.

THE RUST-MITE.

(Typhlodromus oleivorus Ashm.)

Description. The so-called Bust Insect (Fig. 45, a b) is a four-legged
Mite, honey-yellow in color, and about three times as long as broad.
The body is cylindrical, widest near the anterior extremity, and tapers
behind, terminating in two small lobes, which assist the animal in crawl-
ing and enable it to cling firmly to the surface upon which it rests.
The front is prolonged in a conical protuberance, which appears to be

108

INSECTS AFFECTING THE ORANGE.

composed of two closely- applied lobes. The upper surface at its widest
part is marked on each side with shallow depressions, which are faintly
prolonged on the sides and reach nearly to the terminal lobes. The
abdomen consists of about, thirty segments. The beak, a short, curved
tube, is usually retracted between the organs of the mouth. The latter

form a truncated cone, concealed from
above by the projection of the front,
and difficult to resolve into its compo-
nent parts. Under high powers it can
be seen to consist of at least two thick
lobes, which in the living Mite have a
reciprocal forward and back movement.
The two pairs of legs are placed close
together, at or very near the anterior
extremity, and project forwards. They
are four-jointed, and terminate in a
curved spine, with opposing bristles.
(Fig. 45, c.) The intermediate joints
bear one or two very long, curved bris-
tles. Several fine bristle-hairs, arising
from the under surface of the body,
curve upwards at the sides, and two
very long bristles at the caudal extrem-
ity, curving downwards, are trailed
after the Mite as it crawls.
The length of the adult Mite is 0.14 rnra (y^ inch). The young do not
differ essentially in structure from the adults, but are thick and. short,
almost cordiform, and the legs are very short.

The eggs, which are deposited singly or in little clusters upon the
surface of the leaves, are spherical, transparent, with a yellow tinge.
Their diameter is more than half that of the mother at its widest part,
aud they probably increase in size by the absorption of moisture after
they are laid ; otherwise the body of the Mite could not contain more
than three or four fully- developed ova. The embryo is curved within
the egg, its head slightly overlapping the tail. (Fig. 45, d.)

Life-history. In hot weather the eggs hatch in four or five days, but
in winter their development is more or less retarded by cold, although
it is not entirely arrested even by frost, and the duration of the egg
period seldom exceeds two weeks.

The young are bright, translucent yellow in color. Within a week
or ten days they undergo a metamorphosis or molt, during which the
animal remains dormant for about forty-eight hours. With its legs,
which are placed close together, and stretched out in line with the,
body, and with its two-lobed anal proleg, it clings closely to the surface
of the leaf. The form becomes more elongate and spindle-shaped. The
body of the transforming Mite separates from the old skin, which be-

Fio. 45. The Orange Rust-mite: a, dorsal
view ; ft, lateral view enlarged, the dot
in circle indicating natural size; c, leg;
d, egg, with embryo just about to hatch-
more enlarged. ( After Hubbard.)

RUST OF THE ORANGE. 109

coines pellucid and empty at the extremities, and finally splits longi-
tudinally, releasing the renovated Mite. The rejected pellicle is left
tirmly adhering to the surface on which it rests, but is in time removed
by the action of the weather, and much sooner from the leaves than
from the rind of fruit.

The adult Mite is slightly darker than the young in color, and be-
comes more opaque as it grows older. No sexual differences have been
distinguished, nor has the act of coupling been observed.

Owing to the difficulty of confining the Mites without interfering with
the conditions necessary to their existence, it has not been possible to
determine the duration of their lives. It is, however, safe to conclude
that they live several weeks after reaching the adult stage. The num-
ber of eggs deposited is also uncertain, but it is probably not abnormal,
and the enormous populousness of their colonies must be attributed to
rapid development, and comparative immunity from enemies and para-
sites, rather than to excessive fecundity.

Food. This evidently consists of the essential oil which abounds in
all succulent parts of the Orange and its congeners, and which the Mites
obtain by penetrating with their sucking beaks the cells that lie im-
mediately beneath the epidermis. That they do not feed upon the chlo-
rophyl is shown by the color of their intestinal contents, which has no
tinge of green, but a clear yellow, unmistakably indicating the source
from which it came.

Wandering Habits.- While engaged in feeding, the mites remain qui-
escent for a length of time varying from a few minutes to half an hour.
They then move on a short distance and again become motionless. If
disturbed they have a habit of erecting themselves upon the leaf, cling-
ing to its surface only by the anal proleg.

When dissatisfied with their surroundings, or when food becomes
scarce, they wander restlessly about, and undoubtedly travel to consid-
erable distances. Their rate of progress on a smooth surface is quite
rapid, and amounts to 10 or 12 feet per hour. It is therefore not sur-
prising to find them changing- their position frequently 5 disappearing
suddenly from one portion of a tree and appearing as suddenly in great
numbers upon another and distant part of the same tree.

It is not to be understood that the Mites show any concert of action
in moving their colonies, or that they are in any other sense gregarious
than that they are usually found very thickly scattered over those parts
of an infested plant which offer favorable conditions for their support.
Thus the new growth of many orange trees becomes occupied or infested
by them as rapidly as the leaves fully mature, and the number upon a
single leaf may be estimated by many thousands.

Numerical Abundance. The following examination, made in January,
will give an idea of the extent of the brood during the coldest part of
the Florida winter.

From a large number of leaves of late autumn growth one was e-

110 INSECTS AFFECTING THE ORANGE.

lected which showed an even distribution of Mites upon its surface.
An area of one square inch was accurately marked out with a needle,
and subdivided into sixteen equal squares. The number of Mites and
their eggs upon four of the small squares, taken at random, was counted,
and found to aggregate 1,142.* This gives for the square inch under
observation 4,568 mites. The leaf was then cut into squares and tri-
angles, and was found to cover 15 square inches upon a sheet of paper.

On the supposition that the experimental square inch gives a fair
average, the number of Mites upon the upper surface of this leaf was
68,520. Certain portions, not exceeding one-quarter of the whole, were,
however, more or less thinly populated. Deducting, therefore, 27 per
cent, from the above, we have 50,020 Mites, the approximate popula-
tion of the upper surface. The under side of the leaf was less thickly
infested, but the number of Mites maybe estimated as one-half that of
the upper face, or 25,000. Thus the number of Mites and their eggs,
upon a single leaf, is found to reach even in midwinter the enormous
sum of .75,000.

In early summer, when the breeding is active, these estimates will be
greatly exceeded. At times ail orange tree may be so completely in-
fested with the Mites, that of its thousands of leaves very few can be
found free from their presence. If, then, we attempt to calculate the
number that may exist contemporaneously upon a bearing tree, we find
it represented not by millions but by billions, and the figures obtained
convey no definite impressions to the mind.

Preference shown for half Shade. An examination made on a bright,
sunny day shows that, while the Mites cannot long endure the direct
light and heat of the sun, they also avoid dark shade. At midday they
are more abundant upon the under side of exposed leaves, and although
they at all times show a marked preference for light, they desert those
parts of leaf or fruit upon which it falls brightest. On a leaf partially
exposed to the sun the Mites congregate near one edge in the morning,
and in the afternoon cross to the opposite side of the same surface, fol-
lowing the shifting shade, which, by reason of its curvature, the edges
of the leaf throw upon one side or the other.t

Rings of Rust on Fruit. On the fruit, this preference of the Mites for
half shade causes a phenomenon which will be recognized as verycom-

*The number of eggs exceeded that of the Mites, a phenomenon not often observed,
and which may be attributed to unusually cold and unfavorable weather at the time
of the examination and for several weeks previous.

tThe conditions most favorable to their increase are afforded by luxuriant foliage
when thoroughly penetrated by light, but dense shade effectually bars their progress.
Vigorous young trees on which the foliage is illuminated from beneath by radiation
from the surrounding soil are especially subject to attack, the succulence of their
leaves serving only to increase enormously the numbers of the invading host. The
same luxuriance in older trees, whose branches interlock in the grove and shade the
ground, acts unfavorably upon the productiveness of the Mites and checks their in-
crease. These are facts of importance, as will be seen when we come to consider the
means of combating the pest.

RUST OF THE ORANGE. Ill

inon on rusty oranges. This is the occurrence of rust in a well-defined
ring, obliquely encircling the orange as the ecliptic does the earth. The
rust ring is seen most plainly on fruit from the upper portion and south
side of a tree when it stands with others in a grove, and will be found
to mark the band of half shade between the portion of the orange most
directly exposed to the sun's rays and that in densest shadow. The
surface covered by this penumbra band is precisely that upon which
the mites gather most thickly in the middle of the day. Here their
attack upon the rind will be most severe and its after effects most
noticeable. (Plate VIII.)

There is also observable in rusted fruit a marked difference in the
amount of discoloration upon the opposite sides. Even where no
plainly marked ring is visible, the side of the fruit which upon the
tree was turned towards the sun frequently presents a bright spot,
and the opposite side an area of lighter bronze, with less sharply de-
nned boundaries.

These facts, taken in connection with the observed habits of the Mites,
may be regarded as the strongest evidence showing a connection be-
tween rust and their attacks upon the fruit.

Influence of Weather. It has been already observed that the hatching
of the eggs, although retarded, does not cease in cold weather, and that
the breeding continues throughout the year. Frost, which is sometimes
severe enough to kill the adult Mites, does no injury to the eggs, and
the severity of a winter has little, if any, effect upon their prevalence
during the following summer. In droughts, however, there is some
evidence that many of the eggs dry up and are exterminated. The
extremely dry seasons of 1881 and 1882 were followed in the winter of
1882-'83 by the brightest crop of fruit that had been known for several
years.

Agencies which assist in the Distribution of Mites. The activity of the
Mites and their readiness to climb upon anything they meet in their
path renders it evident that any living creature which passes from one
tree to another is competent to transport the Mites with it. The tail-
feathers of birds must sweep thousands from the surfaces of the leaves,
and spread them from tree to tree or from grove to grove.

So readily do they relinquish their hold when brought into contact
with a moving body, that the point of a needle swept across the surface
of an infested leaf will usually be found to have several Mites adhering
to it.

The same agencies which assist in the spread of Scale-insects un-
doubtedly serve to scatter the Mites. Not only do they climb readily
along the webs of spiders, but they may frequently be seen upon the
bodies of the spiders themselves, which do not seem to be at all dis-
turbed by the restless movements of their little attendants.

The wandering habit of spiders is well known. Their method of
bridging great distances by casting out hundreds of feet of silken line,

112 INSECTS AFFECTING THE ORANGE.

to be wafted by the winds and caught in distant trees, has often been
noted. There is little doubt that of all other modes of dissemination,
both of Scale-insect and Eust-mite, that of transportation by spiders is
the most impprtaut, the most constant, and regular. The spiders bear
with them upon their hairy bodies the young Bark-lice and the adult
Mites, conveying them in their own migrations to distant points, and
colonizing them under their protecting web whenever they chance to
select the leaves of a citrus plant as their resting place.

And here is found the solution of that puzzling influence of the wind
so often remarked in the case of Scale-insects, and which has led many
to believe that they are disseminated directly by this agency, and there-
fore spread most rapidly in the direction of the prevailing currents.

Spiders of the web-making kinds are necessarily dependent upon the
wind in making long voyages. The warm southeasterly winds of spring
excite in them the migratory instinct, and at a time when the orange
trees are swarming with the quickened life of Scale and Mite from a
thousand projecting points of branch or leaf, the spiders are sending
out their lines of rapid transit, and are bearing with them "on the wings
of the wind" the seeds of mischief to the orange- grower.

RAVAGES OF THE EUST-MITE.

The Mite known only upon Plants of the Citrus Family. The Eust-mite
attacks indiscriminately the various species of Citrus in common culti-
vation, but has not been observed to feed upon plants of any other ge-
nus. It is found upon the Lime, Lemon, Citron, Shaddock, Bigarde, and
Tangerine, and none of the varieties of the Orange are known to be in
any degree exempt.

Upon the leaves and fruit of all these species of Citrus the effects of
its attack are essentially the same, although the rust is most noticeable
on the Sweet and Bitter Orange.

Effect of Attacks upon the Foliage. Like certain internal animal para-
sites which feed only upon the fat of their hosts, and do not touch its
vital organs, the Mite does not destroy the vital functions of the leaf.
The chlorophyl is untouched, and the plant is robbed of a portion only
of its essential oil. The leaves never drop, no matter how severely at-
tacked, but there is loss of vitality, and the growth of the plant is
checked. This is especially noticed in young trees, which are frequently
overrun by the pest in early summer, and during the remainder of the
year make little progress.

The foliage of affected trees wears a dry, dusty appearance, and loses
color. The leaves are without gloss, and become slightly warped, as in
droughts.

Rusted Fruit. If severely attacked by rust before it has completed
its growth, the orange does not attain its full size. Yery rusty fruit is
always small. Its quality is, however, improved rather than deterio-
rated. The toughened rind preserves it from inj ury and decay , prevents

RUST OF THE ORANGE REMEDIES. 113

evaporation from within, and carries the ripening process to a higher
point.

Busty oranges can be shipped without loss to great distances. They
keep longer, both on and off the tree, and when they reach the north-
ern markets are superior to the bright fruit in flavor. Consumers not
being aware of this fact, however, prefer the latter, and the reduced
price of the bronzed fruit more than offsets to the producer its superior
keeping and shipping qualities

Introduction and Spread of the Mite. Of the origin of the Rust-mite,
whether native or introduced, we as yet know nothing. As far as has
been observed, it is not found upon the wild orange trees in Florida,
although it attacks them indiscriminately with others of the citrus
family when transplanted to open ground, and it may exist upon them
in small numbers in their native swamps.

It is said that a few years ago rust was entirely unknown; but the
orange industry in this State is of such recent growth that attention has
not long been directed to this matter. When but little fruit was pro-
duced, occasional discoloration s of the rind would naturally pass un-
noticed.

Periods of Increase. As is the case with most invasions of insects, the
pest, although increasing rapidly for a time, is likely to reach a maxi-
mum in a few years and afterward decline. This has been the expe-
rience in former years with Scale-insect, and is attributable to compar-
ative immunity from enemies and parasites at the outset. As the
number of their enemies increases, that of the destroyers diminishes,
until in time a state of equilibrium is reached, which is disturbed only
temporarily by the changing conditions of climate, or other and obscure
causes.

It seems probable that the Bust-mite has reached or is already past
the period of maximum destructiveness, and that succeeding years will
witness its subsidence. The Mite has at present few enemies, and of
these the most important are unfortunately not abundant. They give
promise, however, of greater efficiency in future, as they belong to
families many of whose members are as prolific as the Bust-mite itself.

Geographical Distribution. Bust appears to be known upon the Orange
only in Florida. Within the limits of the State, however, its presence
is universal. Xo section, whatever claims may be made to the contrary,
is exempt.

REMEDIES.

Influence of Soil and Methods of Cultivation. The effect upon the
prevalence of rust of various systems of cultivation and of applications
to the soil, for the purpose of changing its nature or supplying assumed
deficiencies in its composition, has been the subject of endless discus-
sion, and of experiments affording negative or conflicting results, which
cannot profitably be reviewed here.
6521 o

114 INSECTS AFFECTING THE ORANGE.

Suffice it to say, no method of combating rust by the indirect action
through the plant -of chemical substances applied to the soil has been
proven effective. By forcing with fertilizers or high cultivation, no im-
provement is effected in the color of the fruit. This depends, not upon
the condition of the tree, but rather upon the number of the Mites, which
is, in fact, increased by an abundant supply of new growth and a con-
stant succession of fresh and vigorous leaves.

It seems, however, to be an established fact that the fruit is less liable
to rust upon low than upon high lands. Groves planted upon moist,
rich hammock or clay soils produce, as a rule, brighter fruit than those
upon high, sandy pine lands.

This result is commonly attributed to the abundance of moisture in
low ground ; but it may be more directly due to the denser shade af-
forded by a more vigorous foliage and reduced radiation from a darker
soil. In the native wild groves, which are always densely shaded by
forest, neither rust nor Mites are found, and the same immunity is en
joyed by cultivated trees planted in similar situations.

Preventive Measures. Any means which will enable us to produce on
the light, sandy soil of the uplands those conditions of shade which
appear natural and grateful to the Orange, and which we have seen are
unfavorable to the increase of the Eust-mite, should, if the foregoing
account is correct, give immunity from Bust. In point of fact, there is
strong evidence to warrant the belief that with intelligent management
almost any grove may in a few years be made to produce bright fruit,
by reducing the radiation and darkening the soil, (1) with mulch, or,
still better, with a liberal coating of muck, (2) by encouraging the
branches to grow low and spreading, and especially avoiding the vicious
practice of trimming young trees too -high.

Other, ways of shading the ground and promoting vigorous leafy
growth will occur to every orange-grower.

Those who advocate forest culture for the Orange may justly claim for
it the advantage of affording comparative immunity from rust ; but a
discussion of the merits and demerits of this and other systems of cul-
tivation must be left to the horticulturist.

It may, however, be proper to suggest that where isolation is prac-
ticable much can be accomplished toward the exclusion of such pests as
the Eust-mite and the Scale-insect by properly arranged natural screens.
Narrow belts of original forest, with its undergrowth, may be left, at
least on the southeast side of the grove or on high land ; the tall pines
may be supplemented by hedge-rows of the native Holly, the Jujube, or
other evergreen shrubs, which thrive upon uplands in the South.

Such wind breaks not only protect the bearing trees and fruit from
the whipping action of southeasterly gales, but afford the best and only
hindrance to the spread of Mites and Bark-lice, prohibiting their direct
importation upon spiders and other insects, through whose aid they are
disseminated.

RUST OF THE ORANGE REMEDIES. 115

Application of Insecticides. As the Bust-mite lives exposed upon tbe
surface of the plant, neither inhabiting a gall nor making any protec-
tive covering for itself or young, it is not a difficult matter to reach it
with insecticides thoroughly applied. The adult Mites are very deli-
cate, and readily succumb to applications of moderate strength, but the
eggs possess much greater vitality, and require for their destruction
solutions of great penetrating power. The immature Mites, while un-
dergoing their transformations, are also difficult to kill, and appear to
be specially protected by the old skin, within which their changes take
place.

These three stages, the adult, the molting young, and the egg, exist
simultaneously at all seasons of the year. The development of the Mite
has been shown to be very rapid. The eggs hatch in four or five days,
the time extending rarely, in winter, to two weeks. Molting takes
place in seven to ten days, and lasts two days. Eggs are probably laid
in a few days after the molt.

In applying remedies, it follows from these data that if the Mites
alone are killed, and their eggs left alive, young Mites reappear imme-
diately, adults are found in ten or twelve days, and fresh eggs are de-
posited within two weeks. If the molting Mites are also left alive,
very little good can be accomplished, as a fresh crop of adult Mites and
eggs will be produced in two or three days.

In combating Bust- mite the difficulty in killing the eggs compels us
to adopt one of two alternatives. We must either use powerful insecti-
cides, in solutions even stronger than are required for Scale-insects, or
else make several applications, at short intervals, of washes competent
to kill the Mites only. In this way the trees may be freed of Mites, by
killing the young as they hatch, and not allowing any to reach the
adult stage and produce a fresh crop of eggs.

The following substances have been tried and their effects noted upon
the Mites and their eggs :

Whale oil soap. The action of this substance upon the Mites is pecul-
iar. A trace of it in solution causes them to relinquish at once their
.hold upon the leaf. All other liquids that have been tried, even if they
kill the Mites, increase the tenacity with which they cling to its sur-
face. All the free * mites are at once removed from leaves dipped in a
solution of 1 pound to 100 gallons of water. Stronger solutions are,
however, required to kill them or their eggs and the dormant (molting)
young.

The following experiments made in the laboratory upon infested
leaves, show the action of solutions of various strength. In order to
retain the Mites upon the leaves, the liquids were beaten into foam,
which was spread evenly upon both surfaces, care being taken to wet
every part of the leaf.

(1.) Solution: 1 pound to 100 gallons. Free Mites washed from the

* This term includes adults aud young not dormant, or undergoing transformation.

116 INSECTS AFFECTING THE ORANGE,

leaf with spray and collected upon blotting paper, began to crawl away
as soon as dry, and showed no injury the following day. Eggs and
molting young remained upon the leaf and were not aflected.

(2.) Solution : 1 pound to 50 gallons. Applied in foam. Free Mites
in great part killed. Molting young and eggs not killed.

(3.) Solution : 1 pound to 32 gallons. Adult Mites all killed. Molt-
ing young in part killed. Eggs not killed.

(4.) Solution : 1 pound to 1C gallons. Adult Mites all killed and shriv-
eled, iii two or three hours. Molting Mites, about 80 per cent, killed.
Eggs, a large percentage killed.

(5.) Solution: 1 pound to 5 gallons. Adult Mites all killed. Molting
Mites apparently all dead in two days. Eggs evidently affected, not
all killed, but many collapsed by the second day.

(6.) Solution : 1 pound to 1 gallon. (This solution is nearly solid when
cold.) Mites all killed. On the second day all the eggs appeared col-
lapsed and dead.

The whale-oil soap usually supplied by dealers is inferior to that used
in the above experiments. As an effective remedy for Bust-mite a solu-
tion of 1 pound to 5 gallons of water may be recommended: It should
be applied in early spring, before the new growth begins. Two or three
applications will be required, which should be made at intervals of one
week. The cost of the wash, at the ordinary retail price for the soap
(10 cents per pound), is 2 cents per gallon.

Very weak solutions may be made effective if used at frequent short
intervals, but the labor and expense of making the numerous applica-
tions required will be very great.

A solution of 1 pound to 5 gallons will not injure the trees, but may
cause the blossoms to drop. No directions can be given as to the
greatest strength of solution that can be used upon blooming trees with-
out loss of fruit, as this depends largely upon the condition of the tree.
Solutions of 1 pound to 10 gallons can probably be safely used, in most
cases, and will be effective if several applications are made at intervals
of a few days.

Sulphur. The Mites, both adult and young, are very sensitive to sul-
phur, and are readily killed by it in any form in which it can be made
to act upon them. The eggs, however, are not readily affected, and
even survive an exposure to the fumes, which will kill the plant. Fu-
migation cannot be resorted to without extreme danger to the life and
heal ih of the tree. The finely powdered (sublimed) flowers of sulphur
does not affect the plant. It adheres more readily than might be sup-
posed to the smooth surface^ of the leaves, and, especially when they
are roughened by the Mites, it is not entirely tvashed away by heavy
rains. Although it does not kill the eggs, it effectually exterminates
the i'ree Mites, which are sure to come in contact with it in their wan-
derings, and if it can be made to remain upon the plant, the young as
they hatch are also destroyed.

RUST OF THE ORANGE REMEDIES. 117

Flowers of sulphur must therefore be regarded as one of the cheapest
and most effective remedies for Rust-mite, and it may be used to great
advantage in connection with whale oil soap or other insecticides. It
may be suspended in water and applied in spray. With proper appli
ances the dry powder may be sifted or blown upon the foliage when
wet with dew or rain. A little wheat flour added to the powder would
increase its adhesiveness.

The pharmaceutical preparation known as milk of sulphur (precipi-
tated), although a much more finely divided powder, proves milder in
its effect upon the Mites, and its cost will prevent its extensive use.

EXPERIMENTS.

(1.) A small seedling Orange infested with Rust-mite was covered
with a nail-keg and fumigated for ten minutes by burning one ounce of
sulphur under the keg. All the Mites were destroyed, but the eggs
remained alive ten days, and finally dried up with the leaves of the
plant, which was entirely killed.

(2.) Flowers of sulphur dusted over infested leaves through a loosely
woven cloth. Free Mites all dead in twenty-four hours. Molting
young all dead in three or four days. Eggs not killed in nine days,
but young Mites killed soon after hatching.

(3.) Experiment No. 2 repeated in the open air, and leaves allowed
to remain on the tree. Heavy rains on the second day did not remove
all the sulphur. Results the same as in No. 2. Mites all killed. Eggs
not killed.

(4.) Milk of sulphur dusted upon the leaves through muslin. Effect
less powerful than in Nos. 2 and 3, but Mites in the end all killed.
Eggs not killed.

(5.) Milk of sulphur; two ounces, by measure, of the powder suspended
in one gallon " of water. Leaves dipped in the liquid, when dry were
lightly coated with grains of sulphur. Adult Mites dead on the second
day. Some molting Mites and numerous eggs alive on the second day.

(6.) Leaf with Mites confined in a tight box with another leaf on which
sulphur had been dusted. Ko effect after twenty-four hours. On the
third day, however, only one adult Mite appeared to be alive. In six
days all the Mites were plainly killed. Eggs not killed.

This experiment was repeated with sulphur scattered in the bottom
of the box, and precautions taken to prevent its contact with the Mites.
Results precisely the same as before.

Note. By confinement in very tight metal boxes, Mites may be kept
alive between one and two weeks, or until the leaves dry up or mold.
The destruction of the Mites in this experiment was therefore due en-
tirely to the slow volatilization of the sulphur.

(7.) Sulphuretted hydrogen. Leaves dipped in water strongly im-
pregnated with the gas. In twenty-four hours all adult Mites were
dead or dying. In thirty-six hours all free Mites were dead. In the

1 1 8 INSECTS AFFECTING THE ORANGE.

same time 40 to 50 per cent, of the molting Mites died. On the third
day many molting Mites remained alive. Eggs not killed.

The above solution of sulphuretted hydrogen (sulphur water) was pre-
pared by passing through two gallons of water, the gas given off by
three ounces of sulphuret of iron, treated with dilute sulphuric acid.*

The remarkable results obtained with sulphur in these experiments,
and especially the effect of the gas in solution upon the adult Mites, sug-
gests the use of water from the sulphur springs which abound in various
parts of Florida. Although it cannot be supposed that these natural
waters contain a sufficiently high percentage of the mineral to render
them powerful insecticides, their value cannot be determined without
trial. Persistent applications may suffice to ultimately exterminate the
Bust- mite or cause its disappearance from the trees. In view of its pos-
sible importance as a remedy, those who have access to natural springs
or who now use flowing wells of sulphur water for the purpose of irriga-
tion, should thoroughly test it by making repeated applications at short
intervals.

Kerosene. Emulsions containing 66 per cent, of kerosene oil, and
diluted with water ten times, as in applications for Scale-insects, do not
kill the eggs of the Rust-mite. The same emulsions, diluted one to
twenty, kill nearly all the mites, but do not kill the eggs. With dila-
tions of one to forty, many adults escape destruction. En all the ex
periments made with kerosene upon Scale-insects the trees were not
cleared of Rust-mites. They usually reappeared in numbers, within
five or six days, owing to the hatching of the eggs. As a remedy for
Rust-mite, therefore, kerosene is not as effective as either whale-oil soap
or sulphur.

In making applications for Scale-insect it is advisable to render the
wash effective against Rust-mite also, and this can be in a measure ac-
complished by adding sulphur.

Experience has shown whale-oil soap to be superior to condensed milk
in forming emulsions, and much cheaper. Emulsions made with soap
do not thicken or ferment, as when milk is used.

The formula given in the preceding chapter (see ante, page 94) gives
the best results.

The emulsion should be diluted with water ten times, or in the propor-
tions 1 to 9, and applied in fine spray.

In cases where an application is needed for both Scale-insect and Rust-
mite the above wash, with two or three ounces of sulphur added to each
gallon of the mixture, forms the most effective combination that can at
present be devised. It is best applied in early spring, but should never
be used in midwinter or when there is danger from frost.

Carbolic Acid. Several experiments with crude Carbolic acid, saponi-
fied with lard oil and lye, or dissolved in strongly alkaline solutions,

*A solution of sulphuretted hydrogen may be very simply prepared by boiling sul-
phur in lime-water. (See Sulphurated Lime, ante, p. 98.)

RUST OF THE ORANGE REMEDIES. . 119

gave about the same results as 66 per cent, kerosene emulsions. The
Mites were readily killed, but their eggs for the most part survived.

Carbolic acid is highly poisonous to plants, and must be used in
small doses. Three or four fluid ounces of crude acid dissolved in one
gallon of strong soap solution make as strong a wash as it is safe to
apply. Although even cheaper than kerosene, it is not a more effective
remedy, and, owing to the greater danger attending its use, it cannot
be recommended in preference to the latter.

A strong carbolic or creosote soap can be purchased at a reasonable
price, and will prove very useful to orange-growers, as it is not only a
powerful insecticide, but also a remedy for " die-back," and possibly also
for " foot-rot," or any disease of the plant of fungoid origin.

Potash. Very strong lye is required to kill the Mites, and their eggs
are not destroyed except by solutions sufficiently caustic to burn the
leaves and bark.

The different commercial brands of concentrated lye and caustic pot-
ash vary greatly in purity and strength. The potash used in the fol-
lowing experiments was a superior article, put up in 1-pound balls,
coated with rosin :

(1.) Solution : 4 pounds (48 ounces) potash to 1 gallon water. Leaves
dipped in this solution were badly burned, and, together with them, the
Mites and eggs were entirely destroyed.

(2.) Solution : 2 pounds (24 ounces) potash to 1 gallon water. Leaves
charred. Mites and eggs destroyed.

(3.) Solution : 1 pound (12 ounces) potash to 1 gallon water. Mites
nearly all killed. A single living adult seen. Molting Mites and eggs
not all killed. Leaves devitalized, but not charred.

(4.) Solution: 8 ounces potash to 1 gallon. Adult Mites nearly all
killed. One half-grown Mite seen crawling about among crystals of
potash. Molting Mites and eggs not killed.

(5.) Solution : 6 ounces potash to 1 gallon. Adult Mites killed. Sev-
eral recently molted Mites seen crawling on second day. Molting Mites
not killed. Eggs uninjured.

(6.) Solution : 4 ounces potash to 1 gallon. Many adult Mites killed ;
some alive. Numerous young Mites alive on second day. Molting
mites and eggs uninjured.

(7.) Solution : 3 ounces potash to 1 gallon. Same results as No. 6.

Solutions of 1 pound to the gallon have been used upon orange trees,
and although all the leaves and portions of the bark were destroyed,
they recovered rapidly from the effects of the application. Such heroic
treatment for insect pests is, however, unnecessary and unadvisable.

Pyrethrum. Applied in fine powder, this insecticide visibly affected
the adult Mites and caused them to erect themselves frequently upon
their anal prolegs. The free Mites left the leaves in a few hours, but it
is doubtful if many of them were killed. The molting Mites and eggs
remained uninjured. Continued exposure to contact with the strong

120 INSECTS AFFECTING THE ORANGE.

powder disables and finally kills the Mites, but they are not as violently
affected as many of the higher insects, and recover from slight applica-
tions.

Lime. Not the slightest effect was obtained with applications of lime,
as the following experiments will show :

(1.) Freshly air-slaked stone-lime dusted thickly over infested leaves.
Mites continued feeding and propagating under the coating of lime-
powder, and did not abandon the leaves during eight days in which
they were kept under observation.

(2.) Slaked lime, 1 pint measure suspended in 1 quart water, and
allowed to partly settle. Leaves dipped in the turbid liquid. No in-
jurious eifect upon the Mites or their eggs. Adult Mites were rendered
restless by fine particles of lime adhering to them, and all left the leaves
within two days, but were not killed.

(3.) Same solution as No. 2, clarified by standing several days. Leaves
dipped in the clear lime-water. No effect whatever during eight days'
observation.

Ashes. Finely-sifted hard-wood ashes dusted upon the leaves pro-
duced no effect whatever upon the Mites, and did not seem to discom-
mode them in the least.

The above experiments were made in December, during continued
cold weather, which retarded the development of the Mites and inter-
fered somewhat with observations as to hatching of the eggs under
treatment.

CAUTION.

There is danger in applying penetrating liquids to orange trees dur
ing the winter. First, because any. shock to a dormant tree is apt to
start the buds and induce new growth at a time when there is danger
of frost. Secondly, a succession of cold nights and cloudy days, such
as frequently occurs in severe winters, following immediately after an
application, will increase to an injurious extent its effect upon the plant,
by preventing evaporation of the liquids used, and allowing them to
remain too long in contact with the leaves and bark. Serious loss
is liable to follow a disregard of this warning.

CHAPTER IX.

INSECTS AFFECTING THE BOOT. CROWN, TRUNK, AND

BEANCHES.

INSECTS AFFECTING THE ROOT AND CROWN.

TAP-BOOT BORERS.

A grub or "Sawyer" is sometimes found boring into the tap-root of
the Orange. No specimens have been examined, but from the descrip-
tions given by competent observers, it can only be -the larva of some
lougicorn beetle of moderately large size.

Mr. William H. Ashmead, in the Florida Agriculturist, February 1G T
1881, mentions and gives a figure of a larva, which is possibly that of
Ohion cinctus (Drury), found boring in the tap-root of a Bitter-sweet
orange tree. It was only discovered upon taking up the tree in order
to transplant it, and may therefore be presumed to have done little
damage.

A larva which appeals to belong to this species has also been sent in
Orange roots to the Department of Agriculture from Florida.

Other borers of this numerous and destructive family are likely to
occur in the trunk and branches, as well as in the roots below the sur-
face of the ground. It is difficult, without a previous knowledge of
their habits, to suggest a remedy for these subterranean borers,- but
should they at any time become troublesome they may be removed by
uncovering the roots and destroying the borer in its gallery with a
pointed wire.

WHITE ANTS OR "WOOD-LICE."

Habits. Termites or white ants are small, soft bodied insects resem.
bling ants and living in numerous colonies. They shun the light and
travel to great distances through galleries constructed beneath the sur-
face of the ground. They feed for the most part upon dead wood and
decaying vegetable matter, but sometimes attack living plants, espec-
ially those parts which lie below the surface of the ground. A certain
amount of moisture is necessary to their existence, and very dry wood

is usually free from their attacks.

121

122 INSECTS AFFECTING THE ORANGE.

TEBMES FLAVIPES Kollar.
[Fig. 46.]

This species is common from Maine to Texas, and is especially abun-
dant in the South, where it invariably attacks wood buried in or lying
upon the ground.

Each colony consists of numerous workers, among which are several
distinct forms, and a few males and females. The females never leave
the home nest, but, like the queen of the honey bee, devote themselves
to producing eggs, which are hatched and cared for by the workers.

