THE LIBRARY 
 
 OF 
 
 THE UNIVERSITY 
 
 OF CALIFORNIA 
 
 DAVIS 
 
STATE OF CALIFORNIA 
 DEPARTMENT OF PUBLIC WORKS 
 
 DIVISION OF ENGINEERING AND IRRIGATION 
 
 n 
 
 BULLETIN No. 6 
 
 //O' t? 
 
 IRRIGATION REQUIREMENTS 
 OF CALIFORNIA LANDS 
 
 BEING 
 
 APPENDIX "B' 
 
 TO 
 
 Report to the Legislature of 1923 
 
 ON THE 
 
 Water Resources of California 
 
 20273 
 
 CALIFORNIA STATB PBINTINO Onrid 
 BACBAllENTO, 1923 
 
 LIBRARY 
 
 UNIVERSITY OF CALIFORNIA 
 DAVIS 
 
TABLE OF CONTENTS. 
 
 Paeo. 
 FOREWORD 5 
 
 ACKNOWLEDGMENT 6 
 
 ORGANIZATION 7 
 
 LIST OP TABLES 9 
 
 LIST OP PLATES 10 
 
 Chapter I. 
 Agricultural Lands 11 
 
 Chapter II. 
 Climatology 15 
 
 Chapter III. 
 Duty of Water for Irrigation 20 
 
 Chapter IV. 
 Monthly Irrigation Demand 24 
 
 Chapter V. 
 Irrigation Requirements of Agricultural Lands 26 
 
 Chapter VI. 
 Net Area Irrigated in Large Agricultural Districts 69 
 
 Chapter VII. 
 Endurable Deficiencies in an Irrigation Supply 73 
 
FOREWORD. 
 
 The legislature of 1921 appropriated $200,000 for an investigation of 
 California's water resources by the State Department of Public Works, 
 Division of Engineering and Irrigation. Accordingly, an engineering 
 investigation has been completed and a report transmitted to the legis- 
 lature on January 1, 1923. The great mass of data collected and the 
 complex analyses thereof made it advisable to present much of this 
 information in separate volumes. Four of these .are in print, entitled: 
 
 Appendix "A" "Flow in California Streams." JBulletin No. 5, 
 State Department of Public Works. 
 
 Appendix ' "' B " " Irrigation Requirements of California Lands. ' ' 
 Bulletin No. 6, State Department of Public 
 Works. 
 
 Appejtoix "C" "Utilization of the Water Resources of Cali- 
 fornia." Bulletin No. 7, State Department of 
 Public Works. 
 
 Appendix "D" "Relation of Settlement to Irrigation Develop- 
 ment." Bulletin No. 8, State Department of 
 Public Works. 
 
 Chapter 889 of the 1921 Statutes, which authorized this investigation, 
 provided for the appointment by the Governor, of a Consulting Board 
 to advise with the Department in their endeavors. The following were 
 appointed by Governor Stephens : 
 
 J. C. FoRKNER, Chairman 
 Peter Cook 
 Jonathan S. Dodge 
 B. A. Etcheverry 
 Hakry Havstgood 
 
 H. A. Kluegel 
 Robert B. Marshall 
 H. D. McGlashan 
 0. B. Tout 
 U. S. Webb 
 
 Additional advice on the teclmical features of Appendix "B" has 
 been sought by the Department from: 
 
 A. N. Burch 
 
 B. A. Etcheverry 
 Samuel Fortier 
 A. L. Sonderegger 
 
ACKNOWLEDGMENT. 
 
 Much data have been contributed to this report by public and private 
 offices without which the Department would have been wholly unable 
 to produce this volume. The Department desires to publicly express its 
 sincere appreciation to the parties who, through the furnishing of these 
 data, have made it possible for the Department to increase its service to 
 the public several-fold in publishing this report. 
 
ORGANIZATION. 
 