The central nests, in which are hived the queens and eggs, are rarely
discovered, but generally exist in deeply -buried roots or in the hearts of
stumps and logs of the largest size.

The workers extend their operations to immense distances, and, in
search of food, excavate slender subterranean galleries, hundreds and
even thousands of feet in length. It is, therefore, practically impossi-

FIG. 46. Termes flavipes : a, larva; &, winged male ; c, worker; d, soldier; e, large female ; /, nymphe

(From the Am. Ent., Vol. II.)

ble to trace these galleries to their source, and by finding and destroy-
ing the brood nest to break up a colony.

Twice each year, in spring and fall, multitudes of winged males and
females are produced, which swarm forth during the cooler parts of the
day or after rains, and fill the air with their fluttering forms. Most of
these fall a prey to birds, reptiles, insects, and other predatory animals,
but many escape, and, after coupling, lose their wings, and in pairs seek
suitable places in which to found new colonies.

Injuries to Orange. Owing to their subterranean habits and avoid-
ance of light, Termites are very insidious foes. Their vast numbers en-
able them to very quickly accomplish the work of destruction, so that
often the finding a tree in dying condition is the first intimation which
the orange-grower receives of their presence. Upon removing the earth

WHITE ANTS INJURING THE OEANGE. 123

about the collar and root, the bark is found eaten away and the tree
perhaps completely girdled.

The growing wood of plants is not the natural food of Termites, and
is only attacked by them under exceptional circumstances. Thus in
orange groves they may be impelled to escape from the heated soil by
excavating galleries iuto the root bark of the trees, the moisture and
coolness of which are grateful to them. It is to be remarked that they
at first confine their galleries to the soft outer layers, and only subse-
quently penetrate and feed upon the heart wood as the tree dies in con-
sequence of their injuries.

Recently transplanted trees whose roots have suffered mutilation,
young groves set out on new land, and frees planted too deep or which
have too much earth heaped about the crown, are exposed to danger
from Termites, but old and well-established trees are little liable to their
attacks, unless from disease or other injuries dead and unhealthy wood
is present to invite their entrance.

Their Work easily distinguished from that of other Insects. The galleries
of Termites are seldom circular, but most frequently present a series of
broad and shallow chambers, often overlying one another and connected
by short passages. The walls of the galleries are always lined with a
a layer of comminuted wood, which gives them a mottled appearance,
very characteristic, and distinct from those of ants or other boring in-
sects, and renders them easily recognizable in the absence of the Ter
mites themselves. These latter are usually present, however, as they
seldom leave a piece of wood in which they have effected a lodgment
until every portion of its solid interior has been eaten away and re-
duced to powder, unless, indeed, the material becomes too dry for their
further existence. Their entrance galleries" are always beneath the sur-
face of the ground or under cover of other material, for they never ex-
pose themselves to light.

In living orange trees, as has been said, their first attack is made at
the base of the trunk, just beneath the surface of the ground. Not
unfrequently this is betrayed, before extensive damage has been done,
by a slight exudation of sap from the wounded bark, which moistens
and cakes the ground at the surface.

SOURCES OF DANGER PRECAUTIONS. -Stumps and buried Roots of
forest Trees. So abundant are Termites in the South that no buried
fragments of wood long escape their visits. The hardest live oak, and
the most resinous pine yield in time to these scavengers. The decaying
stumps and roots of forest trees, therefore, form an element of danger
to orange groves planted on newly cleared land, that cannot well be
avoided 5 but the risk may be reduced to a minimum by removing the
stumps, particularly those of oak and other hard woods, which stand
nearer than five or six feet to any orange trees, and by care in removing
chips and severed roots from contact with or too close proximity to the
young trees.

124 INSECTS AFFECTING THE ORANGE.

On mulching and the use of decaying Wood as a Fertilizer in the Orange
Grove. A mulch of muck, leaves, gras, pine-straw, succulent vegetable
matter, and even well-rotted and disintegrated wood from old brush
piles, does not in itself attract Termites, and its use is not attended with
any danger, provided it is not piled against the trunk of the tree, the
crown of which should in all cases be left exposed to the air. It is well
to maintain an open space immediately about the tree, and the mulch-
ing should not be allowed to approach nearer than six or eight inches
to the trunk on any side.

The practice of bringing brush, logs, and chips of wood into the
orange grove, and either burying or allowing them to rot upon the
ground, is hazardous, and will surely attract and colonize Termites,
which, under any circumstances, must be considered dangerous and
undesirable neighbors for orange trees. If disintegrated wood is used
at all as a fertilizer, all solid fragments should be carefully excluded.

Deep planting. This is a most frequent cause of trouble, and should
be obviated by raising the trees too deeply set. In cultivating, also, the
tendency of the earth to heap about the trees should be corrected by
turning the furrows toward the centers between the rows, or by drawing
back the earth with the hoe.

REMEDIES. Exposure to Light and Air. As Termites require for their
existence darkness and moisture, on discovering their attacks the first
step should be to remove the earth about the affected parts, and uncover
the crown and root to a depth of several inches, at the same time re-
moving with the knife, as far as possible, all the dead wood and bark,
and exposing their galleries to the drying action of the air. In cases
of slight attack this will generally suffice to drive them away.

Hot Water. If the galleries extend too deeply into the wood to be
readily uncovered with the knife, or if a numerous colony is found to
have established itself at a considerable depth beneath the surface, a
liberal application of hot water will usually reach and destroy them
without injury to the tree.

Pyrethrum. Termites are exceedingly sensitive to the action of this
insecticide, and are invariably killed by contact with the powder. It
may be used to great advantage whenever it can be brought into con-
tact with the insects. Pyrethrum loses its properties rapidly on expos-
ure to the air, and although it retains its power for a longer time when
covered with earth, it remains effective for a few days only, and cannot
be relied upon to permanently protect the plant from the attack of this
or other insects.

Penetrating Liquids. Kerosene in emulsion is very effective, and may
be safely used in moderate quantities ; but all penetrating oils should
be applied with great caution to the roots of plants. .

Bisulphide of carbon is most useful for destroying colonies remote
from the trees, but is far too dangerous a substance to use upon or near
the roots. The central nest, when its position is known, may be broken

THE COMMON ORANGE SAWYER. 125

up and the queens destroyed by pouring a few ounces of the liquid into
the galleries, or into a hole made by a stake driven as close to the nest
as possible. The hole should then be closed with earth to insure perco-
lation of the vapor through the soil.

Ashes, Lime, and Sulphur are without effect in protecting orange trees
from the attacks of Termites. In the cases where these substances have
seemed effective in driving them away the result has been accomplished
simply by the disturbance to their mines and exposure to the drying
action of the air.

Ingrafting Scions. Trees completely girded by Termites may be saved,
it' taken in time, by inarching scions between the root below and the
stock above, thus ivstablishing the connection between the two. The
tree will in time restore the eroded bark, and the scions may be allowed
to remain or may be afterwards cut out.

Supplementary stocks may also be planted close to the injured tree,
and grafted in above the girdled portion, to sustain the life of the trunk
and enable it to restore the severed connection. A poultice of mud and
cow dung, applied to the injured part, will protect it and materially as-
sist the formation of new wood and bark.

CALOTERMES CASTANEUS.

A second species of Termite, somewhat larger than Termesflavipes., but
otherwise closely resembling it, has been found in decaying branches
and stumps of orange; but as far as its habits have been observed it is
a tree-inhabiting species, seldom forming very large colonies, and not
likely to do injury to growing plants, as it prefers very dry wood, and is
most frequently found in dead branches from the tops of forest trees.
Should it prove injurious to the orange it will probably require the same
treatment as the related species.

INSECTS AFFECTING THE TRUNK AND BRANCHES.

COLEOPTERO US BOR ERS. l ( SA WYERS."
THE COMMON ORANGE SAWYER.

(Elaphidion inerme Newman.)
[Fig. 47.]

The larvae of this beetle are cylindrical, whitish, fleshy grubs or
sawyers, with rudimentary legs, which cannot be of much assistance to
the animal in moving about, and a pair of strong short jaws. As with
most borers of this family, the head is small and can be withdrawn en-
tirely into the body. The first body-joint is somewhat enlarged, and

126

INSECTS AFFECTING THE ORANGE.

covered above with minute horny asperities, which are pressed against
the walls of the burrow, and serve to hold the body firmly in place while
the jaws are forced into the wood. The full-grown larva is about one
inch in length.

The pupa is formed in the gallery, in a rude cell made by pushing
aside the chips with which the larva stops up all the approaches to its
burrow.

The perfect insect has a long, cylindrical body with rather roughly
pitted surface j the color is dark brown, dusted densely beneath, but

FIG. 47,Elaphidion inerme. (Original.)

irregularly above, with fine ash-gray hairs ; the antennae are not longer
than the body. The length varies from ll mm to 15 mm (-*fo to^- inch) ;
the males are smaller than the females.

Fig. 48 illustrates, in all its stages, Elapliidion parallelum Newm., a
closely allied species, which lives in northern fruit-trees, and has habits

similar to the Orange Sawyer. In the
figure, a represents the larva 5 6, the
pupa in its ^ell ; c, the perfect insect ;
dj the head; e,f, and #, the mouth parts;
and 7i, the antenna of the larva, enlarged;
i and^' show details of the antennaB and
tip of the wing-cases, respectively, in
the imago ; fc, the end of the twig which
contains the borer.

The Iarva3 of this beetle are more prop-
erly scavengers or pruners, feeding by
preference upon dead branches, not only
of Orange, but also of Hickory and other hard-wood trees, and confin-
ing themselves to the dry and lifeless wood, unless compelled by hunger
to enter the living portions of the plant.

FIG. 4S.Elaphidion parallelum Newm. :
a, larva; 6, chrysalis in twig; c, adult
beetle ; d, e, /, <j, h, head and mouth parts
of the larva ; i, part of antenna ; and j,
end of wing case of the adult; k, end of
twig, cut off. (After Eiley.)

THE COMMON ORANGE SAWYER. 127

The injuries caused by them result from careless pruning, and, espe-
cially in the case of budded nursery trees, from leaving untrimmed the
dead end of the stock above the insertion of the bud. These dead
stubs attract the mother beetle, and she deposits one or two eggs in
each.

The grubs that hatch confine themselves to the dead ends until they
are completely hollowed out and reduced to mere shells, filled with saw-
dust. But if the supply of dead wood fails, they are forced to descend
into the living stock below, and thus weaken the bud if they do not kill
it outright, undermining the tissues which support it.

Protection afforded the Tree by its Gum. Very frequently tfhe larva in
penetrating the living tissues causes its own death by suffocation from
the flow of gum, which rises in the gallery, filling it to the top. This is
particularly apt to occur in the case of Lemon, Citron, and others of the
citrus family, which produce an abundance of gum. When in vigorous
condition the trunk of the Orange is perfectly protected by its gum from
the attacks of boring Coleoptera, and it is only endangered when, from
loss of vitality, such as follows transplanting or disturbance from dis-
ease, attacks of Scale-insects, &c., the circulation of sap and the flow of
gum are decreased.

Necessary Precautions. It follows from what has been said that dead
limbs, especially the dead ends of budded stocks, should be carefully
trimmed off, back to and even with the healthy wood. Trees trans-
planted during an unfavorable season, and which do not get a good or
early start, are apt to die back and present dead ends, which attract
borers. Such trees need to be closely watched and kept pruned until
their vigor is restored.

When trees of large size are cut off and budded, the entrance of bor
ers in the ends of the stump or large branches should be prevented by
protecting them with a coating of shellac or grafting-wax. It is also
well to allow a few suckers to grow for a time on the side opposite the
bud, in order to preserve a healthy flow of sap on this side and encour-
age the more rapid formation of wood and bark over the exposed heart
wood.

It is in consequence of the sluggish flow of sap and drier condition
of the wood on the side opposite the growing shoot or bud that this side
of a budded trunk is particularly exposed to the attacks of borers ; and
most of their damage is done by undermining and killing the bark, with
long galleries running down one side of the tree.

Means of destroying the Borers. Should the borer be found to have
penetrated the wood beyond the reach of the knife, no simpler method
of destroying it can be suggested than the old one of following it to the
bottom of its retreat with a piece of annealed wire sharpened at the end.
If the wire is also slightly hooked at the end, the sawyer may generally
be pulled out and removed bodily.

128

INSECTS AFFECTING THE ORANGE.

FIG

Oncideres

cingulatus. (After
Kiley.)

THE TWIG GIRDLER.

(Oncideres cingulatus, Say).
[Figs. 49 and 50.]

This beetle is injurious to fruit and timber trees in all parts of the
southern and eastern United States. The female has the singular
habifc-of cutting off twigs and branches not exceeding three-fourths of
an inch in diameter in which she had previously depos
ited a number of eggs. Fig. 49 shows the insect in the
act of cutting a twig. In the South the Persimmon suf-
fers most severely, but Oak, Hickory, Cherry, in fact, all
hard-wood timber and fruit-trees, are attacked, and
even climbers and ligneous shrubs like the Eose are not
exempt.

Coextensive depredations upon the Orange have hith-
erto been reported, but in most groves an occasional
branch is amputated. The loss is seldom noticed ex-
cept in young trees, which it is sometimes provoking to
find deprived of their leaders of the previous season's
growth. The cutting is so cleverly done as to pass for
a malicious use of the pruning shears, and few persons
would suspect it to be the work of an insect.
The beetle is about 16 mm (/ ^ - inch) long, rather stout and cylindrical,
dark chocolate-brown in color, speckled with lighter brown, and lightly
covered with short, gray pubescence, resembling a coat of bluish dust
or pruina, denser beneath and upon head and thorax, and forming a
broad transverse band upon the wing-cases. The antennae of the female
about equal the body in length, and are somewhat longer in the male.
There is but one brood each year. The eggs are laid in September and
October, and are deposited singly beneath the bark, usually close to a
bud. [Fig. 49, b; e, egg, natural size.] After placing an egg under each
bud for a distance of two or three feet, the female cuts off the branch
containing them by gnawing around it a deep, narrow groove, .so nearly
severing it from the tree that it falls by its own weight, or is broken

off by the wind and falls to the ground,
where it obtains the moisture necessary to
the development of the young. The eggs
hatch into white, fleshy Iarva3 of the form
common to wood-boring beetles, and known
in the South as "Sawyers." (Fig. 50, a.)
The larvaB remain nearly a year feeding upon
the wood of the fallen branch, which they
riddle with their galleries, and in the latter
part of summer form within the wood oval cells, in which they trans-
form to pupa. .(Fig. 50, b.)
The perfect beetles appear again in September. They are very shy,

FIG. 50. Oncideres cingulatus. a
larva ; b, pupa. (After Kiley.)

INJURIES CAUSED BY ANTS.

129

and remain perfectly motionless when disturbed. Their mixed colora-
tion of neutral gray and brown is also admirably adapted for conceal-
ment upon all kinds of bark, and they are therefore not easily detected
at their work.

Remedies. The simplest means of destroying this pest is to gather up
and burn during the winter the fallen branches which have been cut by
them, and which contain their eggs or lamp. Where persimmon bushes
are abundant this will prove a work of some labor, but will be abso-
lutely necessary if the Japan persimmon is cultivated for profit.

The G-inller is not likely to prove a very serious pest to the Orange,
but should it ever become such some advantage may be gained by trap-
ping the perfect beetles as soon as they begin to appear in the fall.
Tliis can be done by means of sirup daubed upon trees and fences.
The sugared spots must be visited at night with a lantern, and the
beetles, which will be found attracted to these spots, can be detected
and destroyed. The sirup may be mixed with a little beer, wine, or
alcohol to render it intoxicating, so that the beetles found feeding upon
it will not be disturbed by the light of the lantern and try to escape.

INJURIES CAUSED BY ANTS.
SOLENOPSIS XYLONI McCook.

[Fig. 51.J

FIG. 51. Solenopsis xyloni: a. ant from above; 6, same, side view; c, same, view of head; d t queen,

side view. (After McCook. )

The well-known carnivorous habits of this ant it is one of the com-
monest and most effective destroyers of the Cotton Worm would lead
us to reject any but the most positive and direct evidence that it fed
upon living plants. There is, unfortunately, no room to doubt that it
does frequently and seriously injure the Orange by gnawing away the
6521 o I 9

130 INSECTS AFFECTING THE ORANGE.

bark, and causing an exudation of gum which, seems, at certain seasons
of the year, to become one of its principal sources of food-supply.

In obtaining this the ant is led by its instinct to make incisions at the
base of the largest and most vigorous leaders at a time when, having
nearly or completely attained their full growth, the young shoots are in
process of hardening and ripening their wood, and the flow of elaborated
sap to these parts is greatest, giving in consequence the most copious
exudation of gum from a wound,

The ants make their attacks in force, and either girdle and kill the
shoots or cut so deeply into their bases that they bend over or break
off by their own weight. Sometimes, but rarely, the ants attack
the old bark of the trunk and larger branches and gnaw holes in it,
eating away the cambium layer without waiting for gum to exude.
When the flow is very copious the ants bring sand and mix with the
gum. This enables them to tunnel into it, and while some individuals
are continuing the excavation in the bark beneath, others are penetrat-
ing the gum thus hardened and removing it piecemeal to their nests.

Habits of the Ant. Solenopsis xyloni is a mahogany-brown ant of me-
dium size. It is very pugnacious and stings sharply. It lives in large
colonies, making its nest in the earth, and after rains throwing up irreg-
ular heaps of finely-granular earth. These heaps swarm with ants,
among which are seen occasional individuals (workers major) with
enormously enlarged heads. It is exceedingly fond of the nectar of
plants and the honey-dew secreted by insects, and is a constant attend-
ant upon Plant-lice and Lecanium Scales on the Orange. During the
greater part of the year it is attracted by them alone, and its visits to
the trees are harmless, but in October and November, when these in-
sects are scarce, the ant turns its attention to the gum of the tree itself.
During these months the summer growth is hardening and the bark is
full of elaborated sap, containing a large amount of saccharine matter.
It is probably in this condition only that the ants find it palatable and
accept it in lieu of their ordinary food.

Destroying Colonies. When not too near the tree, bisulphide of carbon
may be used in breaking up colonies of this ant in the same manner
as recommended for those of Termites. Pyrethrum powder, to the ac-
tion of which they are very susceptible, stirred into the soil about and
within their nest kills great numbers of the ants and frequently causes
the survivors to abandon the premises. Naphthaline, in the form of a
crystalline powder, used in the same way is equally effective in break-
ing up colonies. After frosty nights in winter, when the sun shines
warm on the following morning, the ants come out of the ground and
gather in clusters under fallen leaves or other objects affording them
protection from the wind with exposure to the warmth of the sun. At
such times an excellent opportunity is afforded to destroy the entire
colony by raking over the ground about the nests, at the same time
spraying the disturbed ants with kerosene or dusting them with pyreth-
rum.

INJURIES CAUSED BY ANTS. 131

Means of preventing the Ants from ascending the Trees. When they have
begun to attack a tree it is with extreme difficulty that they can be per-
manently driven off. Pyrethrum dusted over those upon the tree, and
scattered over the ground about its base, kills all the ants with which
it comes in contact, and affords temporary relief, but its effect is not
lasting, and it does not always prevent their return. Coating the raw
spots witl? shellac and protecting the trunk with a band of tar and other
viscid substances cannot be permanently relied upon to keep them off.

Sir John Lubbock, in his work on Ants, Bees, and Wasps, speaks of
isolating nests of ants " by fur, with the hair pointing downwards,"
but we are not told what kind of fur was used. A broad band of fur
tied around the trunk of the tree, and with the hair pointing downwards,
is effectual in preventing their ascent. The skin of the rabbit has been
used with success, but probably that of any fur-bearing animal would
answer.

Fur does not form a barrier absolutely impassable to ants, and they
will frequently clamber through a very narrow band, but they expe-
rience great difficulty in making their way against the hairs, and almost
invariably become confused and turn back, if the distance exceeds 1 or
2 inches.

Still more simple and almost as effective is a barrier of chalk. This
is applied by rubbing a lump of dry chalk over the bark to form a band
at least 8 inches wide, and completely encircling the trunk. In at-
tempting to cross such a band the ants nearly always slip and fall to
the ground. The fine interstices of the bark are filled with loose grains
of chalk, in which their claws find a very treacherous support. While
fresh and dry the chalk band is well nigh impassable to ants of the size
and weight of the Solenopsis, but dews at night, or rains, and the moist-
ure of the atmosphere in a short time change the character of the sur-
face by causing the grains of chalk to cohere with sufficient firmness to
support the weight of the insect and they then cross it in safety. The
device cannot, therefore, be regarded as a permanent one and requires
frequent renewal, but it may be resorted to temporarily when a piece of
fur is not at hand.

Very soft, fine clay, fuller's-earth, or talc may be substituted forchalk^
but in all cases must be applied by rnbbing on from a dry lump. Good
results cannot be obtained by using any of these substances in powder,
dry, or as a whitewash applied with a brush.

CHAPTER X.
AFFECTING THE TWIGS AND LEAVES.

INSECTS OF THE ORDER HYMENOPTERA.

LEAF-EATING ANT.

(Monomorium carbonarium Sm.)

A small black ant eats holes in the leaves of orange trees when they
are very young and tender, but seldom does any damage beyond de-
stroying a leaf or two, which in most cases the plant can very well
spare. Should this ant, however, become destructive, it may be com
batted in the same way as the Solenopsis mentioned in the preceding
chapter. A band of far around the trunk of the tree will prevent their
ascending.

INSECTS OF THE ORDER COLEOPTERA.

BEAOHYS OVATA (Web.).

This small beetle, belonging to the family Buprestidse, is frequently
met with upon the leaves, in which it occasionally eats small holes.
The beetle is 5 mm (& inch) long and nearly the same in width. The
body is flattened, or very slightly convex, and shield-shaped. The
color is a mixture, finely mottled, of dark and light bronze. When dis-
turbed, the legs are drawn into grooves in the underside of the body
and the beetle falls to the ground, where it bears a remarkably close
resemblance to the seeds of some of the common wild vetches. The beetle
has not hitherto been known to do appreciable damage to plants of the
citrus family. Its natural food is the Oak, upon which its strangely-flat-
tened larvae live as leaf -miners, excavating galleries in the narrow space
between the upper and lower surfaces of the leaves, and feeding upon
the parenchyma.

132

THE ORANGE LEAF-NOTCHER.
ODONTOTA RUBRA (Web.)

133

FIG. 52. Noto-
lomus basalig.
(Original.)

A beetle of the leaf-eating family Chrysomelidae is occasionally found
eating the leaves of Orange, but never to an injurious extent. Like the
preceding, its larva is a leaf- miner, and is found on various plants,
but not upon the Orange.

NOTOLOMUS BASALIS Leconte.

[Fig. 52.]

A weevil or snout-beetle (family Curculionidce) of small
size and light straw color, frequently found upon the
trees, usually hiding in dead leaves or tangles of spider-
web. It has been seen to eat the leaves and tender bark,
but it nibbles rather than feeds upon the Orange, and
cannot be convicted of doing serious harm. When the Orange is in
bloom the beetle is quite common upon the flowers, and it feeds upon
the pollen and nectar without injury to the plant. The early stages
are not known, but it is suspected of a connection with the Saw-pal-
nietto, upon the bloom of which the beetle is always found in abund-
ance.

THE ORANGE LEAF-NOTCHER.

(Artipus floridanm Horn.)
[Fig. 53.]

This is a snout-beetle of bluish-white color, stout, cylindrical form,
6 mm (J inch) in length. It is said to eat jagged notches in the edges of
orange leaves (see Report of Commis-
sioner of Agriculture for 1879, p. 207),
and was also found by Ashmead on the
Florida Keys feeding upon the Lime
and other plants. (Orange Insects, p.
62.) The beetle is confined to the penin-
sula of Florida, and is rare except in the
extreme southern portions of the State.

PACHN^EUS OPALUS, Olivier.

FIG. 53. Artipus fioridanus, and orange
leaf with edges gnawed by the beetle.
(AfterComstock.)

A weevil similar in form and color
to the preceding, but one-half larger.
Ashmead, in his Orange Insects, p. 61,
says : " This weevil was caught by me
in great quantities in South Florida on the Keys, feeding on the leaves
of the lime-tree (Citrus). I also found it eating the leaves of Baccharis
halimifolia and Borrichia frutescens, which I think are its natural food
plants." It is certainly very rare on the mainland, and does not occur

134 INSECTS AFFECTING THE ORANGE.

in the northern part of the State. Both this and the preceding species
may be removed, as suggested by Mr. Ashmead, by shaking them from
the trees into cloths spread to receive them. They fold up their legs
and simulate death, when disturbed. The early stages of both species
remain unknown.

INSECTS OF THE ORDER ORTHOPTERA.

THE ANGULAR-WINGED KATYDID.

(Microcentrum relinerve'BiiTm.)
(Plate IX.)

This large, green grasshopper, common in all parts of the United
States, has been exhaustively studied by Professor Eiley, and its full
history detailed in his sixth Missouri report. It has been several times
noticed in reports of the Department, and is quite fully treated in the
report for 1880. The eggs large oval objects, flattened like flax-seed
and dark gray in color, are placed overlapping each other in a row along
the edge of an orange leaf, or are deposited in two parallel rows along a
twig. There are two broods each year. Eggs laid in December hatch
in January or February. The young complete their growth in eight or
nine weeks. The eggs of the second brood begin to appear in May, and
are. continually .being deposited during the summer. Young of the sec-
ond brood are first seen in July.

Throughout their lives, the Katydids feed upon the Orange. The
young confine themselves to the tender foliage, but the adults often
gnaw the bark of growing shoots and leaders, and thus inflict very
serious injuries. Occasionally a tree is almost defoliated by Katydids,
and this, of course, happens most frequently in the case of young trees ;
but, owing to the luxuriance of its foliage and the rapidity with which
the orange-tree renews its lost leaves, the damage done by these insects
is rarely sufficient to repay the cost of fighting them. Young groves
should, however, be protected from their attacks, and early in the winter
the trees should be examined and the leaves with eggs upon them re-
moved. The young may very readily be killed by dusting the foliage
with pyrethrum powder.

EGG-PARASITE OF THE KATYDID. (Eupelmus [Antigaster] miraMlis,
Walsh.) (Plate IX, Fig. 2, female 5 Fig. 2a, male.) The eggs of the
Katydid are very frequently found with a small, round hole cut through
the side. This is the exit-hole of the parasite which is hatched and
bred within the egg of the Katydid, feeds upon its contents, and in due
course issues forth, a four- winged fly, The larva, like that of most
Hymenopterous parasites, is a transparent, white, footless grub; the
pupa of the female is flattened, and is very curiously packed in its nar-
row quarters, so that it exactly fills the space within the egg-shell. To

THH LUBBER GRASSHOPPER.

135

accomplish this, the abdomen and legs are folded back over the body,
and it is remarkable that the perfect insect retains through life the power
of thus rolling itself up into a ball. In the imago stage the two sexes
are very dissimilar. The female has clouded wings, the body shows
metallic reflections of purple, green, and cop per- bronze, and the abdo-
men is black, with the first joint white. The male is smaller than the
lernale, has clear wings, and is uniformly bright metallic green in color.
It has not the power of rolling itself like the female.

THE LUBBER GRASSHOPPER.

(Romalea microptera Serv.)
(Fig. 54.)

FIG. 54. The Lubber Grasshopper. (Alter Glover.)

This huge locust has nomadic habits, and wanders about in search of
food, attacking almost all succulent plants. It sometimes does damage
to orange trees by feeding upon the leaders and tender shoots, and is
at times sufficiently abundant to become a serious pest. The eggs are
laid in the ground and hatch in March or April. The young are black,
with bright yellow markings. For several weeks after leaving the
ground they are gregarious, each brood in its wanderings keeping to-
gether and gathering at night in a cluster upon some low herbaceous
plant. This habit, with their conspicuous coloration, renders it an easy
matter to find and destroy them at first. Later in the summer they
separate and become scattered, and the separate individuals must then
be sought for and destroyed.

During its growth the jnsect several times changes its skin. After
the final molt, which takes place in July or August, its appearance is
entirely changed. The colors of the young are reversed in the adult;
yellow becomes the predominant color, and the body is marked with
spots and lines of black. The wings are tinged with pink; they are
too short and rudimentary for flight. The adult insect is nearly 3

136 INSECTS AFFECTING THE ORANGE.

inches long, exclusive of its members; it is very heavy, clumsy, and
slow in its movements.

There is but a single brood; after depositing its eggs, in September
and October, the insect disappears and is not seen again until the young
come out of the ground in the following spring.

Absence of enemies. The Lubber Grasshopper has no known enemies.
Predaceous animals cannot be induced to feed upon it, and doubtless
its juices have an acrid and disagreeable flavor. Its sluggish habits,
taken in connection with its conspicuous coloration, show that it has
little need of concealment, and that it does not fear attacks of enemies.
The eggs are probably preyed upon by some species of Bee-fly (Bomby-
liidcc), but if such an enemy exists it remains as yet undiscovered.

Remedy. So large and conspicuous an insect is not likely ever to
prove an alarming pest, and hardly requires elaborate directions for its
management. If care is taken to destroy the young broods by tramp-
ling upon them when they appear in early summer, and before they
have scattered, there will be an end to anxiety from this source for the
season, and with a little pains taken at the proper time for two or three
successive seasons a farm may be entirely rid of these 'hoppers, even if
previously much infested by them.

OTHER LOCUSTS (Acridiidce).

The various species of Acrid iidse, grasshoppers, as they are com-
monly called, nibble the leaves of orange trees, but do serious injury
only where weeds are allowed to grow up around the trees. From their
size and voracity the species of the genus Acridium, of which three are
found in Florida, are most injurious. They are large insects, 2 or 2J
inches long, and are very active, jumping and flying to great distances.

In Acridium obscurum Burin, the general color is olive green, with
fuscous dots and a yellow stripe from the head to the tip of the closed
wings. The wing-covers are chocolate brown.

Acridium americanum Scud. (Fig. 55) is very similar, but the general

Fio. 55. Acridium americanum. (After Biley.)

color is reddish-brown and the wing-covers are marked with large
brownish spots.
Acridium alataceum Harr. is dull brownish-yellow in color, and the

THE ORANGE DOG. 137

wing-covers are marked with small spots. Like the Katydid, these
larger grasshoppers occasion loss of growth, and stunt the plant by
eating back the succulent ends of the shoots, as well as by consuming
the leaves. With clean culture, and keeping the grove free from weeds
and succulent plants, very little trouble will be experienced from the
ravages of locusts, which are only attracted in numbers by dense masses
of vegetation.

INSECTS OF THE ORDER LEPIDOPTERA.

THE ORANGE DOG.

(Papilio cresphontes Cramer.)
[Plate X and Plate XI, Figs. 1 and 2.]

The most important enemy to the Orange among this group of insects
is a caterpillar 2J inches long, of a dark brown color, with large blotches
and markings of cream color. (Plate X, Fig. &.) The anterior part of
the body is enlarged, and when at rest and not feeding the head is drawn
in and turned under. The swollen extremity then presents a hideous,
mask-like face, or dolphin head, of which the upper portion of the true
head forms the snout, and two velvet-black spots in deep depressions
on each side do duty as eyes. When irritated, the larva shoots forth
from a fold just back of the head two long, fleshy, orange-colored ten-
tacles, resembling a pair of horns. (Plate X, Figs, c and d.) These
are scent-organs, emitting a penetrating odor, disagreeable alike to man
and beast.

When full-grown, the larva retires to the vertical trunk or to some
large branch of the tree, weaves a mat of strong thread to which it
fastens itself by its terminal hooks, and with its head directed upwards
slings itself at an angle to the trunk by means of a silken band passed
around its body and fastened at the ends to the bark. Within this loop
it changes to chrysalis by casting its larval skin. The chrysalis (Plate
X, Fig. e) is a remarkable example of protective mimicry ; the mixture
of grey and b .own colors, together with irregularities of form, such as
projecting points upon the breast and at the upper end, give it a very
close resemblance to a dead, lichen-covered twig.

From this somber-colored case issues in time a large and gaily-col-
ored butterfly, with wings above velvet-black, crossed by a double
series of large yellow spots, and beneath yellow with black veins (Plate
X, Fig. a). The under wings end in tails, and are adorned above with
a pair of eye-like spots of red edged with black and surmounted by a
thin crescent of blue. Upon the under side these spots are repeated,
with the addition of a second pair of red blotches and a complete row of
pale blue crescent-shaped spots.

This showy butterfly is one of the commonest insects in the South,
and is seen everywhere flitting about in the orange groves.

138 INSECTS AFFECTING THE ORANGE.

Life-history. The eggs are spherical, smooth and pearly in luster,
with a dull red or reddish-yellow tinge, and are deposited singly, inva-
riably upon the youngest and most tender shoots, usually upon the tips
of the budding leaves (Plate XI, Fig. 1). The butterflies appear with
the opening of spring from chrysalids formed in November and Decem-
ber. The first eggs are deposited early in February, or as soon as the
new growth appears upon the orange trees. The eggs hatch in ten or
twelve days. The caterpillar completes its growth in about thirty days,
and remains in pupa from ten to fifteen days. About two months is
thus occupied by a single brood, and there are four full broods during
the season beginning with February and ending with October. The
breeding is, however, continuous during the summer, and eggs are laid
whenever new growth appears upon the orange trees.

The ovaries contain over five hundred eggs, the laying of which occu-
pies the female many days j she scatters them over a wide area, seldom
depositing more than four or five upon a single plant. The young
caterpillars feed at first only upon the tenderest leaves, but when well
grown demolish both leaves and shoots which have not hardened into
wood.

On account of its large size and voracity, the Orange Dog does great
damage, particularly to young trees, which are sometimes completely
defoliated. It has other food plants besides the Orange; among the
number the species of Prickly Ash (Zanihoxylum) are mentioned by
several authors. It is found commonly in the swamps of Florida, feed-
ing upon the Tupelo (Nyssa aquatica, L.) and upon the Eed Bay (Persea
carolinensiSj Nees). It seems, however, to prefer the Orange and its
relatives to all other plants.

Defensive measures. Hand-picking is not a very difficult task in the
case of so large an insect, and must in most cases be relied upon to
keep young trees free from Orange Dogs. As the eggs are quite large,
and conspicuously placed.at the tips of the growing stalks and budding
leaves, it is a simple matter to find and pinch them between the fingers.
A very little practice will enable the orange grower to go rapidly
through his young grove and destroy by hand nearly every egg. If
this method is systematically pursued, the result will well repay the
trouble. Two rules should be borne in mind, and will greatly facilitate
the work. (1.) Only those trees which are pushing out tender sprouts
need be examined for eggs and young larvae.* (2.) In nearly all cases
the eggs are laid upon sprouts at the top of the young tree and not
upon those low down and near the ground.

* While this rule in regard to the disposition of the egg can be predicated with
great confidence for the orange district of Florida, it is but just to observe that it
may not hold good for Louisiana and other more northern localities. Mr. L. O. How-
ard has in fact found the eggs of Papilio crespliontes upon the older leaves, and on the
twigs of orange trees, growing in public parks in the city of Savannah, Ga. The
observation was made about the middle of August.

THE ORANGE DOG. 139

A great deal can be accomplished towards reducing the numbers of
the Orange Dog, by destroying the butterflies j the most effective imple-
ment for this purpose is a light fowling-piece, loaded with dust shot
or coarse salt. It may seem somewhat ridiculous to advocate the shoot-
ing of butterflies, but an insect which has a spread of wiog of four or
five inches affords a by no means despicable object for target practice.
A more certain method for those not skilled at shooting on the wing is
to attract the butterflies iroin a distance by planting in some conven-
ient place a bed of flowering plants. It is a common sight to see a
dozen or more individuals of this butterfly hovering over a garden bed
of Phlox or Zsenias, within easy range of the drowsy orange- grower,
as he takes his midday siesta upon the veranda. What a loss of oppor-
tunity it is to allow these foes to escape and continue their havoc in the
orange grove.

PARASITES. A Tachwa fly, with a hairy body, and somewhat larger
than a common house-fly, which it superficially resembles, attacks the
caterpillars when partly grown, and deposits upon each several elon-
gate, oval, white eggs ; these hatch maggots, which penetrate the skin
of their host and feed upon its body-contents, eventually killing the
worm. The tachinized caterpillar usually attempts to pupate, but
strength fails, and it dies suspended in its silken loop. The parasitic
maggots eat their way out and drop to the ground, in which they form
oval puparia. They emerge as flies in twelve or fifteen days, or, if the
season is far advanced, remain in the ground during the two or three
months of winter, and issue with the return of warm weather in Feb-
ruary. From four to eight flies are bred from a single Orange Dog.

Chalcis robuata Cresson. (Fig. 56.) From the chrysalis of Papilio
cresphomes there sometimes issues, instead of the butterfly, a four-

FIG. 56. Chalcis robusta. (Original.)

winged fly. This parasite is a large and handsome member of a family,
the Chalcididae, composed for the most part of minute forms. It is
8.4 mm (-^Q- inch) long ; in color black, with golden-yellow legs. The pos-
terior thighs are swollen, and adorned with an oblique band of black

140 INSECTS AFFECTING THE ORANGE.

across the middle. The wings are smoky. The head and thorax are
very coarsely punctured, and clothed with short, golden hairs. The
fly in quitting its host makes a large, round hole in he side of the
chrysalis. All the specimens obtained emerged in June or July from
pup* of the second brood. There can be no doubt that this parasite
would in case of undue multiplication of the Orange Dog become an
efficient check upon its increase. At present, however, it is somewhat
rare.

SLUG CATEEPILLARS STINGING CATERPILLARS.

Several species of Bombycida3, called "slug caterpillars," because of
their apparent want of legs, and their gliding, snail-like movements, are
occasionally found doing damage to orange trees by feeding upon the
leaves. The hairy species-are known as " stinging caterpillars," being
provided with nettling hairs. They are all of rather large size, an inch
or more in length, and have sluggish habits. They construct stout and
very tough cocoons, attached to the bark of the tree, and they know
how to conceal them with great art. The perfect insects are moths,
with rather thick, heavy bodies, covered with long, downy hairs, and
flying only at night. The four species which are known to feed upon
the Orange are Lagoa opercularis Sm. & Abb., Empretia stimulea Clem.,
Phobetron pithecinm Sm. & Abb., and Limacodes scapha Harr.

LAGOA OPERCULARIS Sm. & Abb.

[Figs. 57, 58, 59.J

The caterpillars of this moth are covered with long, silky hair, under-
neath which are concealed shorter, stiff hairs, exceedingly sharp at the
points, and powerfully nettling when they pen-
etrate the flesh. Upon some persons the invis-
ible wounds made by these hairs produce swell-
ings, and an amount of irritation equivalent to
a sting; the larvre are, in consequence, popular-
ly supposed to be very poisonous. When young
the caterpillars are white and resemble a flock
of cotton wool. They undergo six molts, at one of the last of which
they become darker, the color varying in individuals, from red-brown to
light clay-color. When full-grown the larva presents the singular ap-
pearance of a lock of hair possessing sluggish life and a gliding, snail-
like motion. It is 1 inches long, bluntly rounded in front and dimin-
ishing rapidly to a point behind. The hair rises in a sharp ridge upon
the back, and forms several tufts of rust-red color.

The cocoon (Fig. 58) is placed in a crotch of the tree or upon a branch
of considerable size; it is 20 mm (-ft- inch) long, oval, convex, flattened
on the side next the tree, and fastened very firmly to the bark. The
upper end is abruptly truncate, and fitted with a hinged trap-door,

SLUG CATERPILLARS ON ORANGE.

141

FIG. 58.Lagoaojjercularis, co-
coon. (Original.)

FIG. 59,Lagoa opercularis, moth,
inal.)

(Orig-

which is readily pushed open from within by the escaping moth, but
does not yield to pressure from without, and is so accurately fitted that
no tell-tale crack can be discerned. Upon the
back of the cocoon is an elevation formed by the
meeting of several folds and ridges, forming a
marvelously exact imitation of a winter bud.
The ends of a lock of hair from the body of the
caterpillar counterfeit the down which in nature protects the dormant
bud. The substance of which the cocoon is made is a tough parchment,
composed of agglutinated silk, in which is. felted the long, hairy cover-
ing of the larva. Its color is a neutral brown, closely approximating to
that of the bark upon which it is placed. The entire arrangement is a
most successful representation of the stump of a small branch broken
off near its junction with the main stem,
and upon which is plainly shown the
swelling of a bud.

The perfect insect (Fig. 59) is a moth
with a very wooly body, pale yellow,
tinged with brown. The fore wings
are umber-brown at the base, fading to
pale yellow outwardly; the surface is
marked with fine wavy lines of silver
gray, and the fore margins are nearly black. The legs are yellow, with
dusky feet. The wings of the male moth spread about one inch ; those
of the female an inch and a half.

Life-history. The larva is a very general feeder, and although the
Oak appears to be its principal food plant, it is occasionally injurious to
the Orange. It never injures the bark or tender shoots, but subsists gnly
upon the mature leaves.

There are two broods, one in early summer and the other in the fall.
The Iarva3 of the second brood form their cocoons in November or De-
cember, and in them pass the winter, not changing to pupa until the
following March or April, or about two weeks before the moths appear.

Parasites. The same parasites have been bred from Lagoa as from
the Orange Dog. Tachiua flies issued in June from a cocoon found on
Orange in March. The hymeuopterous parasite Chalcis robusta issued
September 15 from a cocoon collected August 27.

THE SADDLE-BACK CATERPILLAR.

(Empretia stimulea Clemens.)

[Figs. 60 and 61, and Plate XI, Fig. 3.]

The caterpillar of this species, also a general feeder, is short and
thick, and very strangely marked with a large, quadrate patch of green,
in the center of which is an oval spot of purple, so that the animal

142

INSECTS AFFECTING THE ORANGE.

appears to have thrown across its back a green cloth surmounted by
a purple saddle. The fringing hairs along the sides of the larva have
irritating properties like the concealed nettling hairs of Lagoa.
The cocoons are short, oval, almost globular, flattened against the

branch to which they are at-
tached, and are of the same
tough, parchment-like material
and brown color as in Lagoa.
They are usually placed in con-
cealment, often against the main
trunk of the tree, at or near the
surface of the ground. The lar-
va before pupating cuts a circu-
lar flap at the end, making an
opening nearly equal to the en-
tire diameter of the cocoon,
through which the moth makes
its escape by pushing open the door from within.
The moth has a wooly body and legs of rich maroon color, with the
^ base of the abdomen and the under wings of
lighter brown. The scales of the fore-wing lie
flat and have a silken sheen upon the prominent
veins and margin, while in the depressions be-
tween the veins they stand erect, as in velvet,
giving an embossed appearance to the wing.
The upper surface of the fore-wing bears sev-
eral dots of pale yellow, each consisting of a few opalescent scales.
The dots are arranged in two pairs, one at the base and the other at
the apex of the wing, with a single minute fleck placed half-way be-
tween the pairs.
Parasite. The larva is destroyed by a Microgaster.

FIG. QQ.Empretia stimulea: a, moth (Original); 6,
larva (after Riley).

FIG. 61. Empretia stimulea^
cocoon. (Original.)

THE HAG-MOTH CATERPILLAR.

(Phobetron pithecium. Smith and Abbot.)
[Figs. 62 and 63.]

This insect receives its name from the curious hairy appendages which
cover the back and project from the sides of the larva, and have a back-
ward twist, like locks of dishevelled hair. These are, in fact, fleshy
hooks, covered with feathery, brown hairs, among which are longer,
black, stinging hairs. The larva is 15 mm (f- Q inch) long and has an oval
body, over which, however, the flattened and closely applied appendages
form a nearly square shield. The cocoon (Fig. 63) is almost spherical, like,,
that of the Saddle-back caterpillar, and is defended by the hairy ap-
pendages which the larva in some way contrives to leave upon the out-

SLUG CATERPILLARS ON ORANGE.

143

FIG. 62. Phobctron pi-
thccium, larva, (af-
ter lliley )

side. These tufts give to the bullet- shaped cocoon a very nondescript
appearance, and the stinging hairs afford a very perfect protection
against birds and other insectivorous animals.

Unlike the preceding species, the Hag-moth larvse do not seek to hide
away their cocoons, but attach them to leaves and twigs fully exposed
to view, with, however, such artful management as to
surroundings and harmonizing colors that they are of
all the group the most difficult to discover. A device
to which this insect frequently resorts exhibits the
extreme of instinctive sagacity. If the caterpillar
cannot find at hand a suitable place in which to weave
its cocoon it frequently makes for itself more satisfac-
tory surroundings by killing the leaves, upon which,
after they have become dry and brown in color, it
places its cocoon.

Several of these caterpillars unite together, and selecting a long and
vigorous immature shoot or leader of the orange tree, they kill it by
cutting into its base until it wilts and bends over.

The leaves of a young shoot, in drying, turn a light tan-color, which
harmonizes most perfectly with the hairy locks of the caterpillar cov-
ering the cocoon. The latter is, consequently, not easily
detected, even when placed upon the exposed and up
turned surface of the leaf.

The moth has body and legs of purple-brown, with
ochreous patches on the back and a light yellow tuft on
the middle pair of legs. The abdomen is sable, ending
in a tuft of ochreous scales. The fore-wings have the
colors of the thorax finely mingled, as in graining. The hind-wings are
sable, bordered with ochreous in the female. The fore wings of the male
are long and narrow, the hind-wings short and very triangular. Both
pairs are, in this sex, partly transparent.

^The spread of wing varies in this moth from 20 to 24 mm (-$,- inch to
-ft% inch).

THE SKIFF-CATERPILLAR.

(Limacodes scapha Harris.)
[Figs. 64 and 65.1

The generic name Limacodes, signifying slug-like, is very appropri-
ately given to this naked and slow-moving caterpillar, which is thus
described by Harris : " Body thick, and its outline nearly diamond-
shaped ; the back is a little hollowed and the middle of each side rises
to an obtuse angle ; it is of green color with the elevated edges brown
The boat-like form of this caterpillar induced me to name it Limacodes
scapha, the skiff Limacodes," (Ins, Inj. to Yegetation, p. 419.)

FIG. 63. Phobe-
tron pithcciinn,
cocoon. (Oiigi-
nal.)

144 INSECTS AFFECTING THE ORANGE.

The larva (Fig. 64) lives upon Hickory, Oak, &c., but has been re.
ported as feeding also upon orange leaves. It forms a tough, rounded-
oval cocoon. The moth (Fig. 65) is cinnamon-brown; upon each fore-

FIG. 64. Limacodes scapha, larva. FIG. 65. Limacodes scapha, moth.

(Re-drawn from Harris.) (After Packard.)

wing is a large tan -colored spot with a border of silver. It has a spread
of wing, in the female, of 30 mm (1.2 inches).

The life-histories of the four species of slug-caterpillars are similar,
and that given above for the first species may be assumed to apply to
each of the others. The same parasites are probably common to them
all.

BAG-WORMS.

[Plate XII.]

Worms living in cases made of sticks or leaves, and which they carry
about with them from place to place, and enlarge with their growth.
Pupa3 formed within the the case of the larva. Males issuing as small
moths, not differing greatly from others of the same family. Females
remaining wingless, degraded forms, to the end of their existence, when
they leave the protecting sack, in order to make room for their eggs,
and die.

THE COMMON BAG-WORM OR BASKET-'WORM.

(Oiketicus abbotii Grote.)

The baskets of this species are very large, those of the female over
two inches long ; the sack of the male is, however, only one- third as long
as that of the female. ,

The caterpillar is dirty brown in color. The first three joints, which
bear the legs, and are protruded from the case when the animal moves
about, are protected by horny shields, and together with the head are
mottled and streaked with light and dark brown. When tyoung the
case is carried erect upon the upturned end of the body, but as the worm
grows larger and the basket becomes heavy with the weight of sticks
and fragments of which it is composed, it is allowed to hang down.

The Bag- worm is an omnivorous and most voracious feeder ; nothing
vegetable appears to come amiss to it, and it sometimes is common
enough upon orange trees to do serious damage, especially as it does
not confine itself to the leaves, but also gnaws the tender bark of the
shoots and cuts off bits of the twigs with which to form its basket. The

BAG-WORMS ON ORANGE. 145

basket is differently constructed to suit its surroundings; on oak it is
usually formed of bits of rounded twigs, placed crosswise alter the fash
ion of a log cabin ; on trees with dense foliage like the Orange it is oftener
fashioned with leaf material. In all cases it is thickly lined and firmly
bound together with strong, grayish-white silk, and is too tough to be
torn asunder with the fingers. Before the larva becomes a pupa the
bag is suspended by a band of silk to a twig or branch.

The winged male escapes from the sack leaving the pupa shell pro-
truding. It is a rather thick-bodied moth of dark brown color. The
abdomen is very long, slender, and tapering to the point, which is
armed with a pair of shell like claspers, and these conceal the point of
the intromittent male organ. These parts are very elastic and extensile,
and enable the male to reach deeply into the sack of the female, in the
act of coupling. The fore-wings of the male are rather long and nar-
row; they are slightly paler than the body, and are marked with a
short oblique line, devoid of feathers, and situated just beyond the
middle of the wing. The hind wings are short and angular.

The female is without wings or legs, and is, in fact, hardly more than
a living egg-sack. When fully mature the pupa splits at the anterior
end, and the body of the female protrudes. Without entirely leaving
the pupa shell, but dragging it after her, she works her way to the
mouth of the basket, where she awaits the visit of the male, having her
head at the outlet.

In what precise manner the act of fertilization takes place is not well
understood,* but as soon as it is accomplished, the female pushes her-
self backwards to the farther end of the basket, and, her hinder ex-
tremity being still within the pupa shell, she proceeds to fill it nearly
full of pearly, cream-colored eggs, packed in silk. The vacant space at
the end is then filled with a tangle of floss silk, mingled with feather
scales, which the mother plucks from her own body. When finally
her body is entirely withdrawn from the pupa shell the lips of the
f shaped slit at the end snap together, entirely closing the exit.

The female continues to work her way slowly outward, weaving as
she goes a tangle of silk, mingled with scales stripped from her own
body. Having filled the entire space within the basket, and lest she
should imperil the safety of her young by remaining in the case to die,
the mother completes the sacrifice by dropping from its mouth. Her
exhausted body, shorn of its downy covering, falls to the ground, where,
naked and defenceless, it becomes a ready prey to ants and other
prowlers.

How wonderful an example is here shown of the power of the mater-
nal instinct, which can thus overpower the instinct of self-preservation
in an unreasoning insect, and compel her to yield to her offspring,
unborn and unseen, a secure retreat, which otherwise in life she never
leaves, and from which she could not be torn except piecemeal.

The eggs of the Bag- worm hatch in September. The young larvae

* See Appendix III.
6521 01 10

146 INSECTS AFFECTING THE ORANGE.

(PI. XII, Fig. 2, a) push or eat ttu-ir way out of the pupa shell of the
mother, and emerge from the mouth of the basket. They almost imme-
diately begin to form their cases, which they make of any material soft
enough to be rasped by their jaws. A bit of cork, for example, is ex
actly suited to their wants. The process of forming the basket is curi-
ous, and, observed under a lens, is as follows : The larva cuts off with
its jaws a fragment of cork, of a size and shape determined by the cavi-
ty of the mouth 5 each fragment is, in fact, a mouthful, which the larva
ejects and places between its front legs, adding one to another to form
a pile, which from time to time it fastens loosely with web. (Plate
XII, Fig. 2, b.) Pieces are added at the sides until the pile becomes
a transverse tangle about as long as the body and placed at right an-
gles to it. Each end of the pile is fastened loosely to the surface on
which it rests, and several strands of silk are laid along it from end to
end. Then, standing with its body astride of the tangle, the larva
bends down its head, tind dives under the mass, turning a complete
somersault, so that when its head and fore part of the body appear
on the other side, the insect lies on its back, bound down by the fillet
of silk and bits of cork, which still remain fastened to the surface at
the ends. (Plate XII, Fig. 2, c.) With a quick movement the larva
twists around and stands again upon its feet, having its neck,' as it
were, under a yoke. (Plate XII, Fig. 2, d.) It then makes of theyoke a
complete collar by adding bits of cork to each end until the circle is
complete. Eow after row of fragments is added to this, until the collar
becomes a ho'.low cylinder within which the body of the little workman
gradually disappears. (Plate XII, Fig. 2, e.) Each fragment as it is
ejected from the mouth is fastened by one end to the edge of the baud,
and secured with a few rapid passes of the silk-producing mouth-organs.
From time to time the larva cuts the anchoring threads, shifts its
work, and fastens it down again. Like a skillful artisan it works rap-
idly, not stopping to finish the work as it goes, but only occasionally
strengthening it with a few strands of silk on the inside, until the cylin-
der is long enough to entirely cover its body. One end is then closed
up and the inside well coated and, finished with a tough lining of silk;
the case meantime standing upright and fastened by one end. (Plate
XII, Fig. 2,/.) When fully completed the larva cuts loose the anchor-
ing cables, and marches off, with the case borne aloft like a cap, on the
upturned end of its body. This case of the young larva is constantly
enlarged, until it becomes the basket of the adult.

The Bag-worm appears to be single-brooded, and the winter is passed
by the young larvae in their cases. Pnpa3 are formed late in summer.
The males emerge, the females deposit their eggs and perish, and the
young hatch during the month of September. Hand picking must be
relied upon to rid the trees of Bag- worms whenever this becomes neces-
sary.

Parasites. The Bag-worm is attacked by an Icbneumonid, Hemitelea

BAG- WORMS ON ORANGE. 147

fhyridopterigis Biley. (Plate XII, Fig. 3.> The females (6) are dull red,
with banded wings, and are rather more than one-third of an inch (9 mm )
long. The males (a) are slender, with black, shining bodies and clear
wings 5 they are somewhat smaller than the females (8 mm ), A number
of the parasites inhabit a single case of the Bag-worm, which they
partly fill with a consolidated mass of their own dark-brown, parch,
rnent-like pupa cases. (Fig. 3, c.). The parasites cut their way out
through the thick sides of the Bag-worm follicle, each individual appa-
rently making an exit-hole of its own.

Another Ichneumouid, Pimpla conquisitor (Say) (Plate XII, Fig. 4), will
undoubtedly prove to be parasitic upon this Bag-worm, as it has been
bred from other, closely related species, and is a very common enemy of
many large caterpillars in the south. It has a rather slender body of.
black, banded with white, and clear wings. It is about 0.4 inch long.
It is a solitary parasite, the female depositing but a single egg in each
worm which she stings.

A third and much smaller parasite, Microgaster sp., issues late in Sep-
tember from the young larva cases of Oiketicus, in which it spins a snow-
white silken cocoon of its own. The parasitic fly is red-brown in color,
with dark antennas and ovipositor. It measures 3 mm (0.12 inch) in length,
exclusive of appendages.

NORTHERN BAG- WORM.

(Thyridopteryx epliemerceformis. Ha worth.)
[Plate XII, Fig. 1.)]

This Bag-worm bears a very close resemblance to Oiketicus, and ap-
pears to replace it in the North, where it is particularly injurious to
Cedars. It is not certainly known to occur in Florida, but may be found
in the northern part of the orange belt. Its case is formed in the same
way and its life-history is probably similar to that of Oiketicus. The
pupa of Oiketicus is, however, chestnut-brown, while that of Thyridop-
teryx is dark mahogany in color. The baskets of both species vary in
construction, and are not readily distinguished the one from the other.
The male of Thyridopteryx is black, with transparent wings.

PARASITES. Besides the Ichneumonid, Hemiteles thyridopterigis
Eiley, which was first known as a parasite of this Northern Bag-worm,
and has been noticed above, several other related parasites are men-
tioned by authors as preying upon Thyridopteryx.

Pimpla inquisitor (Say) (Plate XII, Fig. 5) is mentioned by Mr. Glover
as destructive to this Bag- worm. It has a black body, with parti-col-
ored legs ; the face is white in the male. Length about one-tenth inch.

The Yellow -banded Ichneumon (Pimpla conquisitor ', Say) (Plate XII, Fig.
4). This is also a common parasite of the. Cotton Worm and other large
moths. It closely resembles the preceding, but the joints of the abdo-
men are ringed with white. It is mentioned by Lintner as one of the

148 INSECTS AFFECTING THE ORANGE.

parasites of the Northern Bag- worm.* The species varies in length
from about one-quarter of an inch to over half an inch.

In Harris's Entomological Correspondence, p. 242, we find the follow-
ing: "The parasite of the drop- worm is Ichneumon concitator Say, a
very common and somewhat variable species, which attacks all sorts
of Iarva3. It is one of the most common parasites of Clisiocampa amer-
icana." No mention of this species can be found elsewhere than in
Harris's writings, and the presumption is that a confusion has been
made between names of similar sound, and that either Pimpla conquis-
itor or Cryptus inquisitor was intended.

THE CYLINDRICAL BAG-WORM.

(Psyche sp.)

The cases of a Bag- worm supposed to belong to the genus Psyche are
sometimes seen upon orange trees ; they are not spindle-shaped, as in
the preceding species, but cylindrical, and the fragments composing the
outside are laid on longitudinally. The fragments usually consist of
bits of straw or dead pine-needles, some of which are very
long and project beyond or out from the sides of the case.
The basket of the female is about 38 mm (1J inches) ; that of
the male 25 1 "" 1 (1 inch) in length, exclusive of projecting
points. The female is wingless; its pupa-case is of a light
chestnut-brown, and is 15 mm (-f- 6 inch) long.

Fig. 66 represents the basket of the male of Psyche con-
fedcrata, with the pupa-shell protruding. (Reproduced
from Trans. Arner. Ent. Soc., vol. II, Plate III, Fig. 67.)

The male remains unknown 5 it is a winged moth, which
probably resembles Psyche confederata G. and E., but is larger and pos-
sibly lighter in color.f

The life-history of this Bag- worm is undoubtedly similar to, if not iden-
tical with that of Oiketicus and Thyridopteryx.

THE ORANGE BASKET-WORM.

(Platceceiicus gloverii Packard.)
[Fig. 67.]

A much smaller species than the preceding was first mentioned by
Mr. Glover, who gave an account of its habits in the Patent Office

* First Annual Report of the Injurious and Other Insects of the State of New York,
by J. A. Lintner, page 84.

tThe male of Psyche confederata G. and R., is " entirely deep, smoky black. Anten-
nae plumose. Wings ample, closely scaled, rounded and full. * * * Expanse,
19 mm : Length of body, 7 mm ." The specimens described by Grote and Robinson
(Trans. Am. Eut. Soc., vol. II, p. 191) were sent from Texas. Plate III, fig. 67, gives
a representation of the basket of this species. Similar cases, which may possibly
belong to this species, have been seen upon the Orange in Florida.

BAG-WORMS ON ORANGE.

149

Agricultural Eeport for 1858. Its. basket is spindle-shaped, that of
the female 18 ram (^ inch), and that of the male 13 mm (J inch) long. It is
covered with finely chopped bits of dry leaf, bark,
moss and other scraps, supplemented not unfre-
quently with the scales of Bark-lice. As an addi-
tional protection, several small orange thorns are
often fastened to the outside of the case, with their
sharp tips projecting backwards and outwards.
The pupa case is dark mahogany-brown, and the
sutures between the joints are opaque, black, form-
ing on the female pupa three, and on the male pupa
four, very distinct rings. The male is a small, dark-
brown moth, measuring 16 mm (-^A- inch) across the FIG. wpiat<xceticus

gloverii. ( After Glover. )

extended wings. The female, as in the preceding

Bag-worms, is wingless, and undergoes a development similar to that

of Oiketicus.

UNNAMED BAGr-WORM.

[Fig. 68.]

A species of Bag- worm smaller than any of the preceding exists upon
Orange, and is not uncommon. Its cases are long, slender, and cylin-
drical, and covered with fragments of bark, straw, &c. ; many of these
are linear, and have projecting ends. The female case (Fig. 68a) is

FIG. 68. Unknown Bag-worm on Orange: a, case of female; b, pupa of female; c, pupa of male; d
end of male pupa, enlarged. (Original.)

15 mm (-!% inch), and that of the male 12 mm (-^f - inch) long. The pupa
of the female (Fig. G8, 6) measures S imu (-f \ inch) in length. The male
pupa (Fig. G8, c ; d, end of pupa enlarged) is very minute, being only half
the size of the i'emale. Both are slender, bluntly-rounded at the ends,
and of a light chestnut color.

This small species is allied to Psyche confederata, by the slender form
and light color of its pupa, as well as by the construction and cylindri-
cal shape of its case. In Platoeceticus, on the other hand, the fusiform
shape and dark color of the case and pupa, indicate a closer relation-
ship to Oiketicus.*

* The species of Bag-worms are more numerous than has been supposed, and sev-
eral undescribed species are confused in collections with the few species hitherto
described.

150

INSECTS AFFECTING THE ORANGE.

LEAF-EATEES WITHOUT CASES.
ARTACE PUNCTISTRIGA Walker.

The following account of this insect appears in the report of the
Commissioner of Agriculture for 1880, p. 252 :

" There is occasionally to be found upon the orange a fusiform white
silken cocoon, an inch and a half in length. From this cocoon there,
issues in spriug a thick-bodied woolly white moth, the female measuring
an inch and three-quarters, and the male an inch and one-quarter across
the wings. Each fore wing has five transverse rows of small black
dots. We have riot seen the caterpillar which spins this cocoon, but
from an examination of the cast-off skin to be found at the end of the
pupa, and from other facts, we may readily state it to be a rather thick
larva, about an inch and a half in length, and covered with long mixed
black and whitish hairs, giving it a grayish effect.- These cocoons are
not confined to orange, but are also found upon the grass at the foot of
the tree, and one specimen received was evidently found upon cherry,
as pieces of the bark still adhered. The species seems to be compara-
tively rare, but, as we have said before of other species, it is liable at
any time to increase and become injurious; therefore the sooner it is
treated of the better. As one of the causes of its rarity we may mention
the existence of a large ichneumonid parasite, which we have not been
able to breed, owing to the fact that it in its turn is parasitized by a
chalcid, of which we have bred thirty-six specimens from a single co-
coon, all having made their exit, as usual, from a single hole. It is pos-
sible that this chalcid may also be a primary parasite. The specimens

were referred to Mr. Howard for study, and
decided to be a new species of the genus
Encyrtus of Dalman." It was described (loo.
cit.) as Encyrtus artacece n. sp.

THE GRASS -WORM.

(Laphygma frugiperda, Sm. & Abb.)
[Figs. 69 and 70.)

Patches of the eggs of this common moth
are very commonly found on orange leaves.
But although the young caterpillars eat the
leaves to some extent, they soon find their
way to some other and more succulent food-
plant. Full-grown, caterpillars are scarcely
ever seen upon the Orange, although they

can be bred upon it in confinement.
The eggs are dull white, with a pearly luster. The clusters contain a

variable number of eggs, and are covered with mouse colored down from

the body of the mother.

FIG. 69. Laphygma
a, larva, natural size ;
c, middle joint from above; cf,
do.from side, enlarged. (After
Riley.)

LEAF-ROLLERS ON OKANGE.

151

FIG. 70. Laphygma friiflipercla:
a, moth, normal form ; b, wings
of variety fusca,- c, do. of variety
obscura natuial size. (After
Riley.)

The caterpillars grow to the length of an inch and~a half. They are
very variable in color, the young being dark, sometimes nearly black,
and the adults of lighter color, varying from brown to pale green,
with fine mottlings of other colors. Several
broad stripes of dark and light brown, run-
ning from head to tail, render this caterpil-
lar conspicuous and easily recognized.

The moth belongs to the numerous group
of Owlet Moths, called in the South "Candle
Flies." It has narrow front wings of gray
and brown, finely intermingled ; and the semi-
transparent hind wings of dull white, with
smoky margins. Spread of wings about one
and a quarter inches.

The pupa is polished, mahogany-brown,
and is formed in a simple, unlined cell be-
neath the surface of the ground. The trans-
formations of this insect are completed in
one month. There are several broods, but
the worms are most numerous in August, and the moths in September.

Orange groves which are kept clean will not be liable to injury from
the Grass -worm, which feeds naturally upon grass and succulent herbs.
Young groves are sometimes attacked when they are allowed to become
foul and only cultivated at long intervals. The amount of damage done
by this caterpillar is small, but it may, under special conditions, become
a serious pest. Clean culture will in such cases prove an all-suflicient
remedy.

LEAF-ROLLERS.

Slender, almost naked, worms, of small size, and usually yellowish-
green in color, which roll up leaves, or bind together tender bud-leaves,
to form a protecting tube, within which they lurk and feed, and in time
transform to pupae.

Before the moth issues, the pupa is pushed partly out of the tubular
shield of leaves. Fig. 71 shows the pupa of Platynota rostrana pro-
truding from the side of a folded orange leaf.

The adults are rather small moths, with pointed heads, and oblong,
somewhat heavy fore wings, which, when folded, form a roof-like ridge
over the body.

The eggs are laid upon the surfaces of leaves, in elongate, oval
patches of transparent yellowish-green color. In these patches each
egg forms an excessively thin overlapping scale, and the whole mass of
fifty to eighty eggs is thus firmly knit together, and can be removed
from the leaf without separating. The thinness and cellular structure
of the egg-cluster give it a resemblance to certain low forms of vegeta-
ble life, and it might readily be mistaken for a mold or a lichen.

152 INSECTS AFFECTING THE ORANGE.

THE CORK-COLORED ORANGE TORTRICID.

(Platynota rostrana, Walker.)
[Fig. 71.J

The tubular webs of this species are very common and quite destruc-
tive to small seedling and nursery plants, as the worm is apt to select
the tender budding leaves at the top of the plant, and by killing these
check further growth. Both this and the other Tortricid leaf-rollers do
occasional damage to the fruit by puncturing the rind
beneath the shelter of a leaf, which they fasten with web
to its surface.

The larva is translucent, dull yellowish-green above,
paler on the sides and beneath. The head is brown, and
the next joint bears a polished shield of the same color,
edged with white. A dark stripe extends along the back,
and a stripe of pale brown along each side. The body
of the larva is naked, except that each joint bears a few
long, fine hairs, each arising from a dot of glistening
white. These hairs are sensitive organs of touch. The

FIG. 71. Platynota

rostrana.- pupa length of the caterpillar is 18 ram d 2 ^ inch).

shell protruding

from folded leaf. The pupa is of slender form and chestnut-brown color.
It has six pairs of terminal hooks, with which it clings
to its tubular web.

The male moths are much darker than the females, the upper wings
cinnamon in color, with oblique bands of umber, and their surface's
much roughened with elevated tufts and ridges of coarse scales. The
females are larger and the upper wings much lighter in color, the red
being mingled with silver-gray. In this sex the tufts of scales are very
minute, and the oblique bands are reduced to fine, elevated lines.
Length of the male, with wings folded, 10 mm (-fa inch); of the female,
12 mm (-nfo-mch).

The eggs of each batch hatch simultaneously, the last caterpillar
quitting its egg shell a few minutes after the first. The young cater-
pillars immediately scatter over the plant, but hide in crevices at first,
and do not begin rolling the leaves until they are three or four days
old. They shed tneir skins five times during the eighteen or twenty
days of their existence as larvae. They remain eight or ten days in
pupa. Allowing eight or ten days for the laying and hatching of the
eggs, a period which is not certainly known, a single generation oc-
cupies less than six weeks. There are apparently four or five broods
during the eight warm months, and an additional brood in mild winters,
but the caterpillars may be found at all seasons of the year, and there
is in fact very little evidence of a separation into distinct broods.

Hand-pickiug is the only remedy that can be relied upon, and by this

LEAF-ROLLERS ON ORANGE.

lf)3

FIG. 72. Trichogramma minuta.
Riley.)

(After

method young trees can without difficulty be kept free from their
attacks.