 A. B. FLETCHER, Director of PuUic Works 
 W. F. McCLURE, Chief of Division of Engineering and Irrigation 
 
 The investigation of the water resources of the 
 
 state and the preparation of the report thereon, 
 
 was planned, directed and brought to completion by 
 
 Paul Bailey 
 
 Fred C. Scobey 
 
 Chief Assistants 
 Robert L. Jones 
 
 William S. Post 
 
 Senior Office Engineers 
 
 H. A. Armstrong 
 J. J. Jessup 
 Clarence F. Johnson 
 C. B. Meyer 
 S. B. Nevius 
 
 J. H. Peaslee 
 W. A. Perkins 
 Walter Ruppel 
 S. H. Searancke 
 Edward G. Sheibley 
 
 Junior Office Engineers 
 
 P. S. Barker 
 J. G. Bastow 
 L. N. Clinton 
 G. D. Clyde 
 H. L. Davis . 
 Herbert E. Doolittle 
 P. K. Duncan 
 Arthur C. Dunlop 
 0. B. Field 
 Frank P. Foote 
 George B. Gleason 
 S. S. Gorman 
 Whaiam H. Gorman 
 F. B. Hilby 
 E. R. Hoffman 
 Irvin Ingerson 
 H. E. IviE 
 J. R. Jahn 
 Biscoe a. Kibbey 
 Thomas LEvsas 
 J. A. Lindsay 
 P. H. Lovering 
 
 W. J. ]\Li.NETTA 
 
 T. C. Mead 
 
 J. W. Merideth 
 
 S. C. Metcalf 
 R. I. Meyerholz 
 E. H. Moore 
 M. F. Moore 
 
 W. B. MULLIN 
 
 T. R. NEISVSrANDEB 
 
 T. Neuman 
 C. M. Newton 
 Harry Olsen 
 Noel Pike 
 Norman C. Raab 
 
 B. A. Reber 
 Glenn Rood 
 
 E. N. Sawtelle 
 N. E. Spicklemire 
 R. C. Stevenson 
 H. N. Sulliger 
 Otto Von Seggern 
 E. G. Waters 
 
 V. W. WiLLITS 
 
 Robert L. Wing 
 Charles J. Worden 
 A. A. Wren 
 
 C. L. Young 
 
WATER RESOURCES OF CALIFORNIA. 
 
 Field Engineers 
 
 R. L. Alun 
 E. "W. Case 
 S. A. Hart 
 Chester Marliave 
 
 John A. Rice 
 
 P. W. Bush, Jr. 
 Ed. W. Case 
 C. D. Divelbiss 
 Ward Eisan 
 A. Pankhouser 
 
 P. L. PiREBAUGH 
 
 Gerald Fitzgerald 
 
 H. L. McCready 
 Gr. H. Russell 
 Burton Smith 
 H. S. Willlams 
 
 Geologists 
 
 Alfred R. Whitman 
 
 Topographers 
 
 Redick H. McKee 
 L. 0. Newsome 
 P. Rider 
 
 Earl D. Stafford 
 J. E. Stafford 
 G. H. Walters 
 A. v. Wilson 
 
 A. P. McCoNNELL, Editor of Report 
 J. J. Haley, Jr., Office Manager 
 
 Hate IV was prepared in the office of the Grunsky Engineering 
 Corporation by E. L. Grunsky 
 
LIST OF TABLES. 
 
 Table Page 
 
 1. Agricultural Areas and Net Puty of Water 29 
 
 2. Desirable Monthly Distribution of Annual Supply According to Duty of 
 
 Water 31 
 
 3. Portion of Agricultural Areas that Require a Water Supply 70 
 
 4. Precipitation Data Used in Constructing Isohyetose Map 76 
 
 5. Precipitation Stations Used in Constructing Isohyetose Map 88 
 
 6. Alphabetical Index to Irrigation Systems Listed in Tables 8 and 9 on Use of 
 
 Water 92 
 
 7. Index by Sections and Key Letters on Map Plate V, to Systems Listed in 
 
 Tables 8 and 9 on Use of Water 102 
 
 8. Use of Water as Measured on Various Systems 117 
 
 9. Use of Water as Proiiosed for Various Localities 170 
 
 10. Summary of Use and Duty of Water 184 
 
 11. Illustrative Climatological Data for Agricultural Lands 188 
 
LIST OF PLATES. 
 
 Page. 
 
 I. Expansion of Agricultural Industry in California 13 
 
 II. Average Deficiency in Irrigation Supply Endured by Success- 
 ful Enterprises (Following) 74 
 
 III. Illustrative Climatology of Agricultural Lands (Following) 191 
 
 IV. Isoliyetose Map of California (Following) 191 
 
 V. Map of Agricultural Areas and Duty of Water Sections 
 
 (Following) 191 
 
 VI. Net Use of Water as Measured and Proposed on Various Sys- 
 tems. (Following) 191 
 
 VII. Monthly Use of Annual Irrigation Supply (Following) 191 
 
WATER RESOURCES OF CALIFORNIA. 11 
 
 CHAPTER I. 
 