PARASITES. Trichogramma pretiosa Eiley. This minute Chalcid
fly, well known as the parasite which renders effective aid by destroying
the eggs of the Cotton Worm, also infests the egg clusters of the Orange
Leaf-roller. The mother parasite deposits a single egg in each cell like
egg of the Tortrix, and within this nar-
row cell the young parasite finds food
and domicile until it has completed all
its changes. Then it eats its way out,
making a ragged hole in the shell, and
emerges as a perfect four- winged fly like
its parent. The fly is 0.3 mm (-^ inch)
long, clear yellow in color, with ruby
eyes and iridescent, hyaline wings,
which are delicately fringed with hairs.
It has been bred from the Tortrix eggs in March and also in September.
Fig. 72 represents Trichogramma minuta, a closely-allied species, which
differs from Triclwgramma pretiosa only in color and the form of the
small joints of the antenna.

MiotropisplatynotceHowsir'Ct. 12 A slender hymenopterous fly has been
bred from the larva of the Orange Leaf-roller. It is honey-yellow 5
head lemon-yellow, with dark eyes and antennae. The head is much
wider than long, and bears above three dark-colored, simple eyelets
(ocelli). The wings are hyaline. Three or four maggots of the parasite
are found living within a single caterpillar of the Tortrix, which is at
last almost completely devoured by them. The parasites form naked
pupae, loosely disposed within the tubular web of the destroyed Leaf-
roller, and in about nine days change to adult flies by casting the thin,
transparent skin of the pupa. The flies were obtained in September.

Polysphincta albipes Oresson. Cocoons of slightly yellowish, coarse
silk, loosely spun, were found by Professor Comstockon an orange leaf,
at Rock Ledge, Fla. The flies issued in February. They have been
described by Mr. Cresson in the Keport of the Commissioner for 1879,
p. 208. The body is dull red, smooth and polished 5 head black, with
white mandibles; wings hyaline, and legs white. Length 7 mra (f-
inch). This insect is somewhat doubtfully considered a parasite of Tor-
trix rostrana.

Goniozus n. sp. ; 13 family Proctotrupidce. A minute parasite is bred
from the caterpillar of the Leaf-roller. It has a shining, black body,
with yellow legs and antennae, and hyaline wings, with a dark-brown
stigmal spot. Length 2.5 mm (^ inch). Four or five of the parasites
are found in a single caterpillar. They spin oval cocoons of whitish
silk within the tubular web of the Tortrix. The parasites issued Octo-
ber 1.

154 INSECTS AFFECTING THE ORANGE.

THE SULPHUR-COLORED TORTRICID.

(Dichelia [ Tortrix] snlphureana, Clem.)

The caterpillars of this widely-distributed Leaf-roller are very general
feeders. In the northern States they are frequently injurious to Clover;
in the South the long list of their food-plants includes Cotton, Straw-
berry, Grape, and Orange; upon the latter they are somewhat rarely
found, and it is probable that tlie thick leaves of the citrus family are-
not well adapted to the needs of this species. The caterpillar bears a
close general resemblance to that of Platynota rostrana, but is somewhat
smaller, and the head and thorax are pale yellow. The pupa is dark
mahogany brown, almost black. The moth is sulphur yellow above;
the upper wings are marked with red-brown, or purple-brown. The
markings vary greatly in different individuals, forming a double letter
Y or an X upon the folded wings, but are sometimes reduced to a series
of dots, representing only the terminal and intersecting points of these
letters. The under wings are varying shades between yellow and brown.
Length from the tip of the beak to the extremity of the folded wings, 11"""
( j 4 ^ inch). The life-history and habits of this species in Florida are prob-
ably the same as Platynota rostrana. In the Eeport of the Commissioner
of Agriculture for 1880 will be found an account of both species. T.
sulphureana is there said to have three generations in a year in the lat-
itude of the District of Columbia, and probably only one in middle and
northern Maine.

LARGER LEAF-ROLLER.

(Tortrixl) 14

This is a somewhat larger insect than Platynota rostrana, from which,
however, the larva differs only in minute details. The pupa also is sim-
ilar to that of P. rostrana. The moth is rust-red, with three oblique
bands of maroon-red upon the upper wings, and their anterior (outer)
edge is sinuate.

The habits of this species are precisely the same as the foregoing, but
the larva being larger is more destructive, and often half cuts off small
twigs of tender growth, the leaves of which it folds and binds together
longitudinally, and feeds without preference upon the wilted leaves
within its retreat, or upon the fresh leaves of surrounding branches.

WEB-MAKERS.
THE ORANGE-LEAF NOTHRIS.

(Nothris citrifoliella Chambers.)

The caterpillars of a minute moth have been reported from the ex-
treme southern portion of the orange district, as doing injury in the
groves. The following account of it is found in the Annual Report of
the Commissioner of Agriculture for 1879, p. 205:

" Specimens of this insect were last summer received from. Brevard

WEB-MAKERS ON ORANGE 155

County, Florida. We do not know enough of its habits at present to
do more than describe it and its methods of work.

"According to Mr. H..S. Williams, of Koek Ledge, the larvae have
been very injurious to the orange trees in his vicinity. They infest the
young leaves of the new growth. These they web together by a deli-
cate white silken web, and feed upon the bud, entirely stopping the
growth of the shoot. If disturbed, the worm drops by a thread. It is
very active, and when removed from its web runs quite quickly.

"The full grown larva measures about 12 mm (J inch) in length. It is
yellowish in color, with the head and first thoracic segment black and
somewhat polished. The posterior margin of the black thorax is pale-
yellow. The anal plate and legs are polished yellow, with the scattered
hairs upon the former blackish ; all other hairs are yellow. The first
pair of legs is black and the rest yellow.

" When ready to pupate, the larva rolls a leaf around itself and spins
a delicate silken cocoon, in which it transforms to a rather stout, dark-
brown chrysalis. There is nothing so characteristic about the chrysalis
as to merit description. The moths emerged from August 25 to Sep-
tember 5."*

THE ORANGE WEB-WORM.

(Anceglis demissalis Led.)
[Plate XIII, Fig. 1, la, 16.]

The caterpillars of this interesting little moth are not uncommon upon
orange trees, but so remarkably well protected are they by their form,
color, and surroundings, that the skill of the collector will be taxed to
the utmost in discovering them.

They surround themselves with a tangle of web, involving several
twigs and small branches, together with their leaves. (Plate XIII, Fig.
1.) Caterpillars of different ages will be found in each web, which they
occupy in joint proprietorship with a small spider. Between this spi-
der and the AnaBglis there exists the most perfect harmony. In fact, so
close is the association of these allies, that the Web worm is never seen
except in company with the spider, and the webs of the latter are sel-
dom without the presence of the caterpillars.

It must not be supposed, however, that the Web-worm is a mere pen-
sioner upon the bounty of the spider. Both are web-makers j the spi-
der toils by day, its companion is active at night. During the day time
the caterpillars remain suspended here and there in the web, and feign
death. Their' slender bodies, slung in all sorts of positions, are rigidly
extended, and the head is bent sharply upwards at the neck, as if in
rigor mortis. No amount of disturbance can induce the insect to betray

* The original description of the moth will be found in Prof. Comstock's Report
(Report of Commissioner of Agriculture for 1879, p. 205).

156 INSECTS AFFECTING THE ORANGE.

itself by a movement, and it will even suffer itself to be crushed with-
out exhibiting any signs of life.

The color of the caterpillar a cinnamon-brown and its flattened,
wrinkled form give it an extraordinary resemblance to a shriveled bit
of twig or leaf. The deception is rendered perfect by the presence in
the web, whether by accident or design, of dry fragments arid petioles
of orange leaves which have fallen from the surrounding branches.

In these web-tangles not only the spider lives sociably with others of
its kind, hanging their egg-sacks in the net, and raising their young,
sometimes in numerous colonies, but two other insects unite in the re-
markable confederation, and form for mutual protection a sort of ento-
mological happy family. These are a small tree Cockroach and a coral-
red bug (Hemipteron), both of which breed and lurk in the tangles,
passing with facility over and between the meshes of the net, and evi-
dently feel perfectly at home there. The bug is, however, known to
be a predatory species, and feeds upon the eggs and young of the
Mealy-bug (see Chapter VI).

The caterpillar of Anasglis (Plate XIII, Fig. 1, a) is long, slender, and
somewhat flattened, in color rusty or cinnamon-brown, with a faint
tinge of green ; beneath, dull green. The body is finely wrinkled and
speckled with minute white dots and with a row of bristles on each
side, having a large white dot at the base of each. The second joint
and last joint of the body paler. Head mahogany-brown. Length, 19
to 20 mm (& inch).

Pupa clear brown, finely and densely speckled with darker brown,
the intermediate shades producing a dark mahogany color; the breath-
ing pores on the sides are prominent and jet-black in color. Terminal
point (cremaster) red-brown, furnished with six or eight rather long
hooklets. It is usually suspended, like the larva, in a more or less hori-
zontal position in the thicker parts of the web ; sometimes naked, but
generally with a light, loose tangle of web and bits of excrement gath-
ered about it. The length is less than half that of the larva.

The imago is a dainty little moth, with silver-gray wings, marked with
a broad band and several wavy lines of purple- black, and with parti-
colored legs. It has the triangular form characteristic of the PyralidaB
sometimes called Deltoides, from the outline assumed by the wings when
at rest, which is that of the Greek A. The eyes are large, prominent,
and black. The rather heavy antennas curving backwards, and the
pointed maxillaa directed upwards like horns, instead of forward in line
with the head, give an air of alertness to the insect.

The egg is laid singly upon a strand of the web, either of the larva or
the spider with which it is associated. It is spheroidal, pearly, yellow-
ish white, and adorned with a microscopic pattern, consisting of elevated
points, from each of which five pairs of raised lines radiate to the five
surrounding points.

HEMIPTEROUS INSECTS ON ORANGE. 157

Broods. As in the case of the Leaf-rollers (Tor trie idee), there* are
many broods during the year. The moths have been bred in February,
March, April, June, July, September, and October, and caterpillars of
all ages are found at any time during the summer. In December and
January, however, only the pupa is obtainable.

Remedies. The extent of direct injury done to the Orange by these
Web-worms is slight. It is, however, desirable to remove them from
the trees, as the tangles of web harbor Scale-insects, and by protecting
them from enemies foster their increase. In many cases Scale-insects
will be found to have made their appearance; brought there, in all
probability, by the spiders. It is therefore a wise plan to cut away
the infested portion, usually comprising only a small inside branch. If
this cannot be done without too much mutilation as, for example, on
young plants after removing the web from the branches they should
be sprayed with one of the washes recommended in the treatment of
Scale-insects.

INSECTS OF THE ORDER HEMIPTERA.
THE ORANGE APHIS.

(Siphonophora citrifolii Ashmead.)
[Plate XIII, Fig. 3 a, &, c, and d.]

The history of the common Plant-louse of the greenhouse and gar-
den has often been written and, briefly stated, is as follows : In the
autumn eggs are deposited singly in sheltered places; from these hatch
in the spring only wingless females, which do not lay eggs, but are vi-
viparous and produce young without the appearance of males. During
the summer one generation follows another with an astonishing rate
of increase; each brood consisting solely of wingless agamic females.
Finally, the last brood in the fall consists of winged males and females,
by whom the winter eggs are produced and the perpetuation of the spe-
cies secured in the ordinary manner.

The Aphis of the Orange (Plate XIII; a, wingless female; 6, winged
females) is a dark green Plant-louse, from 1.5 to 2 mm (yf - to - 4 -- - inch)
in length, and hardly distinguishable in a popular description from
some of the species common everywhere in greenhouses and gardens.
It has parti-colored legs and garnet-red eyes. The hue of the body
varies with age, from light yellowish-green or rusty green in the very
young, to dark green in the adults. The winged individuals are of so
dark a green as to have been described as black, and the young of this
form are distinguishable at an early age from those destined to remain
wingless, both by their darker color and more prominent tubercles
upon the upper surface of the body. Two pairs of these prominences
gradually develop into wing-pads, and after the final molt become well-
formed and transparent wings.

158 INSECTS AFFECTING THE ORANGE.

Tne development of this sou them Aphis differs from that of its north
ern congeners, in' that the winged and the wingless individuals occur
together at all seasons, and both forms produce their young living. The
males remain undiscovered, and it is entirely possible that they rarely
make their appearance, perhaps only at intervals of several years. In
the warm climate of Florida the cold is never sufficiently severe to
kill winged females, and the Orange not being deciduous a supply of
food is nearly always at hand. A winter egg is not, therefore, a neces-
sity, as in the North, and it may be that none are deposited in ordi-
nary seasons. The late fall broods consist in great part of the winged
females, while in spring, and especially in midsummer, the wingless form
predominates.

In the act of birth, the hinder end of the young Aphis appears first.
The young is slowly protruded from the body of the mother, until only
the tip of the head remains unexpelled. During the process aud for
a few minutes after, all motion outwards ceases, the larva remains im-
movable and with its members rigidly applied to its body. Soon it dis-
engages first one leg, and then another, until all are Widely extended.
The antennas are then raised and brought forward. This movement
severs the contact with the mother, and the new-born young drops upon
its feet, in the full possession of its faculties (which it makes no delay
in putting to the test). Within ten minutes from the time when its ex-
pulsion from the mother began, it is quietly feeding by h^r side, its
sucking beak inserted in the tender tissues of the leaf, and its body
rapidly becoming distended with the juices of the plant. In less than a
week after its birth, the plant-louse has become adult, and begins in its
turn to produce young.

Destructive powers. The Orange Aphis attacks the tender new growth ;
it checks the growth of young shoots, and curls the tender leaves.
With such a direct and rapid method of reproduction, and with a winged
form of female ever present to spread the pest, it will be seen that this
insect presents a truly formidable aspect as a destroyer. Were it not
held in check by numerous enemies and parasites, it would soon ruin
the trees by destroying the new growth, and render the culture of the
orange for profit an impossibility.

The work of enemies. Such, however, is the activity of its enemies
that not a single individual Aphis escapes destruction, or is allowed to
exert to the full its reproductive powers. Colonies rarely attain great
size, and, in fact, are frequently exterminated in their very beginning,
and before any appreciable injury has been done.

The parasite. The principal agent in accomplishing this result is a
parasite, whose larva, feeding internally upon the Plant-louse, finally
kills it. In dying the body of the Aphis becomes distended to the
utmost, assumes a globular shape, and turns to a dingy yellow color.
In drying it adheres firmly to the plant. (Plate XIII, Fig. 3, c.}

Within the body-cavity of its victim, the space within which it nearly

HEMIPTEROUS INSECTS ON ORANGE.

fills, the larva of the parasite, a little, white, footless grub, lies concealed,
curled up, with its head touching its tail. In a few days it becomes a
pupa, and six or seven days later it emerges through a large hole eaten
in the dry shell of the Aphis, as 'a slender, black, wasp-like fly. with
yellow legs. This fly is, of course, very minute, being r - - inch in length .
It is Trioxys testaceipes Cresson.* (Plate XIII, Fig. 4.)

Its work can always be seen where the Orange Aphis has been colo-
nized for a week or more, in the numerous bloated remains of the Aphis,
some of which may still contain the parasite, and others exhibit the
round hole through which it has made its exit. (Plate Xllf, Fig. 3, c
and fl.)

Although only a single fly is bred from each individual of the plant-
louse, the numbers of the parasite increase more rapidly than those of
its victim, and as every Aphis is in time parasitized, no colony long es-
capes extermination. Were it not for the facility with which new colo-
nies can be started at a distance, through the flight of the winged females,
this species of Aphis and some others which are similarly attacked
would suffer complete extinction in a single season. t

Other enemies'. Numerous other enemies combine to thin the numbers
of Plant-lice. Those which have fallen under observation as destroying
the Orange Aphis are discussed in the chapter on Predatory Insects.
Among the number are three species of two winged flies (Diptera),
whose larvae subsist exclusively upon Plant-lice, and several species of
Lady birds (Coccinellidce] which, both as larvaB and as perfect beetles,
rely to a very great extent upon this source for their food supply.

Remedies for Aphis. Moderately strong applications of whale-oil soap,
or the kerosene washes recommended for Scale-insect, are perfectly
effective in killing the Orange Aphis, and will not injure the young
growth upon which they are found.

THE OREEN SOLDIER- BUG.

(Raphigaster hilaris. Fitch.)

[Fig. 74.]

A large green Plant-bug is sometimes observed to suck tender shoots
of Orange, causing them to wither and die. The same insect is, to a
certain extent, predaceous, and has been reported as sucking Cotton
Worms and other insects, for which reason it has usually been classed
among beneficial insects. The full-grown bug is bright green in color,
with a very fine yellowish line around the entire margin of the insect,
and a black dot at the outer angles of each abdominal joint. The form

* Described in Report of the Commissioner of Agriculture for 1879, p. 208.

t Mr. Ashmead has described another minute, black parasite, which he bred from
the Orange Aphis, and to which he gives the name Stenomesius (?) aphidicola. (Orange
Insects, p. 67.) Three of the flies issued from the body of a single Aphis, and it may
be a secondary parasite, preying upon the Trioxys.

160 INSECTS AFFECTING THE ORANGE.

is broadly oval, the legs slender and of the same color as the body.

Length, 17 mm ($& inch).
The following account of ravages committed by the Kaphigaster is

from a correspondent in Florida. It affords a good example of the
sudden rise into importance as a pest of an insect
which is ordinarily a quite insignificant enemy of the
Orange.

* * * "You also request observations on the
Green Soldier-bug. I forward by same mail twigs of
the orange tree injured by the bug. The insects are
coupling now. The females will soon lay the eggs in
a cluster on a leaf, straddling over them while laying.

FIG. 73.Raphigaster J &

hiiaris. (After The young appear in the latter part of February or
the first part of March. As observed by the eye the
young are black, with white spots, which color they retain until nearly
full grown, when they acquire wings and change to a bright green.
How this is done I do not know. They mature very quickly, and
increase with surprising rapidity, continuing to breed until November.
In the spring and early summer they confine their attacks principally
to garden vegetables and succulent weeds. They are particularly
abundant on tomato-vines, egg-plants, turnip-tops, and mustard, sel-
dom doing much damage to orange trees at this season. When pea-
vines are well grown, about or a little before the time of blossoming,
they abandon nearly everything for the pea- vines. Last year they to-
tally destroyed my garden. Not one tomato came to perfection. Where
the insect had inserted its sucking-tube a reddish-yellow spot ap-
peared. When cut the fruit was full of lumps and totally devoid of
flavor. The tomato-vines grew so enormous a crop that the ground was
almost covered by the fallen fruit. Last year I had 35 acres planted in
cow-pea vines, which bore an enormous crop of peas ; but not enough
sound peas could be gathered to plant 5 acres additional land. Later
it was impossible to find a sound pea. I attempted to turn under the
vines, but so luxuriant was the growth that it could not be done. To-
wards the end of August the pea -vines were dead or dying, when the
bugs swarmed to the orange trees, killing nearly all the new growth.
Immense numbers were killed by keeping men constantly going over
the grove, shaking the trees, and killing all that fell on the ground.
The wingless individuals were readily killed, but the larger number
of the mature insects saved themselves by flight. This method of de-
struction was kept up until the middle of December, by which time
very few were found. On very cold days the winged insects were nearly
dormant and could not fly. I have the trees frequently searched now,
but rarely find the bug. The number of the insects is incredible.
When thoroughly shaken, the ground under the trees would be alive
with the fallen insects, and two days later just as many would be found.
I despaired of getting rid of them until the cold weather commenced,

HEMIPTEKOUS INSECTS ON ORANGE. H>1

\vheu I found the number rapidly decrease until their nearly total ex-
tinction.

"As to the damage. The bug first attacks the latest growth, which
wilts and droops while the bug is sucking ; in a few days the shoot is
dead ; the same eye soon sends out another shoot which shares the fate
of its predecessor, and so on until the eye has the appearance of a large
bunch, as you will see on twigs sent. After all the tender growth has
been destroyed the bug inserts his sharp sucking tube in the previous
growth which has nearly hardened. Here I can only give you the facts
and my theory ; it is a fact that the insect sucks such wood, but the
damage does not follow so quickly ; but very soon after, on such wood
known to be sucked, numerous bumps appear, which crack and exude
a sticky sap, white at first, but soon a rusty red, and hard. Later on
the insects suck the juice from fully-matured wood (an inch or more in
diameter); on this wood the bumps do not appear, but the same kind
of sticky sap exudes in tears, which soon harden and redden and are
what I understand by " red rust." That the cause and effect are strictly
true I can only surmise, but this much I and my men have seen : the in-
sects sucking the sap as stated and the branches where sucked having
the appearance described. In the winter months I have found clusters
of the bugs on the stocks of the buds, two inches in diameter, and always
an exudation of sap at these places, which I have never observed to
redden as in the instances stated above. Why this is so, and why the
insect leaves the more tender bud above to suck the sap from harder
wood nearer the roots, I can offer no suggestion. At first I was strongly
inclined to think that red rust was caused by soil-poisoning, but if so,
why is it that trees have grown for so many years on the same soil and
never had this disease until the introduction of the Green Bug f To
illustrate : When I bought this place ten years ago there was a field of
five acres which had been in partial cultivation several years, and on
which grew spontaneously the tomato and mustard plant, the two plants
on which the insects thrive the best. (At present I can only find the
insect on the mustard.) Since my purchase I have kept this field
constantly growing pea vines, as well as the forty other acres which
I have in orange trees, thus giving every encouragement to the in-
crease of the pest. Adjoining this old field was a wild orange grove
in a dense forest. Many of the sour stumps had large sweet buds,
neither the buds nor sour trees giving any signs of the red rust until
the winter following the clearing, and after a crop of pea- vines had been
grown among the trees. Now the trees in this wild grove are just as
much damaged as in the old field adjoining. Another case I will men-
tion, and not trespass further on your patience. Five miles distant is
the grove of L. Merritt, a wild grove budded. The buds are six years
old and ought to be bearing heavy crops, but an occasional bloom is all.
The trees have been in an unhealthful and u die back" condition for sev-
eral years. When visiting his grove in the fall of 1881, 1 told him I had
6521 oi 11

162 INSECTS AFFECTING THE ORANGE.

some trees in the same condition and was inclined to think the Green
Bug was the cause. Since that time he has persistently hunted the bug,
whipping it out of the large trees with poles, and killing wherever
found ; also he stopped planting peas. I have just visited his grove and
found bnt two twigs damaged, and could not find a specimen of the
bug. The trees have changed so remarkably in this grove that it was
past recognition. Instead of a dense crop of dead twigs all over his
grove, as at a previous visit, the trees had nearly doubled in size, and
had a very large, healthy growth of branches in place of the dead twigs.
I hear his trees are now in profuse bloom. I do not think that washes
will do much damage to the bug. Very strong whale-oil soap rarely
kills. Whale-oil soap, 1 pound; kerosene oil, 1 pint; water, 12 pints;
sometimes kills when sprayed over them, nearly always when immersed.
Pure kerosene kills, but not always instantly.

u The Green Bug has a parasite. I do not know what, but I frequently
find their shells with the inside devoured. Last winter I buried a num-
ber to see if plowing under would kill them. In ten days none were
dead ; in three weeks 20 per cent, were dead, nothing remaining but the
shells; in six weeks all but one were dead, empty shells remaining.
The living insect I put in a bottle with a little earth over it, hoping to
find the parasite, but unfortunately in about ten days the bottle was
broken, the Green Bug was dead, the shell empty as in the other in-
stances.

" At present the insect is very rare here ; if found at all, generally on
the mustard plant or weed locally known as nightshade. Yesterday,
while showing a lemon tree to some visitors, I found some of the twigs
drooping and remarked it looked like the work of the Green Bug. One
was found under a leaf close to his work. I send you one of the shoots.
If at any time you may consider the subject of sufiBient importance to

send a trained observer in the field, I will be
happy to see him here and place every facil-
ity at his disposal." [JAMES FRANKLIN,
West Apopka, Fla., January 31, 1883.

THE THICK-THIGHED METAPODIUS.

(Metapodius femoratus. Fab.)
[Figs. 74 and 75.'

A large dark-brown bug, emitting an un-
pleasant odor when handled, is addicted to
sucking the juices of the Orange, attacking
either the succulent shoots, the flowers, or
FIG. 74. Metavodius femoratus. the fruit. It has a heavy, clumsy body, with

(After Glover.) . , ,, *" ,, 1,1-1

projecfrng angles to the thorax; the thighs

of the hind pair of legs are swollen and spiny, and the shanks of the
same pair are flattened with jagged edges. The adult bug is nearly one

HKMLPTEROUS IXSKCTS OX ORANGE. J 63

inch long. Although sluggish in habit, it takes wing when disturbed,
and flies heavily with a loud, buzzing noise.

The eggs have the form of an oval casket, triangular in section, an d
are quite large; 3 mm (-ffo inch) in length. They are laid singly upon
the leaves of plants, and are very beautiful objects,

opalescent, and gleaming like a drop of molten gold. ^ />

Figs. 76 a and b show the egg with the exit hole of (. j) c_V j

the larva. FIG. 75. Egg of Met-

The young make their exit through a large hole forigXud? 1 *
eaten in the end. The young bugs are brightly va-
riegated with red and black, and their bodies bristle all over with
spines. They grow more somber in color with each casting of the skin,
and gradually approach the adult in form and color.

OTHER SUCKING BUGS.

Metapodius terminalis Dallas. This species can, with difficulty, be
distinguished from the preceding, and the same account may be given
of its life and habits. Both species of Metapodius vary greatly in size,
but M. terminalis is usually the larger and heavier of the two. M.fem-
oratus is the commoner species in the cotton-growing States, and M.
terminalis is more abundant in the orange districts of Florida.

Like the Green Soldier bug (Raphigaster hilaris), the species of Meta-
podius are known to prey upon other insects, particularly upon cater-
pillars, which are filled with the juiceS of plants, and there may be often
a doubt as to whether they are injurious or beneficial.

Euthochtha galeator (Fab.). (Fig. 77). This is another foul-smelling
bug, having the general shape and appearance of
Metapodius. It is however a smaller and lighter-col-
ored insect; and the shanks of the hind legs are slen-
der. The color is rusty-brown, and the length of
the adult insect is 16 mm (-ffe inch).

The eggs of Euthochtha galeator resembles those
of Metapodius, but are only one-third as large, and
are laid in irregular clusters on leaves or stems of
plants. Their color is a ruddy gold.

The.- young bugs are purple-black, with orange
heads and crimson abdomens. Their bodies are

irorv crn n \r FIG. 76. Euthochtha gal-

kpiny. eator. (Original.)

The habits of this bug do not differ from those of
Metapodius. It is a very common and often a very destructive insect.

Other species of plant-sucking bugs will be found doing occasional
damage to tender growth on Orange, but the above are the largest and
best known of this class of offenders.

CHAPTER XL

INSECTS AFFECTING THE BLOSSOM AND FBUIT, AND
SCAVENGER INSECTS.

INSECTS AFFECTING THE BLOSSOMS.

During the season of blooming, insects of many species are seen flit-
ting about the trees, attracted thither by the fragrance of the blossoms,
and feeding upon the nectar, which they secrete in abundance. The
greater number of these visitors are not only harmless to the plant, but
are even of the greatest service, in securing the fertilization of the flow-
ers, which could not otherwise be accomplished.

In fact, it is a fair inference that its fragrance and its sweets serve
no other purpose in the economy of the flower than to call to its aid
friendly insects which, in their restless movements from flower to flower,
bear with them and distribute widely the fertilizing pollen dust.

A few injurious insects, however, frequent the blossoms. These are
all sucking-bugs, and they cause the buds to blast and the flowers to
fall prematurely, by tapping the juices from their stems and other parts.
Among the most injurious are the Green Plant-bug, Raphigaster hilaris
Fitch, mentioned in. the preceding chapter, and the Leaf-footed Bug,
Leptoglossus phyllopus (Linn.), an insect which will be considered among
those especially injurious to the fruit.

THBIPS TRITICI (?) Fitch.

[Fig. 77.]

By far the most common insect found in orange blossoms is a little
yellowish bug, whose slender body measures but l mm (^-5- inch) in
length. The color of the eyes is dark red or brown ; all the other parts
are clear honey yellow. The adults have narrow wings fringed with
hairs. These hairs are characteristic of the family, and replace the
membranous parts of the wing of most other insects.

Notwithstanding the rudimentary structure of their wings, these in-
sects are capable of active flight, and they also have the power of leap-
ing.

The Orange Thrips inhabits all sweet-scented flowers. In Lilies and
Eoses, as well as in orange blossoms, they sometimes swarm in countless
numbers, and do great damage whenever they become unduly abundant.

From orange blossoms they are seldom wholly absent. They appear
however to feed for the most part upon the stamens and petals, from
164

THE COTTON STAINER OR RED BUG.

165

a, Thrips en-
living speci-
c, leg, much

which they suck the bland and fragrant oil. In the Orange, these parts
of the flower are naturally deciduous, and the effect of the attacks of
the Thrips is to hasten their fall ; for the most part leaving uninjured
the. fruit producing pistil, which moreover will not fail to have been
fructified with the pollen which these active midgets distribute over
every part. Figure 5 on Plate XI shows
an orange blossom infested with these in-
sects. The Orange, being a profuse bloom-
er, commonly sets more fruit than it can
mature, and is constantly throwing off the
surplus from the time when the buds begin
to open until the branches are relieved of
their burdens at the harvest. A large
share of the energy of the tree is expended
uselessly in the fruit which falls to the
ground prematurely, and is lost.

The operations of the Thrips are confined
to the flowers and therefore tend to antici-
pate and prevent this waste, by thinning a

5 FIG. 77. -Thrips trititi:

out the superabundant bloom at the outset, larged, drawn from

,. . , , meiis; b, antenna;

I" or this reason the insect is more often a enlarged. (Original.)
friend than a foe to the plant, and were it not for the fact that its
numbers sometimes increase inordinately and to such an extent as to
effect injuriously the forming crop, it could not be classed among the
insect enemies of the Orange.

The Orange Thrips is frequently an annoyance to persons occupied in
flower gardens where Lilies and Roses are in bloom. It settles upon the
hands an.d face, and bites sharply, although without poisonous irrita-
tion.

Remedies. A moderately strong solution of whale-oil soap, one pound
to four or five gallons of water, will suffice to destroy this insect if
sprayed upon the flowers in fine spray. Applications of pyrethrum
will also effectively reduce their numbers. It is best used in liquid, de-
livered in fine spray upon the flowers. One ounce of the powder in
each gallon of water is sufficient to destroy the Thrips. The powder
must be kept suspended by frequent agitation of the liquid.

INSECTS AFFECTING THE FRUIT.

THE COTTON STAINER OR RED BUGr.

(Dysdercus suturellus Herrich-Sch.)
[Plate XI, Fig. 4.]

This Soldier-bug, well known to cotton -growers in Florida, as occa-
sioning great loss by puncturing the cotton bolls and injuring the fiber,
has recently been found destructive to oranges by puncturing the rind

166 INSECTS AFFECTING THE ORANGE.

and causing the fruit to drop from the trees and rot rapidly. Attention
was first called to this new habit of the bug by letters to the Depart-
ment of Agriculture from South Florida, in December, 1879. Since
that time numerous reports have been received of excessive injuries
done, especially in cases where cotton is raised among or in close proxim-
ity to the orange trees.

The Cotton Stainer may be distinguished from all other Soldier-bugs,
some of which resemble it superficially, by its rather oval form, deep
coral-red color, and white markings, which form a collar-ring behind
the head, and a border upon each joint of the body. The wings of the
young are mere pads of black color, but in the adult they cover the
body, and are crossed with narrow lines of white, forming the shoulder-
straps, from which these insects take the name " Soldier- bugs."

Broods, Habits, &c. There are many broods during the warm months
and even in mid- winter the young may often be found.

The principal food of the bug is the oil of cotton seed, to obtain which
it punctures the hard seed-coats. It also feeds upon the seeds of other
Malvaceous plants, although the precise species attacked have not been
ascertained. In winter the Bed Bug may be found gathered in vast
numbers upon the heaps of waste cotton seed about the gin houses.

The eggs are oval in shape, amber-colored, with a pearly luster, and
present, under a lens, a pattern of closely reticulated lines. They have
been sent to the Department of Agriculture from the Indian Eiver,
Fla., in April, " laid in a group of twenty-one upon the under side of an
orange leaf." * That this disposition of the eggs is normal may be some-
what doubtful. In winter at least, and around gin houses, the eggs are
dropped loosely in the sand, and among the heaps of cotton seed upon
which the bugs are feeding.

Attacks upon the Orange. In January and February, if the weather
is mild, the Eed Bugs desert the fields where they have lingered upon
the dead trash and waste of the cotton, and suddenly make their ap-
pearance in the orange groves. Usually this takes place only in groves
adjoining fields that have been planted in cotton, but, as they are
strong flyers, the bugs not unfrequently migrate in considerable num-
bers to a distance even of several miles.

At first, only adults are seen ; these at once attack the fruit upon the
trees. A week or ten days later, the wingless young appear; always
upon the ground, clustering upon the fallen fruit. If the trees are not
stripped and the fruit harvested before the young brood become adult
and acquire wings, the entire crop will be lost. Even the packing-house
is not safe from invasion, and fruifc is apt to be destroyed after it has
been gathered and stored in the bins.

In puncturing the orange, the bugs insert their slender sucking beak,
often its entire length, and although the oil of the rind forms their
principal food, they, nevertherless, frequently regale themselves with

* Report of the Commissioners of Agriculture for 1879, p. 204.

THE COTTON STAINER OR RED BUG. 167

draughts of juice from the pulp within, and are sometimes seen to suck
the juices from the surface of split or injured fruit, tapping it with the
tips of their probosces, after the manner of flies.

The sucking-tube, having the fineness of a hair, leaves no visible
wound upon the outside of the fruit, and within no indication of its
passage. An orange which has been attacked therefore shows no out-
ward sign of injury ; nevertheless, a single puncture causes it to drop
in a few hours from the tree, and to decay in one or two days

It is quite useless to pack for shipment to a distance the fruit from a
grove which is attacked by Ked Bugs, since the unsound fruit decays in
the packages and soon ruins the whole.

Geographical distribution. The Cotton Stainer is an inhabitant of
warm climates. It is found in great abundance in the Bahamas, where,
according to Mr. E. A. Schwarz,* it annually destroys a large part of
the cotton crop. From the Bahamas or other West India islands it
may have been introduced into the extreme southern portions of the
cotton belt, in the United States. In Florida it has not been reported
as occurring north of Gainesville, in Alachua County, and it is unknown
to cotton -planters in the northern part of that county, although a famil-
iar insect in cotton fields everywhere south of Gainesville.

The taste for oranges appears to have been recently acquired. Mr.
Glover, in the Agricultural Keport for 1875, gives an account of the in-
sect and its depredations upon cotton, but does not mention it among
the insects noted as injurious to the Orange. It should, however, be
remarked that at the date of Mr. Glover's observations comparatively
few bearing orange groves existed in the more southern portion of the
State.

In 1879 the insect first attracted the attention of orange-growers,
and the crop of that year was injured by it in several widely separate
portions of the fruit belt. In various parts of the State it has since be-
come a well known and much dreaded pest, and has occasioned very se-
rious losses.

Freedom from Attacks of Enemies. The Red Bug is one of those showy
insects which are probably possessed of an acrid flavor, disagreeable to
other animals, and are in consequence not much preyed upon by ene-
mies. Certain it is that the Bed Bug is not eaten by fowls or other
birds, nor has any enemy of its own class been hitherto observed to at-
tack it. The eggs will very probably be found to have parasites, as is
the case with most other Hemiptera, but none have as yet been discov-
ered

Remedies and remedial Measures. In default of aid from predatory
animals it remains for man alone to combat this pest. Its extermina-
tion, in view of its gregarious habits, would not be a matter of great
difficulty, if concerted action over wide areas could be secured. As was

* Report upon Cotton Insects, Department of Agriculture. 1879. Appendix I, p.
347.

168 INSECTS AFFECTING THE ORANGE

long ago suggested by Mr. Glover, in his report above mentioned, the
bugs may be attracted to small heaps of sugar cane trash, with which
Paris green or some other poison should be mixed ; or the bugs, when
collected upon piles of cotton seed in winter, may be destroyed by
drenching them with boiling-hot water. The experience of several cot-
ton-planters with this last method has shown it to be practicable, but
to be effective it must be thoroughly carried out. As the eggs cannot
all be reached and destroyed by the hot water, the operation needs to
be repeated several times at such frequent intervals that the bugs are
not allowed to reach maturity and deposit fresh eggs.

In the orange grove effective traps may be made with refuse oranges,
orange peel, &c., and the bugs, when thus collected, may be destroyed
with the kerosene washes used for Scale-insects. The kerosene solu-
tions will also be more effective than hot water in reaching and killing
the eggs.

The Bed Bug can never become permanently attached as an enemy
to the orange tree, since the fruit which alone supplies it with food
lasts only a few weeks, and during the balance of the year the insect
must seek its subsistence elsewhere. It is therefore an enemy to be
dreaded only in the vicinity of cotton fields and gin houses, in districts
where cotton is largely planted, or lastly, and with less probability, in
case thickets containing numerous wild Malvaceous plants furnish the
bugs with a supply of food during the months when the Orange is not
in fruit.

In South Florida, at least, the planting of cotton in the vicinity of
orange groves will necessarily be abandoned. Throughout the orange
district the acreage planted in cotton has never been large, and it is
for many reasons likely to diminish rather than to increase. With the
abandonment of cotton planting, the Red Bug may be expected to dis-
appear from this region.

THE LEAF FOOTED BUG.

(Leptoglossus pliyllopus Linn.)
[Fig- 78.]

This is a chocolate-brown bug, three quarters of an inch in length.
It has the shanks of the hind legs very broadly flattened, and the edges
jagged, resembling a tattered leaf fragment; hence its popular name.
The markings, a white bar across the folded wings, and a small spot of
the same color on each of the leaf- shaped shanks, are very character-
istic, and render this species easily distinguishable among other bugs
of the same family. The young bugs, with undeveloped wings, show
the brighter red color of the body, and do not acquire the peculiar flat-
tened hind shanks until nearly adult.

The eggs are golden brown in color, and are laid in a single row 01
chain, along a stein or tbe leaf rib of a plant. They are cylindrical.

THE MEXICAN FRt'IT WORM. 169

flattened on the under side and at the ends, and are closely applied end
to end, forming- a stiff, cylindrical rod in which each egg appears as a
joint or cell. The young issue through a large bole eaten in the upper
side of the egg.

The normal food of this bug in the South is a large Thistle, upon the
heads of which young and old may be found clustering and sucking the
juices of the plant. The young bugs are
rarely found in Florida except upon the
Thistle, or similar succulent plants, but
the adult bugs, being strong on the
wing, make excursions to very great
distances, and enter the orange groves
at the time of blooming, to suck the
opening buds or tender shoots. Again
they may be iound attacking the ripen-
ing fruit, and causing it to drop in con-
sequence of their punctures. The dam-
age done in this way is often very con-
siderable, and in some reported cases
has amounted to an almost total loss of
the crop.

..... ., ,. ~F\G.l%.Lepto(jlossuspTiyllopus. (Original.)

Like many bugs of this iamily, they

are particularly active in hot weather, and it is then very difficult to
get within reach of the adult insects, as they take wing readily and
fly away. But in cool or cloudy weather they are more sluggish and
may easily be found and killed by hand-picking, or by knocking them,
into a bag or net with a stick.

Where Thistles are abundant this bug is sure to prove a serious
pest, as the Thistles form a propagating ground from which they spread
to a distance. A single large patch of Thistles has been known to infect
a wide area, but when these were cut down and destroyed, the bugs in
time disappeared from the groves in the neighborhood and gave no fur-
ther trouble.

THE MEXICAN FRUIT WORM.

An unknown worm, of perhaps an inch in length, is said to be very
destructive to oranges in Mexico. It penetrates the fruit to the core,
and feeds upon the pulp, both fresh and after it has begun to rot in con-
sequence of the attack.

A few years ago a very large percentage of the oranges sold in the
markets at Yera Cruz contained these worms, and were entirely uneat-
able. It is said that no mark upon the outside of the fruit reveals the
presence of the worm within,

In the absence of any definite knowledge in regard to this insect, it
is only possible to point out the danger of its introduction first into the

170

INSECTS AFFECTING THE ORANGE.

groves of Louisiana and then into Florida by means of oranges im-
ported from Mexico at the port of New Orleans.*

SCAVENGER INSECTS.

INSECTS FEEDING UPON DEAD WOOD AND BARK.

TREE-INHABITING ANTS.

Several species of ants which live in trees make their nests in the dead

wood of the Orange, more especially
in twigs and smaller branches which
have been killed by frost The wood
of these winter-killed shoots being
corky and easily excavated, they are
frequently hollowed out by ants, and
serve as places of deposit for their
eggs and young.

Cremastogaster lineolaia (Say). [Fig.
79.J This is one of the commonest of

^Oly^ ^"^^~^\ ^ e s P ec ^ es which have the above

^ ' ' habit. It is jet-black, shining, and

has a broadly triangular abdomen,
which it elevates in a threatening
manner when excited.

The species is very abundant upon
Oak and other forest trees. It at-
tends the various honey-producing
insects found upon trees and feeds
upon their honey-dew without doing
any violence to the insects them-
selves. Its presence upon the orange
tree, therefore, is of very slight im-
portance either for good or evil.

Other species of ants which have
been observed to make their nests in
orange twigs probably have the same
habits, and if not positively benefi-
cial, certainly do little harm to the
tree, and none of them gnaw or do injury to the growing parts.

*An Australian inoth, Ophideres fullonica (L.), is said to pierce oranges with its pro-
boscis and suck the juices of the pulp. In an article entitled "Les Ldpidopteres &
Trompe Perforante, Destructeurs des Oranges," M. J. Kiinckel describes and figures
the proboscis of this insect, and shows its special adaptation to this end. (Comptea
Rendus des Stances de 1'Acade'mie des Sciences, Paris, 30 Aout 1875.)

FIG. 79. Cremastogasterlineolata: a, b, worker
major; c, head of do.; d, female; e,
/, worker minor. (After McCook.)

INSECTS FEEDING ON BARK AND DEAD WOOD.

171

THE ORANGE SAWYER.

(Elapliidion inerme Newman.)

This insect has been described in Chapter VIII, and is there shown to
be injurious, under a careless sys-
tem of pruning, in which the ends
of branches are left untrimraed,
with sufficient dead wood to at-
tract the parent beetle, but not
enough to support the larvae ; so
that the latter are driven by hun-
ger to enter and feed upon the liv-
ing wood. It appears, therefore,
that under natural conditions this
beetle is merely a scavenger. Its
grub feeds upon the wood of many
trees, and, like most members of
the Longicorn family, thrives only
upon diseased and devitalized tis-
sues, or upon wood which, though
dead, has not entirely parted with
its sap and become hard and dry.

Fig. 80 represents the larva of
E. parallelum, a closely allied spe-
cies, having the same habits as the Orange Sawyer, but which lives in
the Oak, &c.

THE ORANGE FLAT-HEADED BORER.

(Chrysobothris chrysoela 111.)
[Plate XIV, Fig. 8.]

Dead twigs and branches of Orange are frequently found, upon which
the bark is cracked and loosened, so that it comes off at a touch, bring-
ing away with it considerable dust from the wood lying immediately
beneath, a thin layer of which has been reduced to powder. When the
loose bark and sawdust are removed, the surface of the branch presents
an eroded appearance, indicating the path of an insect. The edges of
the track form a succession of semicircular curves, as if made by the sweep
of a miniature scythe. It is, in fact, the gallery of an extremely thin-
bodied grub or sawyer, made partly in the bark and partly in the wood,
and always filled with comminuted wood, which has passed through the
digestive organs of the grub, and has been voided and deposited be-
hind it as the insect made its way through the wood. The cell in which
the pupa is formed is excavated in the solid wood. It lies parallel with
but beneath the gallery, with which it is connected at one of its ex-

ant

FIG. 80. Elaphidion parallelum : a, larva from
above ; b, from beneath ; /, ligula-like process,
behind the labial palpi ; Ibr, labrum ; mx, maxilla ;
mx', meutum ; ant, antemia. (After Packard.)

172 INSECTS AFFECTING THE ORANGE.

tremities. The short passage connecting the pupa cell with the gallery
is carefully filled with wood dust, firmly packed in place, so that even
when the bark is removed and the gallery exposed to view, the mouth
of the cell remains concealed, and is only disclosed upon the exit of the
beetle. The cell is then found to be broad and shallow, oval in outline,
and lined with a silken layer that is almost invisible by reason of its
delicacy.

The Beetle. In spring or early summer there issues a very handsome
little beetle, broadly oval in form, and about 8 IU1U (-^ inch) in length.
The colors of the body are metallic bronze, greenish below and purple
above. Upon the wing-cases are ten large spots of brilliant emerald
green.

The Larva. The form of the larva is characteristic of the family. It
has the second joint greatly enlarged, forming a broad, flattened disk,
into which the first joint and the small head are sunken, only the black
tips of the jaws appearing beyond the cleft in the anterior border. The
succeeding joints form a tail-like body, which is less than half as wide
as the enlarged joint. In life the body is usually curved strongly to one
side or the other, giving it still more the appearance of an appendage.
The large joint is covered upon both of its flattened faces, with minute,
horny denticulatious, which serve to hold the body firmly against the
smooth walls of the burrow while the jaws are forced into the wood.

The body of the lava is naked, or with scattered and nearly invisible
hairs, soft, white, and without legs. It moves but slowly in its gallery,
and only by means of the contraction and expansion of the enlarged
flattened joint.

The pupa presents no especial peculiarities, and merely outlines the
form and members of the perfect beetle.

Habits and Life-history. The eggs are laid upon the bark of dead
orange branches, and probably also on Hickory and other close- textured
woods. The branches attacked are invariably dead and quite dry, but
still retaining their bark. The larva never penetrates the living parts
of the tree, and will perish of hunger if the supply of dead wooft and
bark is not sufficient for its support. The Iarva3 of different ages are
found during the latter part of summer. Some of them change to pupae
in the fall, while others, after excavating their pupa cells, occupy them
during the winter as Iarva3, and undergo their transformations in the
spring. Of those which pupate in the fall, some become perfect insects
before cold weather, and beetles will be found in the cells as early as
January; they do not, however, leave their retreats until summer
weather has begun. The beetles continues to appear as late as May
and June.

As a scavenger, assisting in the return to earth and air of the dead
and useless material that has been assimilated by the plant, this can only
be considered a useful insect, and certainly one that is incapable of do-
ing any injury to the orange tree, either by causing disease or by direct
loss of wood or bark.

INSECTS FEEDING ON BARK AND DEAD WOOD. 173

THE CYLINDRICAL BARK-BORER.

(Rypothenemus eruditus Westwood.'i
[Plate XIV, Fig. 1.]

This minute beetle is frequently an object of suspicion from its pres-
ence in great numbers in twigs killed by dieback. Jt is 1.6 llim ( T ^ inch)
in length, dark brown in color, cylindrical, and obtusely rounded at
both ends. Under a lens it has a hoary appearance, owing to the short,
stout hairs with which all parts of the body are clothed. On the wing-
cases these stout hairs are arranged in numerous longitudinal rows,
and the interspaces between the rows of hairs are deeply and coarsely
pitted or punctate. The head is directed downwards and is not seen
from above. The declivity of the thorax above the base of the head is
covered with minute tooth like asperities.

The larva as well as the beetle itself feeds upon dry corky wood and
bark of various trees, and upon plants having soft or porous tissues, such
as are found in the Grape and many other vines. They riddle the dead
wood and bark with galleries, and quite rapidly reduce it to powder.

In the Orange their galleries are seldom found in solid wood, but in-
variably occur in the bark and in small twigs when from any cause
they have been deprived of life and become dry. Succulent shoots
killed by frost or disease attract the beetles in great numbers as soon
as they become dry and brittle; but no part of the tree is attacked as
long as it retains its sap or remains moist. The insect is therefore en-
tirely harmless in its operations, and beneficial rather than injurious to
vegetation.

Life-history. The larva of Hypothenemus is a minute white grub,
with a thick and stout cylindrical body, strongly curved, and without
legs or other organs of locomotion, save that by the contractile move-
ments of its body joints, it is enabled to crawl slowly through its bur-
rows. The head is small, and all the parts surrounding the mouth, with
the exception of the pair of stout jaws, are so minute that they can be
discerned only after careful dissection upon the stage of a microscope.

The family Scolytidw, to which this beetle belongs, number in the
United States at least two hundred species,* divided among numerous
genera. All of them have wood boring habits, and members of the same
group resemble each other closely. The Iarva3 of the different species
are for the most part indistinguishable ; the points of difference, if any
exist, are so minute that they have escaped observation.

The pupa is formed in a little cell, walled off from the galleries made
by the larva. It shows the form of the beetle, and is white, turning
brown as it approaches maturity.

The eggs are white, oval in shape, and are scattered by the mother
either singly or in little groups at random in the galleries which she
excavates.

"About one hundred aud seventy species have been described.

174 INSECTS AFFECTING THE ORANGE.

Broods. There does not appear to be any definite number of broods.
The beetles are rather more abundant in spring and early summer, and
the iarvje in midsummer and winter ; but the insect propagates at all
seasons, and its development is only interrupted by frosty weather.*

OTHER BEETLES BOEING IN ORANGE WOOD.

Tn addition to the species hitherto mentioned, which are so frequently
found in the wood of the Orange that may properly be considered a
part of the regular fauna of the tree, there are numbers of other wood
eating Coleoptera, which are less obviously connected with the plant,
but occasionally feed upon it, and have been bred from the dead limbs
and twigs. A few species demand notice.

Two of these, Leptostylus Mustus Lee., and Hyperplatys maculatus
Hald., are closely allied Lougicorn beetles, and belong to a group of
that family, all the species of which are wood- scavengers, feeding only
upon dead portions of plants.

Leptostylus Mustus Lee. (Plate XIV, Fig. 2) is an ash-gray insect, with
a rather broad and flattened body, the upper surface of which is broken
by minute elevated points. The terminal third of the wing-cases is
darker in color, and this darker portion is separated from the remainder
by sharply defined lines meeting in a point upon the center line.
Length, 7.6 mm ( x % inch). The antenna are one- third longer than the body.

The larvae are cylindrical, slightly flattened sawyers, having the first
joint of the body somewhat enlarged; the head is very small, and almost
concealed within the enlarged first joint; color pallid, except the jaws,
which are chitinous brown.

The larva tunnels dead branches the wood of which is not too hard,
or excavates galleries under dead bark of the Orange, filling up the
passage behind it with tightly packed sawdust. It transforms to the
perfect beetle at the end of its gallery, in a cell-like cavity formed by
the movements of the larva in the surrounding mass of loose woody
fragments.

The beetles appear in April and May, and there is a supplementary
brood in September, although the perfect insects frequently remain in
their cells all winter.

Hyperplatys maculatus Hald. (Plate XIV, Fig. 3) is a somewhat smaller
beetle than the preceding, and its form is more slender and flattened.
The color of the body is ash-gray, spotted above with dots of velvet
black, and with, a large splash of the same on each wing-case near the
tip; the legs are black, variegated with red; the antennae are much
longer than the body, and are also variegated red and black. Length,
6 mm (-nnr inch).

In its habits this beetle does not differ from Leptostylus biustus, and
the larvae of the two species resemble each other closely.

* Further notes concerning the habits of this beetle will be found in an article by
Mr. E. A. Schwarz, in the Bulletin of the Brooklyn Ent. Soc., vol. VII, page 84.

INSECTS FEEDING ON DECAYING FRUIT. 175

AmaurorMnus nitens Horn. This is a small, elongate beetle, shining
black in color, and provided with a short beak or snout.

It is not uncommonly found boring in winter-killed twigs of Orange,
or in portions of wood and bark which have been softened and rendered
porous by the action of a wood-destroying fungus. The larva and other
immature stages have never been observed.

The family of the Cossonidce, to which this beetle belongs, comprises
small insects, all of which, as far as their habits are known, feed upon
dead bark, pith, or spongy wood, and fungus. The above species is as
harmless as others of its family. It enters and feeds upon the wood
after all life has left it, and is probably attracted by the presence of a
fungus to the diseased portions which it infests.

INSECTS FOUND IN WOUNDS AND FOOT-EOT SORES.

Bleeding wounds, especially sores in which fermentation of the sap
is taking place, are very attractive to insects of many kinds. It there-
fore frequently happens that some harmless sap-feeding insect is mis-
taken, by those who are ignorant of its habits, for the originator of the
mischief.

A list of insects which through misapprehensions of this sort have
been reported by orange-growers as causing foot-rot, includes (1) Sap-
feeders ; beetles of the families Nitidulidce and Monotomidce, which
live in all stages upon the fermenting sap of plants. (2) Euphoria sepul-
chralis (Fab.), a Lamellicorn beetle, which is not unfrequently found
sipping the sap; and the white, thread-like maggots of small flies, which
almost invariably make their appearance in sour sap. (3) Midas cla-
vatus Drury (Plate XIV, Fig. 4), a large black fly, with an orange- colored
band on the abdomen, which hovers about the diseased spots in order
to prey upon flies, and other insects attracted to the flowing sap. (4)
Scavengers, feeding upon the dead wood and bark; these include besides
the Termites, of which mention has been made in a previous chapter,
several sawyers or Iarva3 of beetles belonging to the Longicorn family,
but of unknown species. (5) A number of minute beetles, Lcemo-
plilceus, LathridiuSj Sacium, Hesperobcenus, and others, commonly found
under the dead bark of trees, after it has been loosened by the gnaw-
ing of wood-eating insects. They are for the most part predatory upon
the other insect inhabitants of these lurking places, and their larvae
may be found pursuing and devouring the young of the wood-scaven-
gers, or even making war upon each other.

INSECTS FEEDING UPON DECAYING FEUIT.

SAP-BEETLES. (Family Nitidulidce.)

Two species of this sap-loving family are so constantly found in rot-
ting oranges, and also in injured fruit, before it has fallen from the tree,
as sometimes to occasion the suspicion that they are responsible for the
splitting of the rind at the time when the orange is maturing. It has,

176 INSECTS AFFECTING THE ORANGE.

however, been ascertained that these beetles only attack the orange
when the rind has been ruptured by accident or disease, or when it is
softened by decay.

Carpophilus mutilatus (Fab.; Plate XIV, Fig. 5) is dull red-brown,
with the disk of the wing-covers lighter; the latter do not reach the end
of the body, and leave the last two joints exposed to view. The length
of the adult is 2.8 mm (ffe inch).

The larva has a rather long, cylindrical body divided into simple
rings or joints ; the color is dull white, vrith the head and first joint of
the body brown ; the last joint terminates in a pair of notched spines or
conical projections toothed at the base.

Epurcea cestiva (Linn. ; Plate XIV, Fig. 6) is shining, uniformly yellow-
ish brown; the wing-covers nearly cover the body, leaving only the tip
of the last joint exposed. The insect is smaller than the preceding;
length, 2.2">' ( T fo inch).

The habits of these two beetles are very similar and they are al ways
found together, although the Epura3a is usually present in greater num-
bers than the Oarpophilus.

In September they appear in great numbers in every grove where
rotting fruit is allowed to remain upon the ground. The active Iarva3,
as well as the perfect insects, soon swarm in the rotting fruit, and being
active in flight, the beetles seek out and penetrate the split or injured
fruit even upon the trees.

They can, however, scarcely be considered injurious insects, as they
are not capable of penetrating the fruit of their own accord, but merely
take advantage of any chance opening to gain admittance to the pulp.
The effect of their attack is simply to hasten by some hours the decay
which inevitably follows any external injury to the rind.

The pupa3 are formed in the earth ; those of rEpurraa just beneath the
surface, and those of Oarpophilus at a depth of several inches. They
occupy small oval cavities made by the movements of the larva.

Development in these beetles is very rapid ; the interval between
broods does not exceed twenty -five days. Of this period, about ten
days is passed as larva and eight or nine days as pupa; the remaining six
or seven days are occupied by the beetles in coupling and ovipositing,
and by the hatching of the eggs.

WINE OK POMACE FLY OF THE ORANGE.

Associated with the two beetles mentioned above is a little pale yel-
low fly of a kind that is familiar to most housekeepers under the name
of u wine fly" or "vinegar fly." It has a rosy-red head and brick-red
eyes ; the joints of the abdomen are bordered above with black. Length
of the fly, 2.6" n (& inch).

The maggots of this fly are found in great numbers in company with
the larvae of the sap-beetles in rotting oranges, through the pulp of

INSECTS FEEDING ON DECAYING FRUIT. 177

which they burrow in every direction and greatly increase the rapidity
of decay.

The maggot is transparent white, with a cylindrical body, thickest at
the posterior end, and tapering to a sharp point at the head ; the body
joints are very prominently ringed. At the posterior end a pair of
projections form the principal breathing organs. The head ends in a
pair of hooked jaws, which have the raking movement common to most
fly larvae. The dark color of the jaws and frame- work which consti-
tutes their base renders them visible through the transparent walls of
the body.

In pupating, the larva enters the earth a short distance, or remains
attached to the under side of the orange as it lies upon the ground.
The larva contracts and its skin hardens, forming a casket-shaped
puparium, about one-third as wide as long. The puparium is chest-
nut-brown in color ; it retains the breathing-tubes of the larva, but
is distended and slightly altered in form by the hardening of all the
parts.

The wine-fly undergoes all its transformations within two weeks.
This rapidity of development is evidently necessary, as the insect is
dependent upon the juices of the orange, not only for its subsistence in
the larva state, but also for the moisture necessary to sustain life in the
pupa.

OTHER SPECIES.

The two beetles and the wine-fly above mentioned sometimes become
annoying pests in the packing-house when piles of decaying fruit are
allowed to remain about the premises, but are easily banished by clear-
ing away the refuse, and maintaining cleanliness. In the grove, if the
dropped oranges are picked up i egularly, and the ground about the
trees kept clean, these insects will rarely make their appearance. If,
through carelessness in this regard, they are allowed to become numer-
ous and infest the grove, thorned and split fruit, which might other-
wise be used for wine-making, will, owing to their attacks, be rendered
useless for this and other purposes, even before it has fallen from the
trees.

Other closely allied beetles and other species of flies are found to in-
fest injured or rotting fruit. Two only can be mentioned at present;
they are

(1.) Smicrips hypocoproides Eeiter, a minute Nitidulid introduced from
the West Indies, but which has become quite abundant in parts of the
southern United States, and is found feeding upon sap and also in rot-
ting cotton bolls.

(2.) Europs pallipennis Lee., a rare Monotomid beetle.

Fruit-eating Ant. A small dark-brown ant, a probably undescribed
species of Lasiua, is sometimes found gnawing the pulp of split oranges
upon the tree. A stream of the ants may be seen carrying bits of the
fruit down the trunk of the tree.
G52I o I 12

178 INSECTS AFFECTING THE ORANGE.

INSECTS IN DRY FRUIT.
BLASTOBASIS ciTRicoLELLA Chambers.

This small moth, belonging to the family Tineidse, is described iii the
Keport of the Commissioner of Agriculture for 1879, p. 207, where the
following note concerning it occurs :

" From a dry orange which was found at Jacksonville, Fla., in the
latter part of January, and preserved on account of its being infested
by a small beetle (Arceocerus fasciculatm), there issued rather unex-
pectedly on March 17 a small gray Tineid moth, which was referred to
Mr. Chambers for determination. * * * " The full description is
given on the same page.

ORANGE-EATING TINEID. 15

Another minute moth of the same family as the preceding (Tineidce)
was bred from the pupa found in a crevice of the rind of a split orange.
The pupa was enveloped loosely with silk, in which were entangled the
droppings of the larva, and was otherwise surrounded with evidences
that the insect had fed upon the dry portions of the rind. The moth
issued early in October acd proved a very handsome insect of dark color,
with scales of lustrous lead-color on the upper wings and body, the sur-
face having a violet sheen. The head and thorax are iridescent dove-
color. On the margin of the upper wing, at its base, is a membranous
flap (costal fold), which can be folded beneath the wing or opened widely,
disclosing a lining of delicate hairs, arranged in three tufts, the lower
one forming, when erect, a rosette of lemon-yellow color ; above this a
tuft of orange yellow, and the upper tuft a pencil of purple hairs.

ARCEOCERUS FASCICULATUS (De G.).

This little brownish beetle is commonly found in dry or blasted bolls
of cotton. It is also said to be injurious to coffee in Brazil. In the Re-
port of the Commissioner of Agriculture for 1879, p. 206, mention is made
of its occurrence in a dry orange. The larva and pupa, as well as the
. perfect insect, were obtained at the same time.

WHITE ANTS (TERMITES) IN FRUIT.

The fruit of the Citron, when growing upon recumbent branches and
when touching the earth, is frequently entered by Termites and entirely
.destroyed by them. Oranges which have fallen from the trees and are
allowed to remain upon the ground are also attacked, but less fre-
.quently than the citron. The Termites feed upon the thick inner rind
of the citron, and upon the membranous divisions m the orange, They

INSECTS FEEDING OX DRY FRUIT. 179

outer the fruit from beneath, through a small perforation made in the
rind. The Termites never ascend the trees or attack fruit which is not
resting upon moist earth. Their appetite for this sort of food is not
very strong, and the loss they inflict cannot be considered serious. If
citrons are attacked the fruit should be raised from the ground or al-
lowed to rest upon a dry support, and the ground around and under the
bushes should be frequently stirred with a rake.

CHAPTER XII.

PEEDATOEY INSECTS.

INSECTS PREYING UPON APHIS.

LADY-BIRDS. COCCTNELLIDJE.

Several species of this family have already been noticed as predatory
upon Scale-insects ; nearly all the species, and they are very numerous,
prey to a greater or less extent upon Aphis. Of the larger forms, which
are familiar everywhere under the name of Lady-birds, four species are
commonly found feeding upon the Orange Aphis in our groves. They
are Chilocorus bivulnerus (Muls.) ;* Exochomus contristatus (Muls ) ;t Cy
cloneda sanguined (Linn.);f and Hippodamia convergens Gue"r. These
have all been mentioned as preying upon scale-insects. Among the
smaller members of this familj 7 are numerous species of the genus Scym-
nus, which prey upon Plant-lice, and most of them are found from time
to time upon the orange trees. The form in Scymnus is rounded and
very convex; the color in most of the species is a somber brown, some-
times relieved with blotches of dull red or yellow. The body is always
hairy. In size the species range from one-tenth to one-twentieth of an
inch in length. They are apt to resemble each other closely, and in some
groups the species are distinguishable the one from the other only on
the closest analysis.

The larva of Scymnus is rather thick and short, the body dark brown,
purple, or black, but entirely covered above with tufts of white wax,
which are easily rubbed off in handling the insect.

The pupa is found within the split skin of the larva, as with the larger
species of Lady-birds.

SCYMNUS CAUDALIS Lee.

In this species the body is black, with the head and parts of the
thorax red ; the end of the body and the legs yellowish-red. Length,
hr inch).

* Black, with two red spots.

t Smaller in size. Red, with two black spots.

t Blood-rod or brick-red, without spots.

$ Orange-red, with five or six spots on each wing-cover.

INSECTS PREYING ON THE ORANGE APHIS. 181

This is the commonest and one of the largest species found among
Plant-lice on the Orange in Florida. Certain other species, almost
equally common, are entirely black, and differ the one from the other
only in size, and in characters too minute for popular description.

The larvae of all the species bear white flocculent tufts, and have no
marks by which the species can be readily distinguished. They are
quite active when disturbed, but are usually seen quiescent in the midst
of the unresisting herd of Aphis, feeding upon the young lice.

They undergo their transformations upon the leaves among the re-
mains of the Aphis colonies destroyed by them and other enemies. The
pupa is held in the split skin of the lar^a, and is dark-colored like the
body of the latter.

SYRPHVS FLIES. SYRPHID&.

Whenever colonies of Aphis are found on the Orange there will almost
invariably be found among them slug-like larvae, which creep about
among the Plant-lice with a leech-like movement, now contracting into
an almost globular mass, and again elongating like the joints of a tele-
scope. The minute terminal joint, which constitutes the head of the
larva, is observed to possess a pair of retractile horny hooks, which
work forwards and back, in and out of the mouth, like a rake. As the
larva advances with a groping motion, for it is quite blind and eyeless,
the outstretched neck and head sweep the surface, and the jaws con-
tinue their raking movement until they strike the body of an Aphis.
Immediately the jaw-hooks grapple their unresisting victim, and soon
through the transparent walls of the body the sucking stomach is seen
pulsating and drawing through the oesophagus in a continuous stream
the green juices of the plant-louse.

When actively engaged in feeding these larvae continue with the
greatest voracity to empty one louse after another, until they have de-
stroyed dozens ot them ; and their bodies, distended with the contained
juices, become translucent green in color. When filled to repletion, the
larva falls into a lethargy, lasting two or three hours ; during which
the processes of digestion change the juices of the body to varying
shades of brown, and dark masses of fecal matter gradually form in
the intestines. The curious changes of color in the semi-transparent
larvae are therefore due entirely to the condition of the body-contents.
Full fed individuals usually have a tinge of flesh color, owing to the
formation of glandular, creamy masses of fat, which have a roseate hue.
When fasting through scarcity of food, the fat is absorbed and the body
becomes dark-brown and opaque. While feeding the larva is translu-
cent green ; while digesting the colors change to olive and brown, with
distinct markings of rectdish brown and black.

Transformations. When full fed the larva attaches itself by means

182 INSECTS AFFECTING THE ORANGE.

of a pair of terminal prop-legs, aided by a viscid secretion which it
voids, and which in drying glues it to the surface of the plant. The
body becomes distended and thickened, losing in length what it gains
in girth. The skin of the larva is not split or shed, but hardens and
forms the puparium, which protects the true pupa within. In the pupa-
riurn the shape of the larva is profoundly altered, the body joints are
obliterated, the anterior end becomes swollen and broadly rounded, and
the form tapers suddenly behind.

The perfect fly issues by pushing off the convex end of the puparium,
which splits at the suture between two of the old larval joints, and re-
leases a circular cap, in the shape of a watch-glass.

The duration of the egg and larva periods in these Aphis-eating flies
is short; the egg hatches in -forty-eight hours after it is laid, and the
larva becomes full grown and forms its pupa in five or six days. About
ten days, the average time with insects having many broods, are passed
in pupa. The reason of this extremely rapid development in the first
two stages, the egg and larva, becomes obvious when we consider how
brief is the existence of the Aphis itself, and how suddenly its col-
onies appear and disappear; for the life of a colony of Aphis is also
very short. Upon the Orange the Aphis can feed only upon the very
tender young leaves; in a short time these harden, and then the colony
must scatter; but frequently, long before that time, their numbers are
reduced almost to extermination by enemies and parasites. As the
Syrphus larvae cannot follow the winged insects, they must make the
best of their limited opportunities and feed quickly or perish of starva-
tion. It is curious to mark how nature in the case of these insects has
responded to the necessities of the situation and given their Iarva3 rest-
less activity, great rapacity, and destructive powers, notwithstanding
their slow locomotion, and also a remarkably brief egg period, so that
this wingless, blind, and almost legless maggot is enabled to compete
with more perfectly organized rivals in the food struggle which takes
place over every. Aphis colony.

Broods, &c. The Iarva3 of these Syrphus flies feed only upon Aphis
and depend upon them for their existence. They therefore appear and
disappear with the colonies of the latter, and the broods may be sup-
posed to follow rapidly one upon another during the seasons of growth,
when the appearance of new shoots upon the Orange gives support to
numerous colonies of Aphis.

The seasons of growth in the Orange, after the renewal of the foliage
in the early spring, depend in a great measure upon the prevalence of
rains and vary from year to year, but are usually three or four in num-
ber during the year. The colonies of Aphis and likewise their Syrphus
enemies are most abundant in June and September.

Three representatives of the family Syrphida? are found among Aphis
on the Orange. They belong to the genus Baccha.

INSECTS PREYING ON THE ORANGE APHIS.

183

THE FOUR- SPOTTED APHIS-FLY.*

(Baccha babista Walker.)
[Figs. 81, 82 and 83.]

This is a rather slender fly, with a large, well-rounded head, and a
club shaped hind body, supported on a slender stalk or peduncle; the
eyes, which cover the greater part
of the head, are mahogany -brown;
the thorax black, with a metallic
luster, and with a golden-yellow
shield ; the wings are transparent;
the clab of the abdomen brown,
marked with four pale triangular
spots. (Fig. 81.) Length, 10 mm
(A ich).

FIG. 82. Baccha babista, larva.
(Original.)

FIG. 81. Baccha babista, adult. (Original.)

The larva (Fig. 82) has a cylindrical body, ^greenish, with a longitud-
inal band of dull red on the back; the joints, about equal in size, ex
cept the first three, which are tapered, and form a re-
tractile neck ; the surface is covered with very short,
stiff hairs, giving it a velvety appearance ; each joint
of the body is armed with a row of soft spines above
and a pair of fleshy prop legs below.Length, when at
rest, 7.5 min (-^ inch).

The puparium, or chrysalis (Fig. 83), has the form
of a cone, with one side flattened and fastened to the
surface of the leaf; the large end is broadly rounded,
convex; the color varies from dirty white to dull yel-
low, and there are more or less distinct cross-shaped
markings upon the back; the spines of the larva shrink
to minute prickles on the puparium.

The eggs are elongate-oval, brilliant white, the surface marked
with diamonds by obliquely intersecting engraved lines. They are
deposited by the parent fly singly upon the leaves among Plant-lice.

Parasites. Minute Chalcid parasites prey upon the Syrphus larva,

FIG. 83. Baccha ba-
bixta, puparium:

a, doi'8Jil view;

b, lateral view.
(Original.)

* This very common species has been described by Mr. Ashinead under the name
Conopsl quadrimaculata. (Orange Insects, page 69.)

184 INSECTS AFFECTING THE ORANGE.

and issue from the puparium, in numbers varying from six to eighteen,
through a number of small holes which they gnaw in its top and sides.
They are from l mm to 2 mm in length, and have the dark bronze and
metallic colors with hyaline and iridescent wings so common in this
family (Chalcididce).

THE DUSKY- WINGED APHIS-FLY.

(Baccha lugens Loew.)
[Fig. 84.]

Another species of Baccha, scarcely less common than the preceding,
has a more leech-like larva, in form flattened and dilated behind, but
with the anterior joints lengthened into a very mobile and extensile
neck. The surface of this larva is nearly smooth, without the spines or

velvet hairs of the first species. In color
the larva is dark, inclining to purple when
not feeding, with cream-colored blotches,
tinged with pink. The length in repose
is about 8 mm (fe inch).

The puparium (Fig. 84) is dull brown,

FIG. 84 Baccha lugens, puparium. gourd-shaped ; the anterior portion greatly

inflated and behind suddenly flattened and

contracted to form a sort of handle. The terminal spiracles of the larva
are seen at the tip of the handle-like abdomen, where they form a pair
of wart-like prominences.

The fly does not differ greatly in form from the preceding; it has eyes
of brighter red, and the wings are distinctly clouded with spots of brown ;
the thorax less shining, dark bronze; the shield (metathorax) dark
bronze, like the thorax; abdomen thicker, less broadly dilated at the
end, uniform brown in color. The size of the imago varies greatly, from
8 mm (-*<& inch) (small males) to 12 mra (& inch) (large females).
The egg is indistinguishable from that of Baccha babista.

THE RUDDY APHIS-FLY.

(Baccha cognata Loew).

A third species of this genus is found in company with the preced-
ing species preying upon Aphis, sometimes upon Orange, but more fre-
quently upon different kinds of Plant : lice found on herbaceous plants
and weeds of the garden. In this species the form of the fly and its
larva approach closely to that of B. lugens, but they are somewhat more
slender and smaller than either of the preceding species. In the per-
fect fly the color of the eyes is mahogany-brown ; the thorax black, not
shining; the wings densely clouded with red- brown; the abdomen dull
red, and very slightly dilated at the tip.

INSECTS PREYING ON THE ORANGE APHIS.

185

FTQ. 85. The
Pruinos*
A p h i a - fl y,
larva. (Orig-
inal )

Larva. The maggot has the form and smooth surface of B. lugens,
but is more transparent and lighter in color, yellowish-green and white
predominating.

THE PRUINOSE APHIS-FLY.*

[Figs. 85 and 86.]

A very common enemy of the Orange Aphis is a small two-winged
fly. Its young is a greenish, slug-like maggot, 3 mm (Jfo inch) in length ;
the body is flattened beneath, convex above, with two deep longitudinal
furrows on the back ; the joints of the head and neck are
small and tapering, as in the larva of Syrphus, and can be
greatly extended or entirely withdrawn into the body; the
body behind is rather broadly rounded ; from the upper
surface near the hind margin arises a pair of diverging
appendages like the horns of a snail ; the ends of these
appendages are open pores, and the apparatus constitutes
the principal spiracles, through which the animal breathes ;
the surface of the larva is roughened with minute knob-
like excrescences.

When ready to transform into pupa, the larva glues it-
self to the surface of the leaf by means of a black gum.
The body of the larva shortens and thickens, becomes oval
in shape, and assumes a golden-brown color, the breathing tubes are
now very prominent, the lateral furrows of the larva are not obliter-
ated, but divide the puparium into longitudinal lobes, and appear as
broad bands of darker color upon the surface of the casket.

When vacated by the fly the puparium splits in a ring near the an-
terior end, releasing the tip in the form of a conical cap the cap also
splits across the middle, dividing into
two valve-like halves, only one of which
is usually thrown off by the fry in its
exit.

The fly (Fig. 86) is a small, thick
bodied insect, about 2 mra ( T Q inch) in
length, with deep purple eyes, transpa-
rent wings, and particolored legs; tho
body is bluish-white (pruinose), with
sparsely placed black hairs ; the upper
surface of the thorax is marked with
four longitudinal stripes of umber-
brown. The egg is white, elongate oval, with fine longitudinal lines ; it
is fastened to the surface of the leaf among the living Aphis.

Transformations. What has been said of the habits and transforma-

*Dr. S. W. Williston writes concerning this species: "They are evidently An-
thomyida, but I cannot place them in any of the European genera. I am acquainted
with a number of the Authomyid genera, but this species differs from any I know iu
the few bristles on the head and faqe."

Fio. 86. The Prninose Aphia-fly.
inal.)

(Orig-

186

INSECTS AFFECTING THE ORAXGE.

tions of the Aphis-eating Syrphus-flies will apply equally to this insect,
and it is found in company with them not alone upon the Orange, but
among various species of Aphis on other plants as well.

Parasite. A minute Hymenopterous fly (a Pteromalid) 16 attacks the
larva and issues from the puparium through round holes eaten in its
side. Two specimens of the parasites were bred from a single puparium
of the fly. They issue in September.

FIG. 87.Polistes americanus.
Comstock.)

(After

OTHER PREDATORY INSECTS FREQUENTING THE ORANGE.

PREDATORY WASPS.
POLISTES AMERICANUS (Fabr.).

[Figs. 87 and 88.]

This large red wasp is fond of making its home under the dense foliage
of the orange tree, and suspends its comb of paper to the branches.

It is a large species, and its sting is
equal in severity to that of the-white-faced
hornet. Fortunately, it is not an irritable
wasp, and is little inclined to use its
weapon, except when its nest is attacked.
Like most insects of its kind this wasp
is carnivorous, and to a great extent preys
upon caterpillars and soft-bodied insects.
With these it feeds its young, first masti-
cating the food into a pulpy ball, in order
that it may readily be swallowed by its
young, which are not provided with horny jaws, and then presenting it
to the latter in their cells in much the same fashion that a bird feeds
its nestlings. Not only the grubs are fed in this way, but also the young-
wasps which have recently issued from the pupa, and
which do not for some time leave the nest or take part
in the labors of the colony.

The nest consists of a single comb or layer of cells,
which is increased in size by the addition of new cells
around the edges until it sometimes attains the diam-
eter of 10 or 12 inches. The comb is not protected by
a covering of paper, as in the nest of a hornet, but
the cells are built with the mouth downwards, and
the back of the comb is made very thick and strong,
so that it sheds water.
The wasps make their comb of wood masticated to a pulp. They may
be seen gathering for this purpose from fence rails and uupainted wood
surfaces the fibers beaten out by the action of the weather. The leaf-
rolling caterpillars which injure the buds and- tender shoots of the Or-
ange form a very considerable portion of the food of all colonies of Pol-

FIG. 88. Pollutes nest
in spring. (After
Riley.)

PREDATORY INSECTS FREQUENTING THE ORANGE. 187

istes which have established themselves in the vicinity of orange groves.
Numerous other insects are also destroyed by them. The orange-grower
should not, therefore, be concerned to find them building their nests in
his orange trees, and it is greatly to his interest to allow them to remain.
The ordinary operations of cultivating and pruning rarely disturb these
insects, who pay no attention to the methodical movements of the hor-
ticulturist, and only resent a direct attack. Before the time for gather-
ing the oranges the nests are usually deserted by the wasps and the
colonies dispersed, for they do not continue to breed during the winter
months even in Florida.

THE VASE-MAKER WASP.

(Eumenes fraterna Say )

[Fig. 89.]

This is also a useful predatory wasp, and is never known to use its
sting unless caught and held in the hand. It is -^ inch in length-; the
color is black with white markings. The abdomen is borne on a slender
stalk or peduncle, and forms a rounded knob, prolonged at the extrem-
ity in a rather blunt point. Each
side of the swollen portion of the
abdomen is marked with a white
spot.

The female of this wasp is sol-
itary and makes single cells of
mud and sand, which she attaches
to various plants, and not infre-
quently to the twigs of orange
trees. These mud cells are almost
spherical, about three-fourths inch.

FIG. 89. a, the Vase-Maker Wasp ; &, nest ; c, nest

111 diameter; the Walls are thin showing interior stored with caterpillars. (After
, ~ ., ' , . Kiley.)

and fragile; they have an opening

which is provided with a projecting lip or ring and the structure re-
sembles a globe-shaped flask, with a very short neck. Within the cell
the female deposits a single white egg. She then packs it with small
caterpillars, each of which is paralyzed and rendered helpless by a stab
from her sting, and seals the opening with soft mud.

Each female constructs a number of cells, but scatters them about,
seldom placing more than one or two in the same place. When filled
and sealed up they are abandoned. The grub of the wasp feeds upon
the caterpillars stored for its use ; when all are consumed it forms its
pupa within the cell, and in due course of time issues as a perfect in-
sect, removing with its jaws the earthen stopper of its doorway.

Broods. There are broods in spring and fall. The summer months
are passed as pupae, anjl the winter as perfect insects.

188 INSECTS AFFECTING THE ORANGE

Parasites. This wasp, in common with many other cell-making Hy-
menoptera, has an enemy which destroys the grub and occupies its
place within the cell, issuing in its stead through a round hole made in
its side. This parasite is a brassy-green Cuckoo-bee belonging to the
genus Chrysis. It is remarkable for its bright metallic green or blue
color, hard texture, and coarsely pitted surface, and the peculiar form
of the abdomen, which is abruptly truncate behind and hollowed from
the under side and is capable of folding over upon the head and breast,
protecting the members in its hollow under surface, and making of the
insect almost a compact ball. This position the insect is apt to assume
when captured or disturbed. The perfect insect is ll mm in length
(-^Q inch) when fully extended. 17

Other parasitic Hymenoptera have been bred from the cells of this
wasp, but some of them (Braconidce) are parasitic upon the caterpillars
stored as food by the wasp, and not upon the young of the wasp itself.
The eggs of these parasites existed in the bodies of the caterpillars be-
fore they were captured and placed in the cells by the mother wasp,
and it is noteworthy that such parasitized caterpillars are not eaten by
the wasp-grub; probably because they are soon destroyed by their in-
ternal enemy, and their bodies rapidly become too hard and tough for
the weak jaws of the wasp-grab. It is also to be remarked that the
poisoned sting of the wasp while paralyzing the caterpillar, does no in-
jury to its internal parasite, but the latter completes its transformations
as well shut up within the tightly sealed cell of the wasp as under nor-
mal conditions in the open air. The parasite fly, having cut its way
out of the hardened skin of the caterpillar, finds itself still inclosed
within the wasp cell, the walls of which it is unable to penetrate, and
it therefore remains imprisoned until released by the exit of the wasp,
for the presence of the caterpillar parasite in its cell in no way inter-
feres with, the transformations of the latter.

THE CAMEL-CRICKETS OB SOOTHSAYERS.

These are large insects, with attenuated bodies and long, slender
legs, the first pair of which are elbowed and provided with sharp spines
and hooks for capturing and holding their prey. The latter consists of
insects of any sort, not protected by too hard a shell or other covering,
but chiefly of flies and soft-bodied active larvaB. The camel- crickets do
not molest Bark-lice, or other sedentary insects, and do not prowl about
or spy into hidden places in search of food, but lie in wait for their
prey, taking only that which comes within their reach; or they creep
cautiously and slowly upon any small moving object which their keen
and watchful eyes discover in their vicinity. When within reach of
their prey, they seize it with the rapidity of lightning, and hold the.
struggling victim firmly clasped between the spines and grappling
hooks of their fore legs. \ *' v

PREDATORY INSECTS FREQUENTING THE ORANGE.

189

Their manner of feeding is very unlike that of other insects, and re-
minds one of a monkey eating fruit j they appear to masticate their food
very deliberately before swallowing, biting off a piece from time to time,
while they hold it in their claws.

The head swings upon a very mobile neck, and can be turned so far to
the side as to look almost directly backwards over the shoulders. Their
quick movements betray an alertness, in striking contrast with the
feigned sluggishness of habit. This evidence of watchfulness, while
the insect, with fore-arms folded, and claws clasped in the attitude of
prayer, remains motionless and apparently absorbed in meditation,
gives an irresistably comic air of hypocrisy to its actions. These pecu-
liar habits were well known to the ancients, for the group is represented
by numerous species in many parts of the world, and they early received
the name Mantis (prophet, or soothsayer).

MANTIS CAROLINA.

[Figs. 90 and 91.]

This, the largest of our species, is not very abundant in Florida, but
is sometimes seen upon orange trees, catching every moving insect that
comes within the reach of its claws. It is yellowish green in color, and

FIG. 90. Mantis Carolina : a, female; b. male. (After Eiley.)

about two inches in length. It has wings in the adult state, which
somewhat resemble folded leaves ; each fore-wing bears a brown spot;
in some exotic species the center of this spot is transparent, and resem-
bles a hole eaten in the leaf by some insect. There is but one brood
each year. The young hatch in early summer and complete their growth
in the latter part of the season. The large egg-masses are glued to the

190

INSECTS AFFECTING THE ORANGE.

twigs of trees ; they are elongate, irregularly oval, about an inch in
length, and contain forty or fifty eggs. The eggs (Fig. 91) occupy flat-
tened cells placed -in two ranks, alternating with each other; the cluster
of cells has a braided or woven appearance, but consists simply of a con-
tinuous ribbon of mucus folded in close flutiugs, and having an egg
deposited in the bight or angle of eacli fold. The eggs are deposited
simultaneously with the deposition of this ribbon by the
mother insect, and the whole mass is at first soft and
flexible, but rapidly hardens by exposure to the air.

MANTIS MISSOURIENSIS ?

In this species the body, though over two inches long,
is but little thicker than a darning needle ; the legs are
very long and so slender that they seem hardly compe-
tent to sustain the weight of even so meager a body.
The extreme attenuation of all its parts, and the light
brown color of the insect, afford it protection from en-
emies, and enable it to advance unnoticed upon its prey.
Its ghost-like form is difficult to detect upon plants, and
it has the appearance of a straw caught in spiders'
webs, an illusion which the insect with apparent design
strengthens by frequently giving to its body a swaying
motion as if vibrated by air currents.

This species is very common, and is frequently seen
upon the Orange as well as upon other plants. It has
a spring and fall brood. The egg-masses are brick-red
in color, about half an inch long, and flattened upon the
sides. They are usually deposited between the folds of
a dry leaf or in crevices of the bark. The structure is
the same as in the preceding species, but the cells are
more distinct and regularly placed. The food of this Mantis consists
chiefly of small flies, and neither this nor the preceding species are of
much importance to the cultivator of plants, since they do not at all dis-
criminate between his friends and foes, and do not seek out or destroy
the more insidious enemies which lurk in hiding places, or those which
protect themselves with a covering or scale.

FIG. 91. Eggs of
Mantis Carolina.
(After Riley.)

SOLDIER-BUGS.

Among the true bugs (Hemiptera) are numerous predatory species, of
which not a few frequent the orange trees. It is not easy to distin-
guish the predatory from the plant-sucking kinds, and, indeed, in some
instances, the same bug has both habits. The most noteworthy in-
stance of this is iu the case of Raphigaster hilaris, already noticed in
Chapter IX, This species, on occasion a very destructive pest of the
plant, is at other times a useful iuSeet, killing au4 sucking the juices of

PREDATORY INSECTS FREQUENTING THE ORANGE. 19 L

plant enemies, particularly the leaf-eating caterpillars. Others of the
Soldier-bugs feed upon the juices of the plant for a short time after
hatching, and afterwards live exclusively upon insects.

The most rapacious of the bugs belong to the family Reduviidas, and
have the head well separated from the body by a more or less slender
neck ; they possess a stout, curved beak and long legs, well fitted for
rapid movements. Many of these species bristle with spines, especially
in the younger stages, and the usual colors are dark brown variegated
with red.

THE SPIDER-LEGGED SOLDIER-BUG.

(Leptocorisa tipuloides Latr.)
[Plate VI, Fig. 4.]

This species has already been discussed among the enemies of Bark-
lice (see Chapter VI). It is very commonly seen upon the Orange, and
frequents, often in great numbers, trees infested with Lecanium Scales,
and not only sucks the juices of the Bark-lice, but also captures ants
and other insects which are attracted by the lice.

This predaceous bug should not be confounded with the plant-sucking
Red bug (Dijsflcrcus suturellus), which does injury to the fruit. In Lep-
tocoris i the form is slender ; the body seven-tenths of an inch long and
the legs longer than the body ; the colors are orange and black.

The stouter form and deep red color of the Red-bug render the two
species distinguishable at a glance.

Leptocorisa must be classed among beneficial insects, sinc.e it feeds to
some extent upon Plant-lice and Bark-lice ; but, like many predatory
bugs, it captures and destroys indiscriminately the friends as well as
the foes of the plant. Possibly at times it subsists almost entirely upon
the honey-dew ejected by Plant-lice. Acids as well as sweets appear
to be suited to its taste, and it is one of the few insects known to' prey
upon ants, the juices of whose bodies are strongly flavored with formic
acid.

The following soldier-bugs form part of a great army of pmlaceous
insects which frequent the orange tree, but have no very
close connection with the plant or its especial fauna.

THE RAPACIOUS SOLDIER-BUG.

(Sinea multispinosa, De Geer.)

[Fig. 92.1

FIG. 92 Sinea mul-

Colors brownish, with a red stripe along the upper ttspinosa. (Alter
surface of the abdomen. The body is slender, but less
so than Leptocorisa. The young bugs are said to feed upon Plant-lice j
the atUiltSj boweyer, attack insects of large size.

192

INSECTS AFFECTING THE ORANGE.
THE WHEEL-BUGr.

(Prionotus cristatusj Linn.)
[Fig. 93.]

FIG. 93. Prionotua cristatut. (After Glover.)

This large bug is not uncommon in orange groves. Its body and legs
are covered with a coat of very fine, close down, giving it an ash-gray
color 5 the thorax rises in a semi circular ridge, which is provided with
short, projecting spines, regularly placed, like the teeth of a cog-wheel ;
the head is small, but is armed with a powerful beak, which is capable
of giving a poisonous stab, more painful to man than the sting of a
hornet.

Mr. Glover, in the Eeport of the Commissioner of Agriculture for
1875, gives an extended account of this insect, a? , v^iows that it is very
voracious in all its stages ; the young prey upon Aphis and other small
or soft-bodied insects, and after paralyzing them with their deadly sting
suck and empty them of their juices.

The eggs are urn-shaped, as shown in the figure, and are deposited in
large clusters, firmly cemented to each other, and placed in all sorts of
situations, but usually upon some firm support, su,ch as the trunk of a
tree or the side of a building, or fence rail.

The young wheel bugs are bright red with black markings.

The Green Soldier-bug (Raphigaster liilaris Fitch), the two species
of Metapodius (M. femoratus, and M. terminalis), with the closely allied
species, Euthochtha galeator Fabr., have already been noticed as partly
plant-feeding, but with rapacious habits also.

INNOXIOUS INSECTS FREQUENTING THE ORANGE. 193

INNOXIOUS INSECTS.

CASE-BEARERS ON ORANGE.

The trunks of orange trees are favorite feeding-grounds for the larvae
of several small moths of the family Tineidre, which protect their bodies
with cases formed of fragments of their food material. In the case of
those species which are met with upon orange- tree trunks the food con-
sists of lichens or other minute cryptogams found growing upon the
bark.

A very common species belongs apparently to the genus Goleophora.
Its case is dull white, about the size and somewhat the shape of a grain
of oats; it is rather smooth outside, and seems to be formed of finely
comminuted bark.

THE ORANGE CASE -BEARING TINEID.

(Coleotechnites citriella Chambers.)

This species was first made known in the Keport of the Commissioner
of Agriculture for 1879, which contains the following account of its
habits. Mr. Chambers 7 descriptions of the genus and species will be
found in the same report, page 206 :

"At Manatee, Fla., in the latter part of April, I found upon the trunk
of an orange tree the case of a Tineid larva. This case was rather slen-
der, ll mm (.43 inch) long, and rather pointed at the hinder extremity.
It was dark gray in color, resembling the bark upon which it was found,
and was apparently composed of small bits of lichens and excremental
pellets, with much gray silk. The moth issued March 6, and upon be-
ing referred to Mr. Chambers proved to be a new species representing

a new genus."

BARK CLEANERS.

Among the host of harmless insects that from time to time make their
appearance upon the orange tree, there is a group of scavengers that
frequent the trunks and assist in cleansing the bark, by devouring the
fungi, molds, or excreta of other insects that befoul its surface. Of
these the most conspicuous examples are certain nerve- veined insects
(Neuroptera) belonging to the genus Psocus.

Psocus VENOSUS Burm.

The adult of this species is smoky-brown ; head dark bronze ; an-
tenna dusky, lighter at the base, densely hairy in the male; thorax mar-
gined with yellow ; fore-wings almost black, the three basal veins yellow,

194 INSECTS AFFECTING THE OEANGE.

with a triangular spot of yellow color (pterostigma) near the margin
toward the tip j hind-wings smoky, hyaline ; feet yellowish, with dusky
tips ; length 5 mm to 8 mm (-& to &- incl O-

These little animals are seen upon the trunks of orange trees in flocks
numbering from a dozen to forty or fifty individuals. They feed in
companies and browse upon the lichens which they cleanly remove from
the bark, leaving a clear space behind them. The colonies consist of
one or more families and include individuals of all ages, the wingless
young herding with the adult insects.

The adults, although winged, do not readily take flight. When
alarmed the troop huddles together for mutual protection like sheep,
but if directly attacked, or when seized with a sudden panic, they scatter
in every direction and run nimbly over the bark, with which their drab
colors harmonize so closely that they are not easily distinguished upon
its surface. If left undisturbed, the herd in a short time reassembles
and quietly resumes its methodical attack upon the lichens.

The eggs are oval, glistening white ; they are laid upon the bark in
batches of 15 to 30, deposited on end in several rows obliquely overlap-
ping each other, and the batch is protected by an oval, convex shield of
comminuted wood which surrounds and adheres closely to the eggs.

The females watch their eggs, and as soon as they are hatched lead
their young ones forth to pasture.

This delicately organized insect is fond of shade and moisture and is
most commonly seen in densely- shaded groves and old gardens. It is
not restricted to the orange, nor is it compelled to live upon plants
alone ; it may thrive on walls or fences, wherever lichens grow. The
smooth bark of the orange, when conditions favor the growth of fungi,
affords excellent pasturage to this Psocus and it frequently becomes
very abundant.

It is hardly necessary to point out that to the extent of its feeble
powers this is a useful insect, and its presence should excite no alarm.
Psocus venosus is more distinctively a northern than a southern insect
and does not inhabit the extreme southern portion of the orange dis-
trict in Florida. The adult insects hibernate and begin breeding early
in the spring.

THE ORANGE PSOCUS.

(Psocus citricola Ashmead.)

This is a smaller species than the preceding. Length 2.5 mm to 3 mm
(TOO- to TO^O inch). The color is white or pale yellow; the adults have
very transparent, hyaline wings. At all ages the semi-transparent
body shows the color of the intestinal contents, which varies consider-
ably with the condition and nature of the food. This consists of the
wax and other soft excretions of Bark-lice, of honey-dew, and probably

INNOXIOUS INSECTS FREQUENTING THE ORANGE. 195

also of minute fuugi or their spores, which germinate on leaves and
bark infested with insects.

The eggs are pearly-white and are laid in hollows upon orange leaves,
in clusters of ten or twelve, tightly covered with a shield of black ex-
cremeutitious matter. Over this is stretched a light canopy of web, in
which are entangled a few minute black grains of excrement. The ex-
treme transparency of the egg envelopes as well as of the animal itself
affords an unusually favorable opportunity for the study of the changes
that precede its birth.

Just before hatching the embryos lie with their backs to the surface
of the leaf and are not curled in the egg, but the head only is bent over
upon the breast. As the egg-shell is absolutely transparent and the
embryo very nearly equally so, all internal changes of form can be
plainly seen.

In hatching, the first movement seen is the formation of air bubbles,
which pass in rapid succession between the mouth organs aud collect
in a larger bubble within the head of the embryo. From time to time
this larger bubble passes through the constriction of the neck and dis-
appears in the body cavity. The head of the embryo gradually swells,
elongates, and distends the elastic egg-shell at the end, until this finally
bursts and the young insect protrudes its body, curving upwards and
forwards.

Air continues to pass through the neck into the abdomen, which be-
comes greatly distended and elongated, showing the segments. A mus-
cular movement not connected with the passage of the air bubbles is
seen in the frontal part of the head and the occiput is frequently drawn
inwards, forming a deep depression.

The bursting of the first larval skin was not witnessed, but it evidently
takes place soon after the abdomen is fully distended. The larva re-
mains for many hours in an erect position, with the tip of the body
clasped by the egg-shell and the cast larval skin. The head, at first
elongate, becomes transverse and there is a general contraction and
change of form in all the parts.

After the larva has freed itself from the ^egg-shell and envelopes, the
abdomen is gradually contracted by the exertion of considerable and
long-continued muscular effort and changes from a cylindrical to a cor-
date form.

The process of hatching occupies several days, and the young, as we
have seen, make their entrance into the world, like a marsupial, in a
somewhat rudimentary condition.

The Orange Psocus lives chiefly upon the leaves of plants, associated
in small flocks or families. It passes the greater part of its life hiding
under the canopies of web erected over the egg-clusters. Here the
mother awaits the appearance of her brood, and here the young insects
cluster, sallying forth from time to time with the adult in search of
food.

196 INSECTS AFFECTING THE ORANGE.

The species breeds continuously in summer and some eggs are hatched
even in winter. The adult insects hibernate in protected places, but
are more delicate than their northern relative and probably do not
extend beyond the region in which the Orange is grown.

The operations of this Psocus are apparently of trifling importance ;
it is, however, one of the commonest of orange insects and as such at-
tracts considerable attention.

APPENDICES.

APPENDIX I.

THE ME ALT BUG AT OEANGE LAKE, FLORIDA.

[Extracted from a letter by Jos. Voyle, Gainesville, Fla., June 12, 1884. Reprinted
from Bulletin 4, Division of Entomology, U. S. Department of Agriculture, p. 85.]

Having business near Orange Lake during the past week, I visited several orange
groves. I found all of the Florida varieties of Scale-insects in abundance. Oranges
are already rusty, and the Rust-mite in many places, on both leaves and fruit, in such
large numbers as to give a distinct coloration, distinguishable at a distance of ten
feet.

But the most destructive insect, at present absorbing all the attention of the orange-
growers there, is the Mealy-bug, Dactylopiua destructor* This insect causes the fruit
to rot under the colonies. A favorite place of lodgment is at the stem, under the
calyx ; the result is, the fruit drops.

I staid there three days to examine methods used and experiment in their destruc-
tion.

The cotton y armor repels all watery solutions.

The methods used are : spraying each separate colony with pure kerosene by means
of bellows atomizers; and mechanical action rubbing or pinching each separate
colony (by colony I mean the little clusters consisting of from ten to several hundred
individuals) ; this is done by the fingers.

I examined the trees that had been treated with the kerosene spray and found both
the leaves and fruit spotted yellow. I was also informed that fruit saved in this way
two years ago was useless, having absorbed the odor of kerosene. The effective
progress made by the means used is trifling, in consideration of the work to be done.
I tried experiments with solutions of murvite sprayed on, but with no good result ;
then tried kerosene butter, using thick; milky solution of murvite, which combines
in exactly the same way as with cow's milk, and found that an effective emulsion
could thus be made.

After using and watching the action of this for some time, I saw that the interior in-
sects of a dense mass were protected by the exterior ones ; further experiments were
made to meet this difficulty. By watching the men at work I saw that nearly every
infested orange was handled to turn all of its sides to the eye ; that wherever a large
colony found lodgment in a fork of twigs or in a depression of the bark they were
handled, also that the bunches of Spanish moss (Tillandsia) formed formidable breed-
ing places. All of these require force for their dislodgment.

A strong stream of water was tried and proved effective, but laborious, and the in-
sects falling to the ground were not killed.

Experiments with solution of murvite, made under a microsocope, showed that in
all cases where the solution came into actual contact with the skin of the insect the
bug was instantly killed. Acting upon this and the knowledge gained by previous
observation and experiment, I tried the effect of a fine, solid stream issuing under
pressure, using a solution of murvite, one part, to water two hundred and fifty parts.

197

198 INSECTS AFFECTING THE ORANGE.

The results were excellent ; the solution heing forced into the colonies broke them up,
and coming into contact with the insects killed them, the method of working being
one man at the pump, another to guide the stream. The apparatus improvised be-
ing badly adapted to the purpose is very awkward. The work, although about four
times as fast as with the bellows atomizer, is not adequate to the economical require-
ments. This method has the merit of no loss by damage to fruit or leaves by the ma-
terial used ; the waste, falling on the leaves and branches, will exterminate both scale -
insects and rust-mites, these being plentiful, but neglected in the presence of the more
pressing necessity of saving the growing crop from destruction by the Mealy-bug.

APPENDIX II.

EXPERIMENTS WITH INSECTICIDES.

[In part a reprint of matter published in the Report of the Entomologist, Annual Re-
port of the Commissioner of Agriculture for 1881-'82. pp. 120-126.]

TABLE I. KEROSENE EMULSIONS.

In Table I are given the results of seventeen experiments with kerosene in milk
emulsions of varying strength. When the percentage of Coccids killed is given, this
was obtained by cutting twigs, leaves, and portions of infested bark from all parts of
the tree, and examining microscopically. in the laboratory large numbers of the scales
upo n them. Under the head of young Coccids are included all those which have
well-formed scales but have not begun to lay eggs. The youngest Bark-lice, or
those which have not yet molted, were almost invariably killed, and are not included
in the enumeration.

'The percentage of young Coccids killed is given separately, including under this
head all ages between the formation of the permanent scale and the appearance of
eggs, but no larvaB before the first molt ; the latter were in nearly every case all killed.
Of scales which contained eggs three classes were examined and the percentage of
each obtained: (1) Scales in which a portion only of the eggs were destroyed; (2)
Scales in which all the eggs were killed ; (3) Scales in which no-eggs were killed.

Purple Scales (Mytilaspis cilricola) were not abundant, but appear to be somewhat
less readily destroyed than Long Scale. All the experiments were made upon young
orange trees from three to six years old. An Aquapult pump of medium size was
used, and in each case the trees were sprayed from the ground and on four sides.
Where the trees were more than eight or ten feet in height the upper branches did
not receive the spray with sufficient force, and show in some cases a smaller percent-
age of Bark-lice destroyed than the lower portions of the same tree. For full-grown
trees a larger pump is needed, and the apparatus should be placed in a cart or other-
wise raised above the ground when used.

The emulsions used were made as follows :

No. 2. Kerosene, 1 pint ; sour cow's milk, 2 fluid ounces, dashed with a ladle ; 2
drachms of powdered chalk were first added to the milk, and 2 ounces water during
the stirring.

An imperfect emulsion, not readily suspended in water.

No. 3. Kerosene, I quart ; solution of condensed milk, 3 parts ; water, 5 parts, 12
fluid ounces.

Emulsion made by spraying through the Aquapult pump and back into the pail.
Stable, and readily suspended in water.

No. 9. Kerosene, 1 quart ; condensed milk, 12 fluid ounces, diluted with water, 36
ounces ; emulsified with the Aquapult.

No. 10. Kerosene, 25.6 fluid ounces ; condensed milk, 4.8 fluid ounces ; water, 14.4
ounces; emulsified with pump.

No. 11. Kerosene, 2 quarts ; condensed milk, 12 fluid ounces (1 can) ; water, 20
ounces; with pump.

No. 13. Kerosene, 2 quarts, 4 fluid ounces ; condensed milk, 12 fluid ounces ; water,
24 ounces; with pump.

199

200

INSECTS AFFECTING THE ORANGE.

TABLE 1. Kerosene emulsions.

Bark, leaves, and twigs of lower branches.
Thorns from upper branches. November 10, a few gravid females still
living, also 4 few young scales forming from eggs recently hatched.
Second application effectively cleared the tree of scales ; only an oc-
casional gravid scale found alive on upper branches.
No appreciable effect upon eggs or mature coccids.
Thickly infested bark of lower limbs. Upper branches give variable
results.
Bark, twigs, and leaves from all parts. Prolonged examination ; not a
living .coccid or egg can be found. Mites swarm under the dead
scales and have probably completed the work of the wash.

Result about the same as in No. 24, or slightly less effective and vari-
able.
Variable; some branches give poor results. Evidently not enough
liquid used lor thorough application.
Small tree, but not sufficient wash used. Effect on Long Scale about
equal to No. 25. Lecanium Scales killed only where the spray struck
with force
Small tree, but amount of wash applied entirely insufficient. Many
branches show no effect. Very fow Long Scale killed.
Result about the same as in No 24. Second application four days
later.
Almost complete extermination of Long Scale. A few living coccids
found upon a twig from upper branches. On the same twig a few
, living Chaff' Scale were also iound.

3 containing
eggs.

.p9 IIR 9uou<8 8ga

|_1__LJJ_J LJ

::::: : : *

E>9ni3[ epioooo Suno^

g : : : : : : : gq
^ : : : : :

Long Scale (M. gloverii).

Scales containing
eggs.

.pe lm8n oa. 8SSa

| 2 I s i 3 8

'P 9 llPl IP* 'sSSg;

^0*8 S 2

'P 9 !!! 5 ! ^'Bd ut 'sSSjj

jj ^ ;

"pailR sppooo Suno^

-; OJ M O-H O i-l OO
O5OJ CO O O O> t-

-A

. 'UOtTt!UIUreX9 JO 9^1?Q[

<MIO t> 100 to 000 0> 00 OS <N ^
(M<M iH ffQr-t C4 i-lrH r- 1-1 rH rl

^^ > ^ > > > > > .

00 O "gO OO O O O q

OO ft Oft P ftft ft ft ft E

noi!yBor[ddi? jo 9^i?(j

_t5 >^t> 'K>> >

o o~5o oooo o
ft Oft ft ft ft ft fcfip

p9itdd TJSBAV p&infip jo ^unora y

^ o eo toto o o ^ eo IM to o>

nP.

<*& to ^- oooo <o

|3 3 33 33 3 3 333

1-1 '"' ~* """ i-l i-l iH iH H

UOT8patn9 9TTJ UI 9U9BOJ93;

UOT8rtlU19JO 'OJI

N ^ w s ss 3 3 3

co pa

^U9U3U9CbcajO-0 N

2S38 SS^SSc?^

APPENDIX II.

201

Ill 8

Ljr
IJtfl

3 p,

J fl s s
o OQ *^

ill!!

e 5

S C8

3^5

Illll HI

S-B'S'sg *

Mil? II!

l^.g 5

ill

w 18 *>!-"

I l^ll II

fl JjJa'3~i f Q o

I s l1|il|

Illll Illl I

202 INSECTS AFFECTING THE ORANGE.

Cost of kerosene wash. The following is the estimated cost for a standard wash
of whale-oil soap and kerosene emulsion containing 67 per cent, of oil, and diluted 1
to 9:

Kerosene, 2 gallons, retail at 20 cents $0.40

Soap, i pound, retail at 10 cents 5

Water, 1 gallon

Emulsion, 3 gallons 45

At wholesale rates, 18 cents for kerosene and 8 cents for soap, three gallons of emul-
sion cost 40 cents = 13 cents per gallon. One gallon of emulsion = 10 gallons of
diluted wash ; cost, 15 cents. Cost of wash per gallon, 1^ cents.

With the "Aquapult" pump and " Cyclone" nozzle, four gallons of wash is suffi-
cient for thirty nursery trees of one and two years from the bud. Cost per tree, two-
.tenth cent.

Trees which have been transplanted and have made two years' average growth in
the grove (3 or 4 years from the bud) require about two-thirds of a gallon of wash.
Cost, I cent per tree. Bearing trees of full size will require from 5 to 10 gallons of
wash. Cost, 7 to 15 cents ; average about 10 cents per tree.

TABLE 2. WHALE-OIL SOAP.

In Table 2 are given the results of experiments with solutions of whale-oil soap
applied in fine spray to all parts of the trees by means of the aquapult pump. The
solutions were all applied hot, being either solid when cool or too thick for spraying
through the pump.

APPENDIX II.

203

Remarks.

Tree infested with Long Scale and a few scattered Chaff Scale;
nearly every coccid, old and young, killed ; a very few Chaff Scale
still alive; eggs of both scales absolutely uninjured; tree rather
large; not enough liquid used.
Long Scale completely exterminated; eggs and young probably de-
stroyed by mites; living Chaff Scale, nearly all young or nearly
adult, numerous on some parts.
Small tree ; very thorough application ; at noon in the sun.

Both Long and Chaff Scale completely exterminated upon nearly all
pnrts of the tree: several twigs, however, have escaped thorough
wetting, and are still moderately infested with one or both kinds of
scale.
Tall tree ; difficult to cover with liquid ; adult female coccids not all
killed.
A few individual Long Scale found alive on some branches 1 or 2 per
cent, living.
Small tree ; Long Scale which have not completed the first molt are
all killed; the, proportions given include coccids from passed first
molt to adult; a few Chaff Scale seen, all living; no gravid fe-
male coccida killed.
Small tree; thorough application; a few Chaff Scale intermingled
seem not to have been affected.

fcJO

1| : i i

poupuiK -esss

: i i

m ^

^ ...

5y U

'P 8 !!! 5 ! l-iisd ut 'eSSg;

^fts

a. : : :

sc- : : : ~

&, : : :

to
.2 'P1I 15 [ 9uoa 'sgSg;

ii i

"S '

"So o ooo

if.

SJD

'P 8 !!? 3 ! spioaoa Sunoj^

s s s g
IT

uorrBAjasqo jo O^XJQ

I i i i I i S I

'UOI'TeOllddl? JO 9!rB(J

co co oo oo co

O ^ W -' 9 " '' ' 9
fl P P fi

rhale-oil soap so

"^5 ^^ "E^ "C,^ "C^

3? co ao w o

a,m

e^-* CO 00 W

!JU9UnJ9dx9 JO 'O^J

s s? s % &

204 INSECTS AFFECTING THE ORANGE.

TABLE 3. LYE SOLUTIONS.

The following is a synopsis of experiments with potash and soda in caustic solutions :

Experiments with potash. Experiment No. 90. Solution, 1| pounds potash to 1 gallon
water. Applied in fine spray to two thrifty young trees, about four years old. Leaves
and tender shoots wilted visibly and changed color during the application, showing,
a few minutes later, spots of brown. Two days after the application all the leaves
were dead and dried up as if by fire, and remained adhering to the branches. Young
growth entirely killed and pitted with holes. Three weeks later all branches under
one inch in diameter were found to be entirely killed, the bark of larger branches
partly destroyed, the bark of trunk blackened and hardened, but not destroyed. Upon
the latter buds had begun to appear. Upon those portions of the tree where the bark
was entirely destroyed the insects themselves were destroyed, but one-tenth of the
scales upon the dead bark contained living eggs. Where the. bark was^not entirely
destroyed half of the Coccids and more than half of their eggs escaped. The tops of
both trees were killed and their shape and symmetry ruined. A 40 per cent, kerosene
emulsion would have been as effective in destroying the Scale-insect, and would have
had no appreciable effect on the tree. A 67 per cent, emulsion, which would have
exterminated the insects, would have partially defoliated the most thickly infested
branches, without affecting the vigorous portions of the tree.

Experiment No. 91. Solution, 1 pound potash to 1 gallon water. Applied to two
small trees very badly infested with Scale-insects. Owing to the enfeebled condition
of the trees, the effect of the lye was as severe as in the preceding experiment. Five
weeks later one of the trees was recovering, the other dying, and Scale-insects in both
cases increasing.

Expei'iment No. 94. Solution, two-thirds pound potash to 1 gallon water. Applied
to several young trees. Nearly all the leaves dropped and many branches killed.

Experiment No. 92. Solution, one-half pound potash to 1 gallon water. Applied to
two small trees badly infested with Long Scale. Both trees badly, one completely,
defoliated. Tender bark and smaller branches killed. Four or five weeks later the
trees were recovering, but young brood of Scale-insect had thickly coated all the
living branches.

Experiment No. 95. Solution, four-tenths pound potash to 1 gallon water. Applied
to a tree of medium size and in good condition. Great injury to foliage and tender
bark. One month later the trees were recovering, but Scale-insect increasing.

Experiment No. 93. Solution, three-tenths pound potash to one gallon water. De-
vitalized branches completely defoliated ; other portions less severely affected. Bark
blackened and hardened. One month later trees recovering ; Scale-insect not dimin-
dimiuished in numbers.

Experiment No. 96. Solution, one-fourth pound potash to 1 gallon water. Applied
to a vigorous tree. Tree not severely defoliated. Four weeks later Scale-insect in-
creasing.

Experiment No. 86. Solution, one-sixth pound potash to 1 gallon water. Applied to
a tree rather badly infested, but still vigorous. Tree slightly defoliated. Scale-
insect not checked and no eggs killed.

Experiments with soda lye. The strongest application of soda lye, two-thirds pound to
1 gallon water, was not more severe in its effects upon the tree than one-half this amount
of potash applied in Experiment No. 93. The bark was blackened, but not destroyed,
and the tree was severely defoliated. The application had no permanent effect in
removing the Scale-insects, but these were afterwards destroyed by an application of
kerosene emulsion, and the tree in consequence fully recovered its vigor. The remain-
ing experiments with soda lye 1 pound to 2, 1 pound to 2i, and 1 pound to 3 gallons
of water, respectively (Nos. 43, 44, and 45) failed to check the increase of the Scale-
insect. One year later these trees had lost instead of adding to their growth, and ap-
peared to be in dying condition, the continued presence of the insects having prevented
a recovery from the effects of the lye. The Scale-insects were subsequently removed
by applications of kerosene, and the trees began to improve rapidly.

APPENDIX II.

205

Remarks.

Only a few Chaff Scales examined ; all of them alive.
Long Scale only. No appreciable result.
Long and Chaff Scale together. No result whatever.
Do.
All small branches killed, bark of trunk burned and
hardened, but not dostroyed, pushing out adventitious
buds. Upon portions where bark is utterly destroyed
8 per cent, of the scales have eggs nil alive.
Tree badly injured, completely defoliated and killed
back to larger branches.
Tree reduced to trunk and one living branch, the latter
covered with new brood of scale.

Several trees. Kesults unequal.

July 4. Two trees, branches more or less killed back ;
trees, however, recovering. Living branches thickly
coated with forming brood of Long Scale. Application
not effective.
Chaff Scale very slightly affected. Eggs all alive.
Adult females of Long Scale part killed. Females of
Chaff Scale not killed. July 4 trees recovering,
Scales as bad as before.
Few Long Scales examined, few or no eggs killed.
Scales increasing. No appreciable effect.
A few young killed. Eggs hatching.
Tree covered with new brood of Long Scale. No effect.

M
S 'P 9 !!! 5 ! Quote 's2g[

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* ! '

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OB; w

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c- wi

.3 'P >11PI 9aotl 'sSSg;

|i is -a s | s s ss i

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S I " a

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S
o '"'

^ co co * eo w <*<

& : : i i

M
'P 9 UR sppooo Sunoi

a, : : : :

OO5OSO5 t- t- Olftr< C^COCO COCO COCSt-lO

ggga ii li-s Kl i lil^

_ a

W<M(MCO JH MjH N }
gp^jj^ % ^ >>>

paijddB qsuAi. pa|U[ip jo ^nnouiy

!" -* ^ % -* ^^ ^

uoireoi[ddB
o^Snis ui poen &\ PH 8 J ^nonr^ 1

| _ ^ , co - -* ^ -

.2-2-2-2 -2 -2' -2-2 -2-2 -2 -2
sJTO'cra' o^ c 1 o 1 c 1 cro* a* c*

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_o_o_o_o 5 "^-8 "^ **

1
O

Ci p*^ t^i ^> ^

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ccojcflco PH PH PH PH PnPn PH PH

*u9ura9dx9 jo'wqran^;

C3 CO -^ 1C O rH *4* (M ^2? 52 SS
^^^^0> 0> Oi) 00 Oi 00

206 INSECTS AFFECTING THE ORANGE.

TABLE 4. CRUDE CARBOLIC ACID (OIL OF CREOSOTE).

In Table 4 are given results of experiments with carbolic acid in solution and com-
bined with other substances.

In experiment No. 27, 9 fluid ounces of carbolic acid was applied to a single tree
about five years old. The tree, which was badly infested with Long Scale, and had
many branches dead and dying, was severely defoliated, and lost some moribund
branches, but recovered in six weeks and pushed out new growth in midwinter.

In experiment No. 30 a pint measure of crumbled carbolic soap was applied. The
actual amount of acid contained in this soap did not exceed 2 fluid ounces. The ex-
termination of Long Scale was complete. The tree, which was very badly infested
and in poor condition, was almost completely defoliated and lost half its branches,
but recovered very rapidly and pushed out new leaves within thirty days. (January
25.)

In experiment No. 21 the other substances added to the carbolic solution increased
the injury to the foliage of the tree and it was very severely checked, but entirely re-
covered and was stimulated to vigorous growth at a time when all surrounding trees
were dormant.

In the remaining experiments, 13, 14, 15, and 12, the quantity of carbolic acid used
was not sufficient to kill the Scale-insects. The effect upon the trees was also very
slight.

APPENDIX II.

207

208

INSECTS AFFECTING THE ORANGE.

31 ?l s i .

3 *S ft ^8 ^ **

|1 Hill " I

ll S*?l I si

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H H)

6 1

'P 9 !!! 3 ! 9uoa 'sSS^

penr^l eppooo Stra

T 9 itR n^ '

patn^i sppooo Sanoi

i!il

.g^txss a a a-aS a<N s Sa^g's-Pai HO*

P H W W OOUM

ni p9sn '^unonn; !ppB

o o

w t-5

aoqnmji 5

APPENDIX II. 209

TABLE 5. BISULPHIDE OF CARBON.

In table 5 are given the results of several experiments with this insecticide. The
emulsion, of which the ingredients are given in the table, was formed by beating to-
gether with a spatula the carbon and lard oil and then adding the milk and water,
and emulsifying in the same manner.

The trees in experiments 40 and 41 were very severly checked, although not seriously
injured, and all subsequently recovered. In experiment 39 the mixture was applied
during a rain, and was entirely without effect upon the tree or scale.

210

INSECTS AFFECTING THE OEANGE.

i 1

1 I

- I

a a

Chaff Sc
. pergan

pguR spioooo Sanoi

uoi^aitnexo jo 9jBQ[

pa^njip jo ;unoiuy

ITS W

c a o K .5 ^^ w; c a

^U90iij9dx9 jo agqnrajji; 3

APPENDIX II. 211

TABLE 6. SILICATE OF SODA.

Table 6 gives the results of a single experiment in which silicate of soda, in the
form of a thick liquid, was diluted ten times and applied in fine spray.

In other trials, with stronger solutions, the best result obtained was 80 per cent,
of the young Coccids killed, and trees were cleared of scale by repeated applications
at interval of several weeks ; but in these cases the bark was hardened and the
growth of the trees somewhat checked.

212

INSECTS AFFECTING THE ORANGE.

'P 8 lt tT l 9UOU

paitJ5[ epioooo Sanoi

'P 9 UR 9UOU

pd^nm> jo ^anoaiy

uoi^oiiddB eiSuis ui pasu ^anorav

^ =3

jaerajjedxe jo aequmji J

APPENDIX III.

THE COITION OF BAG WORMS.

The following is an extract from an account of certain Australian Bag- worms, by
William W. Saunders, as read before the Entomological Society of London, February
1, 1847.*

"August 30. On this day I first observed a yellowish white substance protruding at
the lower end of the largest cases, which upon close examination proved to be a por-
tion of the females in the imago state, one-third of their bodies being exposed. About
an hour afterward, examining the cases again, I found the females had receded, and in
opening a case the female moth became evident within, and thus they emerge and
recede as occasion may require.. The female is a lo,rge apterous moth, with a very
little of the ordinary appearance of an insect of the moth kind. The length is about
If inches, diameter full half an inch, color yellowish white, fawn, or buff; head and
three first segments of the body naked and glossy on the upper part; feet very short.
Antennae none, or at least not visible to the unassisted eye ; anal segment of the
body clothed all round with a dense covering of silky down [42] of a deeper color than
the rest of the body ; ovipositor well developed.

" September 5. Examined some of the females, no males having yet appeared. Two
or three were dead ; one nearly so, having deposited a great number of ova in the
pupa case, which were enveloped in a short silky material. When the female has de-
posited all her ova, she is literally nothing but thin skin, which soon desiccates, leav-
ing room for the young larvae to pass. I have examined other species of Oiketicus, and
find all the females are apterous.

"September 20. A male imago appeared this morning. It had been in active opera-
tion a good while, as evinced by its wings, being much broken at the tips and other-
wise much abraded. It is an insect of very peculiar construction, and seems to have
some affinity with Zeuzera. It has the extraordinary power of extending the abdo-
men to 2 inches in length, and of turning and twisting it in all directions. When in
this state it has alternate rings of black and yellow, with a curious appendage at the
extremity. The male appears very eager to accomplish the grand object of nature,
namely, the continuation of its species, as its existence appears to be of short dura-
tion. The large fat or rather distended females have not room to turn their bodies
so as to present the generative organs conviently to the male, consequently the immense
development of the abdomen in the males is of the greatest importance ; but it appears
very extraordinary that the head of the female should be inverted, when it is known
that she never emerges from the case unless by accidentally falling therefrom, which
position obliges the male when in the act of coition to stretch his abdomen all along
the side of the female full If inches. This peculiarity appears to me to be the design
of the all-wise Creator, in order to afford a secure place for the defenseless larvae, viz,
that of the pupa-case of their parent, from which they emerge after the disappearance
of their mother's body, and immediately form themselves silken cases covered with
small pieces of anything they can procure, arranged in every respect like the larger
ones."

* Remarks on the habits and economy of a species of OiTceiicua found on shrubs in
the vicinity of Sydney, N. S. W., by W. W. Saunders, esq., F. L. S., &c. Drawn up
from notes furnished by W. Stephenson, esq. Transactions of the Entomological So-
ciety of London, Vol. V. 1847-1849. pp. 40-33.

213

214

INSECTS AFFECTING THE ORANGE.

Recently Professor Riley lias given a more detailed and exact account of the man-
ner by which the act of coition takes place. A portion of his article which was

published in the Scientific American Supple-
ment of April 3, 1878, and republished in the
Proceedings of the Biological Society of Wash-
ington, Vol. ii, 1882-'4, p. 81, is here reproduced:
" We have seen that, by means of the partial
elongation of her puparium and her partial ex-
traction therefrom, the female is able to reach
with her head to the extreme lower end of her
follicle, causing, in doing so, the narrow elastic
portion of the follicle to bulge, and the orifice
to open more or less, as it repeatedly did while
the larva was yet feeding, whenever the excre-
ment had to be expelled. Fig. 94, a, shows a fol-
licle cut open so as to exhibit the elongated pu-
pariuni, and the female extended from it as she
awaits the male ; & represents this degraded fe-
male more in detail. A cursory examination of
the male shows the genital armature, which is
always exposed, to consist of (1) a brown, horny,
bilobed piece, broadening about the middle,
narrowing to and notched afc tip, concave, and
furnished with a tuft of dark hairs at tip inside ;
(2) a rigid brown sheath, upon which play (3)
the genital hooks or clasps, which are also con-
cave inside, strongly bifid at tip, the inner finger furnished with hairs, the outer

produced to an obtuse angle near tip, and
generally unarmed (Fig. 95, e). In re-
pose, this armature appears as in Fig. 95,
c, from beneath, and as at d, from above,
and is well adapted to prying into the
opening of the follicle. The male abdo-
men is telescopically extensile, while the
tip easily bends or curves in any direc-
tion, but most naturally beneath, as at
&, where it is represented enlarged about
six times, and with all the genital parts
expanded ; k, the fixed outer sheath ; /,
the clasps ; g, a pale membranous sheath
upon which the prseputium (h) plays, as
on the finger of a glove; i, the fleshy elas-
tic penis, armed with retorse hairs, and
capable of extending to nearly one-fourth
of an inch ; j, showing the end still more
fully enlarged. With this exposition of

FIG. 95. THYRIDOPTERYX EPHEMER^FORMIS : j- fflil _ linf pa^i^ n liprvp.rl nr o-pnprillv
b, The end of male abdomen from the side, show- details, not easily observed or generally
ing genitalia extended ; c, genitalia in repose, ven- understood, the act of fecundation is no
tral view ; d, do. , dorsal view ; e, tip of bifid clasp ;

j, tip of penis; all enlarged. (After Riley.) longer a mystery."

FIG. 94. THYRIDOPTERYX EPHEMER^E-
FORMIS : a, Follicle cut open to show the
manner in which the female worts from
her pnparium and reaches the end of the
bag, natural size ; 6, female extracted from
her case, enlarged." (After Eiley.)

]STOTES.

NOTE 1 (p. 59). Mr. Howard states that this Tetrastichus has never since been bred,
and that the material is too poor for determination. April 18, 1885, 1 bred two addi-
tional species of parasites from the Florida Ceroplastes at Crescent City, which were de-
termined by Mr. Howard as (1) Coccophayus vividus Howard (see Bulletin 5, Division of
Entomology, U. S. Dept. Agr., page 24, species 37) which I had previously bred from
Lccauium hesperidum, on Orange, at Crescent City. (2) A species of Encyrtus repre-
sented by one $ which was mounted in balsam and so badly crushed as to admit only
of a generic determination.

NOTE 2 (pp. 69 and 77). In looking up the saved material in order that this species
might be determined, but a single crippled and inferior specimen was found, and
Professor Riley prefers not to describe it for the present from this unsatisfactory
specimen.

NOTE 3 (p. 79). This parasite was handed to Mr. Howard, who has given me the
following concerning it :

" While at first glance I determined the Leptocorisa egg-parasite for you as a species
of Telenomus, a more careful subsequent study, and a comparison with a number of
Mayr's types of this genus, show that it belongs rather to the allied genus Hadronotus
of Foerster. The great majority of the species of the subfamily Sceliouiue, to which
these two genera belong, are egg-parasites. This species may be described as fol-
lows:

" HADRONOTUS LEPTOCORISA n. sp.

"Female. Length, 1.4 mm ; expanse, 2.5 mm . Head and face evenly covered with small
round punctures, except in the facial impression, whichis transversely striate; anten-
nae subclavate; lateral ocelli nearly touching the margins of the eyes. Mesonotum a
trifle smoother than the head and furnished with a very fine white pubescence.
First segment of the abdomen dorsally longitudinally striate; remain ing segments
closely covered with fine round punctures ; ventral surface sparsely punctate. Color,
black ; scape, brown ; all coxae, black; all|trochanters, femora, tibiae, and tarsi, light
brown ; mandibles and wing-veins, light brown.

" Male. Length, 1.3 mm ; expanse 2.tt mm . Antennae filiform. In other characters re-
sembling the $ ."

"Described from many $ and $ specimens, bred from the eggs of Leptocorisa tipu-
loides, at Crescent City, Fla., by H. G. Hubbard."

NOTE 4 (p. 80). These bugs belong to the genus Rhinacloa, but the species is un-
determined.

NOTE 5 (p 81). This species is so far undetermined. It is a beautiful and well-
marked species, the prevailing color being brown. The mesoscntum has two yellow
stripes converging posteriorly, the mesoscutellum is entirely yellow, the metaseutel-
lum is marked with yellowish, and the abdomen has yellow rings.

Just as these notes are going to press, I am able to add the following concerning
this species, received from Mr. Cresson :

" The specimen arrived minus its abdomen, but judging from what is left it seema
to belong to the genus Hemiteles. I have looked over the material belonging to that

215

216 INSECTS AFFECTING THE ORANGE.

genus in the society's collection, and do not find anything there agreeing with your
specimen. I do not think it has been described, but as I have never worked up the
genus, I cannot say definitely that it is new."

NOTES 6, 7, 8, 9, and 10 (pp. 83 and 84). These mites were mounted in balsam for
subsequent study by Professor Riley, with a view of possible determination. He has
kindly examined them and furnished the following notes and descriptions:

"The so-called 'Hairy Orange Mite' (Note 6) is one of the 'Harvest-mites' belong-
ing to the section Eupodidce and comes nearer to Penthalodes Murray than to any other
defined genus, having 6-jointed legs of about equal length. It may be "described as
follows :

"PENTHALODES MYTILASPIDIS n. sp. Average length, 0.3 mm . Broadly oval; ab-
domen tapering to a point. Color dark red, with pale hairs. Head distinctly sep-
arated, narrow, elongate, conical. Mandibles scissor-like, projecting. Palpi inserted
at apex of cephalothorax, close to the head, stout, 4-jointed, the first joint stoutest,
first and second of about equal length, third shortest, the fourth ending in a stout,
curved claw at the base of which an elongate Oval thumb is inserted. Eyes barely
discernible near the side of the cephalothorax between the first and second pairs of
legs. Cephalothorax rounded in front, merging posteriorly into the abdomen, so as to
leave no distinct division except in shrunken specimens. Surrounded by rather long
and stout bristles, about 8 on each side, and with two rows of similar bristles dor-
sally. Legs about equal in length, the first pair very slightly longest ; third joint
longest. Claws' 3, much curved at tip, the middle one curved upwards.

" Of the ' Spear-head Mite' (note 7) the mounted specimens are unfit for study and
no determination can be made of them.

" The so called ' Spotted Mite ' (note 8) is also represented by such poor specimens
from the Orange CoecidaB that they could not be used for determination, but I have
obtained a closely-related species from twigs containing the eggs of Cicada septendecim,
and have thus been able to make out its characters. It belongs to the Beetle-mites or
OribatidaD, and the one-clawed section ; but it cannot strictly be placed in any defined
genus. As I would not care to erect a new genus in these fragmentary notes, the
species may be described under the genus Hermannia,to which it approaches nearest
structurally, though bearing no great resemblance to the commoner species of that
genus.

"HERMANNIA (?) TRINEBULOSA n. sp. Length, 0.38 mm . Color whitish, pellucid.
Pyri form, surface apparently smooth and polished: three dusky abdominal patches,
one large and central, and one at each lower side with a central, elongate-ovoid cor-
neous plate ; two dorsal rows of rather long hairs, with a few others at sides, a rather
stouter one on each shoulder, and three anal pairs, the intermediate or second pair
longest all very minutely barbed. Cephalothorax broadly conical, bluntly rounded
in front, separated from the body by a distinct transverse suture; on each side towards
the base is a conspicuous, strongly clavate bristle. Palpi 6-jointed, the 2nd joint as
long as the others together. All legs of about equal length, 6-jointed ; terminal joint
longest, tapering quite suddenly frqm about the middle to the end, especially in the
posterior pair of legs. Claw simple, large, and strongly curved. All legs sparsely
beset with rather long, simple bristles, which are most numerous on the terminal
joint.

" Of figs. 39 and 40 (notes 9 and 10) the slides are not to be found, but, judging from
the figures, the former is a Tyroglyphns, the species of which are very commonly found
preying on animal matter, and the latter a Sejus, one of the Gamasid genera. I should
not care to describe them by name without study of the specimens."

NOTE 11 (p. 98). Prof. H. W. Wiley, chemist, U. S. Department of Agriculture,
gives the following reactions of sulphur upon lime, treated with boiling water.

" Depending on the proportion of sulphur used, the products may be considered as

follows:

. 3 CaO -f S 6 =2 CaS 2 + CaS 2 O 3
Calcium disulphide -}- Calcium thiosulphate
" Or, with a greater amount of sulphur,

3 CaO -f Si 2 =2 CaS 5 -f CaS 2 O 3
Calcium penlasulpltide -f- Calcium thiosulphate.
"In fact, probably both reactions go on at once, and even more complicated ones.

NOTES. 217

"The reaction of lime in the act of slaking on sulphur would probably be small,
owing to the short time during which the heat would continue."

NOTE 12 (p. 153.) The specimens of this parasite were turned over to Mr. Howard,
who has given me the following description :

"MlOTROPIS PLATYNOT.E n. sp.

"Female. Length, 1.65 mm ; expanse, 3.0 mm . Head broader than thorax; vertex
broad; ocelli very close together ; scape reaching almost to vertex. Pro and meso scutum
somewhat rugose ; mesoscutellum nearly smooth ; metathoracic carina well marked.
Hiud coxa} with an external longitudinal groove. Abdomen moderately long oval,
flattened. Color uniform honey- yellow (in dry specimens; Mr. Hubbard, in his gene-
ral description, says: " Honey yellow ; head, lemon- yellow ") ; eyes and ocelli, dark
red ; tip of scape, dorsal surface of pedicel, and all of flagellum, dusky ; two large
occipital dark spots, sometimes confluent ; abdomen biownish at lateral border and
with a brownish central spot varying in size ; legs, light honey-yellow.

"Male. Slightly smaller than female ; abdomen widening from base to near ex-
tremity. Face with two converging black streaks from insertion of antennas 10 mid-
dle ocellus; hind tibia) with a distinct dusky tinge near extremity ; abdomen more
distinctly edged with brown and with a central translucent spot.

"Described from 5, 19 ; bred from larva of Platynota rostrana, at Crescent City,
Fla., in September, by H. G. Hubbard.

" This species will probably ultimately form a new genus, as in the structure of the
thorax at least it differs from the descriptions of Miotropis. It is, however, more
nearly related to this genus than to any other Elachistid genus, and I therefore place
it here temporarily. "

NOTE 13 (p. 153). This species was also referred to Mr. Howard, who describes it as
follows :

U GONIOZUS HUBBARDI n. sp.

u Female. Length, 2A mm ; expanse, 4.4 mm . Face and notum very sparsely punctured
and furnished with fine white pile ; also delicately shagreened in addition to the
round punctures. Abdomen very smooth and shining and ovate-acuminate in form ;
somewhat pilose, especially towards tip. Wings clear ; stigma brown, with a hya-
line spot at its center ; stigmal cell nearly complete. Color black ; all legs, includ-
ing coxa3, honey-yellow ; mouth-parts and antennas honey-yellow.

" Described from 1 $ specimen, bred in October, from the larva of Platynota rostrana,
at Crescent City, Fla., by H. G. Hubbard, for whom I have named the species."

NOTE 14 (p. 154). This is evidently a dark form of Caccecia olsoletana Walk, which
Professor Riley has bred from oak, but it doubtless has several food-plants, as it is
allied to the wide-spread and polyphagic Caccecia rosaceana Harr., which feeds on rose,
apple, peach, cherry, yellow birch, plum, cotton, clover, honeysuckle, bean, straw-
berry, Negundo aceroides, Cornus stolonifera and Cralcegus spp.

NOTE 15 (p. 178). The single specimen of this species preserved is badly damaged
and minus all the head parts. It appears to be a Blastobasis, like .the species which

immediately precedes it.

NOTE 16 (p. Ib6). This parasite was referred to Mr. Howard, who has given mo the
following :

" PACHYNEURON ANTHOMYI.E n. sp.

"Female. Length, 1.4" m ; expanse, 2.6 mm ; greatest width of fore wing 0.56 mm .
Head, face, and thorax delicately shagreened; antenna inserted at the middle of the
face ; scape reaching to the first ocellus ; club flattened, oval. Petiole of the abdomen
slightly punctured. Abdomen flattened, oval. Subc jstal vein of fore wing with seven
strong forward-directed bristles. Mesoscutellum not especially prominent. Rear
coxae with four or five bristles above at tip. Color, very dark metallic green ; scape
of antennas honey-yellow ; pedicel dark above, yellow below ; flagellum light brown ;
all legs honey-yellow ; front and middle coxae brownish above, verging upon metallic
green at base ; hind COXSB metallic green ; all femora brownish in the middle, honey-
yellow at either extremity ; wing veins dark brown.

Male. Length, l.l mm ; expanse, 2.5 mm . Antenna slenderer than in the $ and
markedly pilose. Abdomen flattened, spatulate in form. Color, metallic green,
lighter and more brilliant than in the female; legs of a brighter, nearly leonon, yel-
low ; femora without the brownish central band.

218 INSECTS AFFECTING THE ORANGE.

" Described from 1 ,19 specimen bred by Mr. Hubbard at Crescent City, Fla.,
September 6, from the pnparium of an undescribed An thorny id fly, called by Hub-
bard 'the Pruinose Aphis-fly.'

" This species may be at once distinguished from P. altiscuta Cook, the only other
described American species of the genus, by its smaller size, its less prominent scutel-
lum, more oval abdomen, and by the coloration of its legs and antennae.

"Pachyneuron altiscuta is said by Professor Cook* to have been bred in large num-
bers from a scale insect on basswood, probably Lecanium tilice Fitch, and, as he there
quotes me as saying, the only other recorded instance which I can find of the breed-
ing of Paohyneuron is the case of P. aphidis, bred from an Aphis by Reinhard. It is
not at all likely, however, that species of this genus infest both Hemiptera and Dip-
tera, and as Professor Cook found a Syrphus larva feeding upon the eggs of his Le-
canium, it seems probable that P. altiscuta comes from this dipterous larva. The same
may be the case with P.aphidis. The circumstantiality of Mr. Hubbard's notes leaves
no doubt as to the breeding of P. anthomyia from the puparium of the Anthomyid."

NOTE 17 (p. 188). This species has since been determined as Chrysis fasciata Fabr.

* Notes on injurious insects. Entomological Laboratory, Michigan Agricultural Col-
lege [1884].

EXPLANATION TO PLATES.

PLATE I.

YOUNG ORANGE TEEE, HEALTHY AND DISEASED.

(From photographs.)
FIG. 1. Young Orange tree in healthy condition. | FIG. 2. Young Orange tree in diseased condition.

PLATE II.

DIE-BACK OP THE ORANGE.

(Original.)

FIG. 1. Die-back of the Orange, natural size and

slightly enlarged.

FIG. 2. Bark fungus on twigs of Orange infested
with Long Scale, natural size and slightly

enlarged.
PLATE III.

COMMON ARMORED SCALES OF THE ORANGE.

(From Comstock's Report for 1880.)

FIG. 1. Hytilispis citricola (Pack.) : 1, scales on
Orange, natural size ; la, scale of female,
dorsal view; 1&, scale of female with
ventral scale and eggs ; Ic, scale of male,
enlarged.

FIG. 2. Mytilaspis gloverii (Pack.): 2, scales on
Orange, natural size ; 2a, scale of female,
dorsal view; 2&, scale of male; 2c, scale
of female with ventral scale and eggs,
enlarged.

FIG. 3. Parlatoria pergandii Comst. : 3a, scale of
female; 3&, scale of male, enlarged.

PLATE IV.

TWIGS OF ORANGE INFESTED WITH LONG SCALE.

(Original.)
FIG. 1. Larger branch sparsely covered. | FIG. 2. Twig thickly covered.'

PLATE V.

CHAFF SCALE OF THE ORANGE.

(Original.)
PLATE VI.

ENEMIES OF BARK-LICE.

FIG. 1. Aphelinus mytilaspidis: a, the parasite;
6, antenna; c, larva, enlarged. (After
Riley.)

FIG. 2. Hyperaspidius coceidivomg : a, larva, en-
larged ; 6, head of larva, much enlarged ;
c, side of head, showing eyes and an-
tenna, still more enlarged; d, beetle.

(Original.)

FIG. 3. Dakruma coccidivora : a, egg; &, larva; c,
pupa ; d, moth, enlarged ; e, moth at rest
upon a bark-louse, natural size. (After
Com stock.)

FIG. 4. Leptocorisa tipuloides, slightly enlarged.
(Original.)

FIG. 5. Roseate Orange Mite, greatly enlarged.

(Original.)

PLATE VII.

APPARATUS FOR SPRAYING ORANGE TREES.

(From a photograph.)

(219)

220

EXPLANATION TO PLATES.

PLATE VIII.

OEANGB RUST.

(A; erBubbard.)
PLATE IX.

KATYDIDS ON ORANGE.

(After Comstock.)

TIB. 1. Microcentrumretinerve: 1, adult; la, eggs;
16, young, natural size.

FIG. 2. Eupelmua mirabilis: 2, female; 2a, male,
enlarged; 2&, eggs of katydid from which
E. mirabilis has emerged, natural size.

FIG. 1. Papilio eresphontes, adult.

PLATE X.

ORANGE DOG.

(Original.)

FIG. 4. Papilio eresphontes, head of full-grown

FIG. 2. Papilio eresphontes, full-grown larva, nat-
ural size.

FIG. 3. Papilio eresphontes, head of full-grown
larva with horns extended, from the
side, natural size.

larva with horns extended, from the
front, natural size.
FIG. 5. Papilio eresphontes, chrysalis suspended

on twig, natural size.

PLATE XI.

MISCELLANEOUS ORANGE INSECTS.

(Original.)

FIG. 1. Papilio eresphontes, twig of orange, show-
ing eggs and young larva, natural size.

FIG. 2. Papilio eresphontes, larva, one-third grown,
natural size.

FIG. 3. Empretia stimulea, full-grown larva, nat-
ural size.

FIG. 4. Dysdercus suturelliis, enlarged one-third.

FIG. 5. Thrips tritici on Orange blossoms, natural
size.

PLATE XII.

BAG-WORMS AND PARASITES.

FIG. 1. Thyridopteryx cphemcrceformis : a, larva ;
6, pupa of male ; c, adult female ; d, adult
male ; e, sack of female cut open, show-
ing pupa-case and eggs ; /, larva carry-
ing case ; g, sacks of young, natural size.
(After Riley.)

FIG. 2. Young Bag-worms (Oiketic^^jpmiug
\ their sacks, a to e; /, sack of young
completed, enlarged. (Original.)

FIG. 3. Hemiteles thyridopterigis : a, 'male ; 6, fe-
male; c, sack of hag- worm cut open,
showing cocoons of parasite, natural
size. (AfterRiley.)

FIG. 4. Pitnpla conquisitor, slightly enlarged.
(After Comstock.)

FIG. 5. Crypttis inquisitor. (After Riley.)

PLATE XIII.

MISCELLANEOUS ORANGE INSECTS.

(Original.)

FIG. 1. Anceglis demissalis, web-tangle of the
caterpillars and spider, natural size : a,
larva; b, moth, slightly enlarged.

FIG. 2. Aphis of the Orange: a, wingless female;
b, winged female ; c, parasitized female,
greatly enlarged ; d, colony on leaf, all
parasitized, slightly enlarged.

FIG. 3. Trioxys testaeeipes, greatly enlarged.

PLATE XIV.

MISCELLANEOUS ORANGE' INSECTS.

FIG. 1. Hypoihenemus eruditus, enlarged.

FIG. 2. Leptostylus biustus : a, beetle, enlarged ; b,

work and cocoon cell, natural size.
FIG. 3. Hyperplatys maculatus, enlarged.
FIG. 4. Midas clavatus, natural size. (He-drawn

from Harris.)

(Original.)

FIG. 5. Carpophilus mutilatus, enlarged.

FIG. 6. Epurcea cestiva, enlarged.

FIG. 7. Pomace-fly of the Orange: a, adult fly; 6,

larva ; c, puparium, all enlarged.
FIG. 8. Chrysobothris chrysoela, enlarged.

REPORT DN INSECTS AFFECTINB THE ORANGE

PLATE

YOUNG ORANEETREE HEALTHY AND DISEASED

REPORT ON INSECTS AFFECTING THE ORANGE.

Plate H.

I)!K HACK OK TH K OK* AMOK.

Report on Insects affecting the Orange.

PLATE III.

Fig. 3

THE COMMON ARMORED SCALES OF THE ORANGE.

REPORT ON INSECTS AFFECTING THE ORANGE.

Plate W.

TWIGS OF ORANGE INFESTED AVITH LONG SCALE.

REPORT ON INSECTS AFFECTING THE ORANGE

Plate

L Sullivan del

CHAFF SCALE " OF THE CHANGE .

Report on Insects affecting the Orange.

PLATE VI.

ENEMIES OF BARK-LICE.

Report on Insects affecting; the Orange

PLATE VII.

APPARATUS FOR SPRAYING ORANGE TREES.
(From a photograph taken in the field.)

REPORT ON INSECTS AFFECTING THE ORANGE

Plate VIJI.

A. H<>..,, jr.,

RUST OK 'I'HI-; ORANGE.

on Insects affecting the Orange.

PLATE IX.

KATYDIDS ox ORANGE.

REPORT ON INSECTS AFFECTING THE ORANGE.

Plate X.

A.Hcif n A <'ii.l.illi.l!.i

THE "ORANGE DOG

REPORT ON INSECTS AFFECTING THE ORANGE.

M I SC K LI A ISTEOUS ( ;K A NG 1] I NS'K ( ' r l\S .

Report on Insects ali'ccliim rite Oran.m

PLATE XII.

BAG WORM AND PARASITES.

REPORT ON INSECTS AFFECTING THE DRANEE

PLATE XIII

MISCELLANEOUS DRANGE INSECTS

REPORT DN INSECTS AFFECTING THE DRANEE

PLATE XIV

Ftg.5.

ISAACTRIEDENWALO UITH BAl-TO

MISCELLANEDUS GRANGE INSECTS

INDEX.

Acarina feeding on Scale-insects, 81.
Acridiidae injuring the Orange, 138.
Acridium alutaceum, 136.

americanum, 136.
obscurum, 136.
Aletia xylina, 9.

Ammonia as a remedy for Scale-insects, 99.
Amaurorhinusnitens, 175.
Anaeglis, 77.

demissalis, 80, 155.
Angular- winged Katydid, 134.

Injury to he Orange, 134.
Life-history, 134.
Parasite, 134.

Anthomyid fly preying upon Aphis, 185.
Antigaster mirabilis,. 134.
Ants attracted by honey secretion of plant-lice, 8,

130.

Fruit-eating species, 177.
indicating presence of injurious insects, 8.
Injuries caused by, 129.
preying upon Scale-insects, 70.
Remedies and preventives, 130.
sucked by Leptocorisa, 191.
Tree-inhabiting species, 170.
Aphelinus aspidioticola, 24.
fuscipennis, 24.
mytilaspidis, 70.
Aphis, the Orange, 157.
Aphis-fly, Dusky- winged, 184.
Tour-spotted, 183.
Pruinose, 185.
Buddy, 184.
Aphycus ceroplastis, 59.

flavus, 24.

Apparatus for spraying trees, 101.
Apple Scale, 70.
Appendix I, 197.
H, 199.

in, 213.

Aquapult pump, 93.
Araeocerus fasciculatus, 178.
Armored Scales (see Diaspinae).
Artace pnnctistriga, 150.
Cocoon, 150.
Moth, 150.
Parasite, 150.
Artipus floridanus, 133.
Ashes as a remedy for Kust-mite, 120.
Ashmead, W. H., quoted, 44, 133.
Aspidiotus aurantii, 28, 32.
citri, 34.

flcus, 28, 34, 43, 86.
nerii, 35.

Baccha babista, 183.
cognata, 184.
lugens, 184.
Bag- worms, 144.

Coition of, 213.
Common Bag- worm, 144.
Cylindrical Bag-worm, 148.
Northern Bag-worm, 147.
Orange Basket-worm, 148.
Unnamed species of, 149.
Bark-cleaners, 193.
Bark-fungus, 2.
Bark-lice (see Scale-insects).
Barnacle Scale, 59.

Adult female, 59.
Development, 60.
Egg, 60.
Food-plants, 61.
Geographical distribution, 61.
Young larva, 60.
Basket- worm (see Bag-worm).
Beneficial insects, general habits of, 6.
Birds transporting Scale-insects, 43.
Bisulphide of carbon as a remedy for ants, 130.

for Scale-insects, 99.

White-ants, 124.

Table of experiments with,

209.
Black Scale of California, 53.

Adult female, 53.
Development, 54.
Eggs, 54.
Food-plants, 54.
Geographical distribution, 54.
Natural enemies, 55.
Young larva., 54.
Blastobasis citricolella, 178.

sp., 218.
Blood-red Lady-bird, 73.

Habits, 73.
Larva, 73.
Pupa, 73.

Brachys ovata, 132.

Braconidaa bred from cells of Eumenes, 188.
Broad Scale, 48.
Caco3cia rosaceana, 217.
Calotermes castaneus, 125.
Camel-crickets, 188.

Food, 188.
Habits, 189.

Capnodium citri, 4, 50, 62, 63.
Carbolic acid as a remedy for Kust-mite, 118.

Scale-insects, 97.
Table of experiments with, 206.

221

222

INDEX.

Carpophilus mutilatus, 176.
Habits, 176.
Larva, 176.

Case-bearers on Orange, 193.
Caution in applying penetrating insecticides, 120.
Ceroplastes arteniisise, 59.

cirripediformis, 59, 62.
fainnairii, 60.
floridensis, 56, 60, 61, 62.
rusci, 59, 60.
vinsonii, 60.

Chaff-Scale, 2, 37, 42, 75, 86.
Eggs, 38.
Foraale insect, 37.
Pood-plants, 39.
Introduction, 86.
Habitat, 39.
Life-history, 38.
Number of generations, 38.
Origin, 39.
Parasites, 39.
Scale of female, 37.

male, 37.

Winged male, 38.
Young larva, 38.
Chplcisrobusta, 139, 141.
Chalk, a band of. as a barrier for ants, 131.
Chapin, Dr. S. F., quoted, 67.
Cbilocorus bivulnerus, 71, 72, 180.
Chiloneurus dactylopii, 66.
Chion cinctus, 121.
Chionaspis citri, 40.

enonymi, 40, 41.
Chrysis parasitic on Eumenes fraterna, 188.

fasciata, 218.
Chrysopa, 7, 69.

Larva feeding on Scale-insects, 80.
citri, 81.
oculata, 80.

Chrysobothris chrysoela, 171.
Chrysomphalus flcus, 86.
Cicada septendecim, 216.
Coccid-eating Dakruma, 76.

Earlier states, 76.
Habits of larva, 76.
Natural history, 76.
Coccidae of the Orange tree, 13.
Coccinse, A subfamily of Coccidse, 14.

General characteristics and habits, 63.
Coccinellidae (gee Lady-birds).
Coccophagus cognatus, 51.
lecanii, 51.
vividus, 215.
Coccus hesperidum, 4.

Cockroach associated with Orange Web- worm, 156.
Coition of Bag- worms, 213.
Cold, Effect of, on Scale-insects, 46.
Coleoptera injuring the twigs and leaves, 132.

preying upon Scale-insects, 71.
Coleopterous borers, 121, 125.
Coleotechnites citriella, 193.
Common Bag- worm, 144.
Larva, 144.
Life-history, 145.
Male moth, 145.
Maternal instinct, 145.

Common Bag- worm.

Parasites, 146.

Process of forming the bag, 146.
Mealy-bug, 61, 86.

introduced on living plants,

86.

Orange Sawyer, 125.
Beetle, 126.
Injuries, 127.
Larva, 125.
Precautions, 127.
Remedies, 127.
Comstock, Prof. J. H., quoted, 18, 28, 33, 35, 40, 53,

65,59,64,154,178,193.
Comys bicolor, 52.
Conopsf quadrimacalata, 183.
Cork-colored Orange Tortricid, 152.
Larva, 152.
Life history, 152.
Moth, 152.
Parasites, 153, 217.
Remedy, 152.

Cossonidse, Food-habits of, 175.
Cost of Kerosene wash, 202.
Cotton Stainer, 165.

Attacks upon the Orange, 168.

Effect of its puncture, 166.

Egg and oviposition, 166.

Food-habits, 166.

General characteristics, 166.

Geographical distribution, 167.

Not a permanent enemy of the Orange,

168.

Not subject to attacks of enemies, 167.
Eemedies, 167.
Cotton Worm, 9.
Cottony Cushion Scale, 66.
Food-plants, 67.
Life-history, 67.
Male, 68.

Number of broods, 68.
Ravages, 67.

Crematogaster lineolata, 170.
Creosote, Oil of, as a remedy for Scale-insects, 97.
Table of experiments with, 206.
Crude Carbolic Acid, Table of experiments with,

206.

Cyclone nozzle, 100.
Cycloneda sanguinea, 73, 180.
Cylindrical Bag- worm, 148.
Cylindrical Bark -borer, 173.

Appearance of the beetle, 173.
Gallery made by the larva, 173.
Life-history, 173.
Dactylopius, 2, 4.

adonidum, 68, 86.
destructor, 14, 63, 64, 79.
longifllis, 64.
Dakruma coccidivora, 76.

paUida, 77.
Destructive Mealy-bug, 64.

Adult female, 64.
Eggs, 64.

Food-plants, 64, 66.
Life-history, 65.
Male, 64.

INDEX.

223

Destructive Mealy-bug, Natural enemies, 66.

Young larva, 64.
DiaspinoB, a subfamily of Coccid, 14.

Agencies assisting their distribution,

43.

Conditions favorable to their distribu-
tion, 45.

Generally present on Orange trees, 42.
Growth of the scale, 16.
Influence of climate, 46.
Larva, 15.
Life-history, 15.
Male and its development, 17.
Natural checks, 47.
Nature of the scale covering, 18.
Ravages, 42.

Usual course of the pest, 45.
Dichelia sulphureana, 154.
Die-back, 1.
Dropping of fruit, 5.
Dusky- winged Aphis-fly, 184.

Chrysalis, 184.
Imago, 184.
Larva, 184.

Dysdercns suturellus, 165, 191.
Egg-parasite of Katydid, 134.

Orange Leaf-roller, 153.
Elaphidion inenne, 125, 171.

parallelum, 126, 171.
Empretia stimnlea, 140.
Cocoon, 142.
Larva, 141.
Moth, 142.
Parasite, 142.
Encyrtus, 215.

artacece, 150.
flavus, 52, 59.
inquisitor, 66.
Epitragus tomentosus, 75.
Epurasa aestiva, 176.
Enmenes fraterna, 187.
Eupelmns mirabilis, 134.
Euphoria sepulchralis, 175.
Europs pallipennis, 177.
Euthochtha galeator, 163, 192.
Exochomus contristatns, 72, 180.
Habits, 72.
Larva, 72.

Experiments with Insecticides, 199.
Fallow, Dr. W. G., on Orange smut, 4.
Flat-headed Borer of the Orange, 171.
Beetle, 172.

Gallery made by the larva, 171.
Habits and life-history, 172.
Larva, 172.
Pupa cell, 171.
Foot-rot of the Orange, 3.

Remedies, 3.
Forest trees affording protection against Scale-

insects, 88.
Four-spotted Aphis-fly, 183.

Chrysalis, 183.
Egg, 183.
Imago, 183.
Larva, 183.
Parasite, 183.
Franklin, James, on Green Soldier-bug, 160.

Fruit-eating ant, 177.
Fruit Worm, The Mexican, 169.
Fumago salicina, 4.
Fungus diseases of the Orange, 1.
Bark- fungus, 2.
Die-back, 1.
Foot-rot, 3.
Smut, 3.

Fur, A band of, as a barrier for ants, 131.
Glover's Orange Mite, 82.

Changes in shape of body, 82.
Eggs, 82.

Goniozus hubbardi, 153, 217.
Gossamer spiders transporting Scale-insects, 44.
Gossyparia mannipara, 13.
Grasshoppers injuring the Orange, 9, 135.
Grass-worm, 150.
Green Soldier-bug, 159, 190.

Appearance in immense numbers, 159.
Food-plants, 159.
Nature of damage done, 161.
Predaceous habits, 190.
Hadronotns leptocorisse, 215.
Hag-moth caterpillar, 142.
Hairy Orange Mite, 83.

Description, 216.
Egg, 83.
Young, 83.

Hedges as a protection against Scale-insects, 88
Hemerobius feeding on Scale-insects, 81.

Larva, 81.

Hemiptera injurious to the Orange, 157.
Predatory species, 78, 190.
Preying upon Scale-insects, 78, 79.
Hemipteron associated with Orange "Web-worm,

79, 156.
Hemispherical Scale, 55.

Adult female, 55.
Egg, 56.
Food-plants, 56.
Geographical distribution, 56.
Locomotive power, 56.
Young larva, 56.
Hemiteles thyridopterygis, 146, 147.

sp., 215..

Hermannia trinebnlosa, 216.
Jlesperobaenus sp., 175.
Hippodamia convergens, 73, 180.
Larva, 73.
Parasite, 74.
Pupa, 74.

Homalotylus obscurus, 74.

Howard, L. O., Description of Hymenopterous para-
sites, 215, 216, 217, 218.
Hymenoptera preying upon Scale-insects, 70.

Predatory species, 186.
Hymenopterous parasites of Bark-lice, 70.
Hyperaspidius coccidivorus, 69, 75.
Hyperplatys maculatus, 174 .
Hypothenemus eruditus, 173.
Icerya purchasi, 63, 66.
Ichneumon concitator, 148.
Injurious insects, General habits of, 6.

Seasons of greatest activity, 9.
Shade favorable to their in*

crease, 8.
Innoxious insects, 7, 193..

224

INDEX.

Insecticides, Apparatus for applying, 100, 101.
Application of liquid, 100.
Caution in applying, 120.
Experiments with, 199.
Insect-fauna of the Orange, Summary of, 5.
Beneficial insects, 6.
Distinguishing friends from foes, 7.
Injurious insects, 6.
Innoxious insects, 7.
Insects affecting the blossoms, 164.
fruit, 165.

root and crown, 121.
trunk and branches, 125.
twigs and leaves, 132.
feeding upon dead wood and bark, 170.

decaying fruit, 175.
found in dry fruit, 178.

wounds and foot-rot sores, 175.
Predatory, 80.
preying upon Aphis, 180.

Bark-lice, 69.
Katydid, Protective resemblance of, 5.

The Angular- winged, 134.
Kermes, 14.

Kerosene as a remedy for Bust-mite, 118.
Scale-insects, 92.
White ants, 124.

Kerosene emulsion, Best season for applying, 95.
Effect of, upon the Orange, 94.
Formula for improved, 94.
Mode of applying, 100, 101.

preparing, 93.
Precautions in the use, 94.
Table of experiments with,

199.
Lace- wings, 7, 69.

Eggs, 81.
Habits, 80.
Imago, 80.
Larva, 80.
Life-history, 80.
Pupa, 80.
Parasite, 80.
Lady-birds, 7.

preying upon Aphis, 180.

Scale-insects, 69, 71.
transporting Scale-insects, 43.
Laemophlceus, 175.
Lagoa opercnlaris, 140.
Cocoon, 140.
Larva, 140.
Life-history, 141.
Moth, 141.
Parasites, 141.
Laphygma frugiperda, 150.
Chrysalis, 151. %
Egg, 150.
Larva, 151.
Moth, 151.

Larger Leaf-roller, 154, 217.
Lathridius, 175.
Leaf-eating ant, 132.
Leaf-footed bug, 168.

Attacking the Orange, 169.
Characteristics, 168.
Eggs, 168.

Leaf-footed bug.

Habits, 169.

Normal food-plants, 169.
Prevention, 169.

Leaf-rollers injurious to the Orange, 151.
General characteristics, 151.
Life-history, 151.

LecaniniB, a subfamily of Coccidae, 14.
Extent of inj uries, 61.
General characteristics, 48.
Life-history, 48.
Lecanium hemisphaericum, 55.
hesperidum, 14, 48, 78.
oleae, 53, 61.
tilisfi, 218.
Lepidoptera injurious to the Orange, 137.

preying upon Scale-insects, 76.
Leptocorisa tipuloides, 78, 191, 215.
Leptoglossus phyllopus, 164, 168.
Leptomastix dactylopii, 66.
Leptostylus biustus, 174.
Beetle, 174.
Larva, 174.

Limacodes scapha, 140, 143.
Cocoon, 144.
Larva, 143.

Lime as a remedy for Rust-mite, 120.
Liquid insecticides, 100.

Fineness and force of spray, 100.
Means of applying, 103.
Proper seasons for applying, 102.
Several applications necessary, 101.
Locusts injuring the Orange, 135.
Long Scale, 14, 42, 75, 77.

Brood periods, 22.
Eggs, 21.

Female insect, 20.
Geographical distribution, 24.
Growth of the Scale, 19.
Introduction into Florida, 25, 86.
Life-history, 21.
Parasites, 23.
Scale.of female, 20.

male, 20.

Winged male, 20.
Young larva, 21.
Lubber Grasshopper, 135.

Absence of enemies, 136.
Life-history, 135.
Remedies, 136.
Wandering habits, 135.

Lye Solutions, Table of experiments with, 204.
Manna produced by a Scale-insect, 13.
Mantis Carolina, 189.

Characteristics, 189.
Egg-mass, 190.
missouriensis, 190.
Characteristics, 190.
Egg-mass, 191.
Food, 191.
Mealy-bug, 2, 4, 14, 79.

at Orange Lake, Florida, 197.
The Common, 63, 86.
Destructive, 64.
Mealy-bugs Food-plants, 63.

General characteristics, 63.

INDEX.

225

Mealy-bugs, Habits, 63.
Metapodius femoratus, 162, 192.
terminalis, 163, 192.
Mexican Fruit "Worm, 169.
Microcentrum retinerve, 134.
Microgaster parasite of the Bag- worm, 147.
Midas clavatus, 175.
Miotropis platynotse, 153, 217.
Mites preying upon Scale-insects, 69,81.
Glover's, 82.
Habits, 82.

Hairy Orange, 83, 218.
Importance, 81.
Orbicular, 85.
Rhizoglyphus, 84.
Spear-bead, 83, 216.
Spotted, 84, 216.
Undetermined, 84,216.
Monomorium carbonarium, 132.
Mytilaspis citricola, 26, 39, 42, 75.

gloverii, 14, 19, 42, 75, 77, 86.
pomorum, 15.

Naked Scales (see Lecaninae).
Naphthaline for ants, 130.
Neuroptera preying upon Scale-insects, 80.
Northern Bag- worm, 147.
Nothris citrifoliella, 154.
Nothrus ovivorus, 85.
Notolomus basalis, 133.
Odontota rubra, 133.
Oiketicus abbotii, 144.

Oil of creosote as a remedy for Scale-Insects, 07.
Table of experiments with, 206.
Oncideres cingulatus, 128.
Opbideres fullonica, 170.
Orange Apbis, 157.

Birth of the young, 138.

Descriptive, 157.

Enemies, 180.

Influence of climate on development

158.

Injuries, 159.
Natural history, 157.
Parasite, 158.
Remedy, 159.
Basket-worm, 148.

preying upon Scale-insects, 69.
Case-bearing Tineid, 193.
Chionaspis, 40.

Abundant in Louisiana, 40.
Scale of female, 40.

male, 40.
Dog, 5, 137.

Descriptive, 137.
Food-plants, 138.
Life-history, 138.
Parasites, 139.
Protective resemblance, 5,
Remedies, 139.
Orange-eating Tineid, 179.

Flat-headed Borer, 171.
Leaf-notcher, 133.
Orange leaf Nothris, 154.
Mites, 81.
Psocus, 194.
Sawyer, 171.

Orange Thrips, 164.

Beneficial rather than injurious

165.

Injury done to the blossoms, 165.
Remedies, 165.

tree, enfeebled condition of, fosters Scale-
insects, 45.

How affected by Scale-insects, 45.
Organic diseases, L
Systems of cultivation, a
"Web worm, 155.

Descriptive, 156.

Earlier states, 156.

Number of broods, 157.

Other insects associated with it,

155, 156.

Protective resemblance, 155.
Remedies, 157.
The web, 155.

Organic diseases of the Orange, L
Bark-fungus, 1.
Die-back, 1.
Dropping of fruit, 5.
Foot-rot, 3.
Smut, 3.

Splitting of fruit, 4.
Oyster-shell Bark-louse, 15, 85.

Mode of growth, 15.
Pachnaeus opalus, 133.
Pachyneuron altiscuta, 218.
an thorny iae, 218.
aphidis, 218.
Pale Dakruma, 77.

Palmetto brushes for scrubbing the trees, 90.
Papilio cresphontes, 137.
Parasites, General importance of, 7.
Parlatoria pergandii, 2, 37, 42, 75, 86.
Penthatodes mytilospidis, 216.
Pergande, Th., Notes on Orange Mites, 84.
Perilitns, 81, 215.
Phobetrum pithecium, 140, 142.
Cocoon, 143.
Larva, 142.
Moth, 143.

Pixnpla conquisitor, 147.
inquisitor, 147.

Plataceticus gloverii, 69, 148.
Platynota rostrana, 152, 154, 217.
Polistes americauus, 186.
Habits, 186.
Nest, 186.

Poly sp bin eta albipes, 153.
Pomace-fly of the Orange, 176.

9 Life-history, 177.

Potash as a remedy for Rust-mite, 110.

Scale-insects, 96.
Predatory insects, 180.

Lepidoptera, 76.
Wasps, 186.

Prionotus cristatus, 192.
Pruinose Aphis-fly, 185.
Imago, 185.
Larva, 185.
Parasite, 186, 218.
Puparium, 185.
Psocus citricola, 194.

226

INDEX.

Psocas venosus, 193.
Psyche confederata, 148.

Unknown species, 148.
Purple Scale, 26, 42, 75.
Egg, 26.
Female, 26.
Life-history, 27.
Male, 26.

Origin and spread, 27.
Parasites, 27.
Scale of female, 26.

male, 26.
Young larva, 27.
Pyrethruni as a remedy for ants, 130.

Rust-mite, 11H
White ants, 124.
Rapacious Soldier-bug, 191.
Baphigaster hilaris, 159, 163, 164,190,192.
Bed Bug (see Cotton Stainer).
Bed Scale of California, 32.

Distribution, 34.
Formation of Scale, 34.
Scale of female, 33.

male, 33.
Bed Scale of Florida, 28, 86.

Development, 28.
Introduction, 86.

Number of annual generations, 32.
Origin and distribution, 32.
Scales of male and female, 28.
Winged male, 28.
Young larva, 29.
Bhinacloa sp., 215.

Bhizoglyphus preying upon Scale-insects, 84, 216.
Biley, Prof. C. V., descriptions of mites, 216.

on coition of bag worms, 214.
Bomalea microptera, 135.
Buddy Aphis-fly, 184.
Bust of the fig, 105.

Orange, 105.

Discoloration of the fruit, 105.
not influenced by soil and cultiva-
tion, 113.

preventive measures, 114.
remedies, 113.
the rust-mite its cause, 106.
rings of rust on the fruit, 110.
rusty oranges superior to bright

fruit, 112.
Bust-mite of the Orange, 107.

Confined to the Citrus family, 112.
Description of the eggs, 108.
mite, 107.
Distribution, 113.
Effect of attacks upon the foliage, 11?.

fruit, 107, 110.
Food, 109.

Influence of weather, 111.
Life-history, 108.
Modes of spreading, 111.
Numerical abundance, 109.
Periods of increase, 113.
Preference for half shade, 110.
Bapidity in development, 115.
Transported by birds and spiders, 111.
Uncertainty as to its origin, 113.

Bust-mite of the Orange.

Wandering habits, 107, 109.
Sacium, 175.

Saddle-back Caterpillar, 141.
Sap-beetles, 175.
Sap-feeding insects, 175.
Sawyers, 121, 125.

Scale-devouring Hyperaspidius, 75.
Habits, 75.
Larva, 75.
Pupa, 75.
Scale-eating Tineid,77.

Earlier states, 78.
Habits of larva, 77.
Moth, 78.

Number of broods, 78.
Scale-insects afl'ecting the Orange, 13.

Agencies assisting their distribution, 43.
Characteristics, 13.

Conditions favorable to their increase, 45,
Division into subfamilies, 14.

Generally present on Orange trees, 42.
Infection from nursery stock, 87.
Influence of climate, 46.

cold, 46.

Insect enemies, 69.
Introduced on imported plants,86.
Oscillations in numerical increase, 46.
Parasites, 47.

Precautionary measures, 87.
Protected by Spider-webs, 43.
Bavages, 42.
Bemedies, 91.

Effective remedies, 92.
Popular fallacies, 91.
Secretions, 13.
Spreading, 87.
Scavenger insects, 170.
Scolytidse, General habits of, 173.
Scymnus bioculatus, 66.
caudalis, 180.
Larva and habits, 180.
Various species preying on Aphis, 180.
Sejus sp., 216.
Silicate of soda as a remedy for Scale-insects, 99.

Table of experiments with, 211.
Sinea multispinosa, 191.
Siphonophora multispinosa, 191.
Skiff-caterpillar, 143.
Slug-caterpillar, 140.
Smicrips hypocoproides, 177.
Smut of the Orange, 3, 62, 63.
Soda lye as a remedy for Scale-insects, 98.
Soldier-bug, The Green, 159, 190.
Soldier-bugs as predatory insects, 190.
Solenopsis xyloni, 129.

Destroying their colonies, 130.
Habits, 130.

Preventive measures, 131.
Soothsayers, 188.
Spear-head Mite, 83.

Spider associated with Orange Web-worm, 155.
Spider- webs protecting Scale-insects, 43.
Spider-legged Soldier-bug, 78, 191.
Eggs, 79.

INDEX.

22?

Spider-legged Soldier-bug.

rood-habits, 78, 191.
Life-history, 79.
Parasite, 79.

Spiders transporting Rust-mites, 111.
Scale-insects, 43.
Splitting of fruit, 4.
Spotted Mite, 83,216.

Description, 216.
Stenomesius (?) aphidicola, 159.
Stinging caterpillars, 14u.

Sulphate of iron as a remedy for Scale-insects, 99.
Sulphur as a remedy for Rust- mite, 116.

Scale-insects, 91.
Sulphur-colored Tortricid, 154.
Sulphurated lime aa a remedy for Scale-insects, 98.
Sulphuric acid as a remedy for Scale-insects, 93.
Syrphus, 7, 181.
Syrphus-fly larvae, 181.

Characteristics, 181.
Change of color, 181.
Mode of feeding, 181.
Number of broods, 181.
Rapid development, 181.
Transformations, 181.
Tachina-fly parasitic on Orange Dog, 139.
Tap-root borers, 121.
Telenomus, 215.
Termes flavipes, 122.
Termites (see White ants).
Tetrastichus, 59, 215.
Thick-legged Metapodius, 162.
Egg, 163.

Insectivorous habits, 163.
Toung bug, 163.
Thrips tritici, 164.
Thyridopteryx ephemerseformis, 147.

Coition of, 214.
Tineid, Case-bearing, on Orange, 193.

larvae preying on Scale-insects, 69, 77, 78.
The Orange-eating, 178.

Scale-eating, 77.
Tomocera californica, 55.
Tortricidre injurious to the Orange, 151.
Tree cockroach associated with Orange "Web-worm,

156.

Tree-inhabiting ants, 170.
Trichogramma minuta, 153.
pretiosa, 153.
Trioxys testaceipes, 159.-
Turtle-back Scale, 14, 48, 61.

Attended by ants, 50.
Brood periods, 50.
Excretion of honey, 50.
Food-plants, 52.
Fnll-grown insect, 48.
Geographical distribution, 52.
Gregarious habits, 49.
Injury, 61.
lletamo'rphosis, 49.
Parasites, 50.

Turtle-back Scale.

Young larva, 49.
Twice-stabbed Ladybird, 71.
Habits, 72.
Larva, 71.
Pupa, 72.
Twig-girdler, 128.

Food-plants, 128,
Natural history, 128.
Remedies, 129.

Typhlodromus oleivorus, 107.
Tyroglyphus (?) gloverii, 82.
mali, 84, 85.
sp., 216,

Vase-maker wasp, 187.
Cell, 187.
Habits, 187.
Parasites, 188.
Voyle,Jos., on effect of cold on Scale-insects, 41"-

on Mealy-bug. 197.
Wax Scale, 56.

Adult female, 56.
Eggs, 57.
Food-plants, 58.
Geographical distribution, 58.
Life-history, 57.
Natural checks, 59.
Nature of waxy covering, 58.
Number of annual broods, 58v
Parasites, 59.
Young Larva, 57.
Waxy Scales (see Lecaninae).
Web-makers injurious to the Orange, 154".
Whale-oil soap as a remedy for Rust-mites, I15L

Scale-insects, 95i_
Table of experiments with, 2G2~
Wheel-bug, 192.

Characteristics, 192.
Eggs, 192.
White ants, 3, 6, 9, 321, 178.

Found in the fruit, 178.
Habits, 121.
Injuries, 122.

Nature of their galleries, 123;
Precautionary measures, 123.
Remedies, 124.
White Scale, 35, 56.

Distribution, 35.
Food-plants, 36.

Number of annual generation*, 3T,_
Scales of male and female, 35.
Winged male, 35.
Wiley, Prof. H. W., on reactions of sulphur n

lime, 217.

Williston, Dr. S. W., on an Anthomyid fly, 18&.
Wine Fly of the Orange, 176.

Life-history, 177.
Winter-killed branches, 5.
Wood-lice (see White ants).
Yellow-banded Ichneumon, 147.

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