 AGRICULTURAL LANDS. 
 
 The aErriciiltural lands of the State of Califomia comprise a total 
 area of 23,000,000 aeres^ or 35,000 square miles. These lands are 
 located on the floors of the valleys and in the foothills and plateaus of 
 the state; the remainder, or three-quarters of the state's area, is either 
 mountainous with steep or precipitous slopes, soilless, too rocky for 
 cultivation, or irreclaimable desert with barren or alkaline flats. Thus 
 only a quarter of the state's total area is agricultural." This compara- 
 tive relation is strikingly contrasted by the proportion of agricultural 
 lands of the whole United States where a half of the total area is 
 agricultural.^ 
 
 California's agricultural lands are those portions of the state that 
 have suitable soils, disposed in appreciable areas of regular surface con- 
 formation, favorable climate, and other requisite conditions for the 
 production of harvestable crops. Included in these, are lands at 
 present deficient in natural moisture, but more or less conveniently 
 situated for the ultimate acquisition of an accessory water supply. 
 
 Of tlie non-agricultural region, the mountains and their precipitous 
 and rocky terraces, through glacial action, weathering and erosion, have 
 supplied the alluvial earth that the rivers and streams have conveyed 
 and deposited to become the fertile and productive soil of the agricul- 
 tural valleys. 
 
 The mountainous portion of the state's non-agricultural lands, while 
 precipitous, rocky or soilless, and comprising three-fifths of the area of 
 Califoi-nia, is indispensable, nevertheless, to the development of the 
 agricultural lands in being the collecting area for precipitation and its 
 cimeenti-ation into streams, without which collected waters much of the 
 agricultural area would be no more productive than the desert. The 
 vast mountain regions of California are two and a half times the area 
 of the agricultural lands, and occupy well over half the space inclosed 
 within the state's boundaries. The relative areas and locations of the 
 agricultural and mountainous lands of the state are shown on Plate V, 
 "Map of Agricultural Areas and Duty of Water Sections." The agri- 
 cultural lands are there delineated in green. 
 
 The most extensive and continuous body of agricultural land lies in 
 the long and centrally located valley between the two main mountain 
 ranges of the state, the Sierra Nevada and the Coast Range Mountains, 
 being bounded on the north by Mount Shasta and on the south by the 
 closure between the Coast ancl the Sierra Nevada ranges at Tehachapi 
 Pass. This vallev. the north half of which is the Sacramento and the 
 
 'From Irrigation Map ot California. U. S. Department of Agriculture. 1920, 22,506.- 
 000 acres. (Exclusive of areas included within cities, principal towns and the chan- 
 nels of the larger streams.) . ^ , » »„, 
 
 ^Agricultural Census, U. S. Census Bureau, 1920. 35,2d5 square miles out of total 
 area of the State of California of 157. S57 square miles, which total contams ii»6 
 square miles of water surface. 
 
 "Kxc.luding Alaska, Agricultural Census, 192 0. 
 
12 WATER RESOURCES OF CALIFORNIA. 
 
 south half the San Joaquin, is four hundred and fifty miles long and 
 averages fifty miles wide, with a total area of 21,000 square miles, or 
 14,000,000 acres of tillable land. This great valley contains three- 
 fifths of the total agrieultur<d lands of California ; thus the principal 
 portion of the farming area lies along the axis and in the center of 
 the state. 
 
 The remainder of the agricultural land is distributed along the 
 borders of the state, and in parcels that are relatively small compared 
 to the lands of the central valley; except for portions south of the 
 Tehachapi Pass. Here one-tenth of the total agricultural lands of the 
 state lies west of the crest of the mountain range that separates the 
 Pacific Coastal plains from the desert, and one-tenth lies on the eastern 
 side of this dividing range and principally in Imperial, Antelope and 
 Victor vallej^s; along the eastern border of the state, east of the 
 Sierra Nevada Mountains, one-fortieth lies in the valleys south of Lake 
 Tahoe, and one-twentieth in the mountain valleys north of Lake Tahoe 
 and on the plateaus east of Mount Shasta ; along the westerly border of 
 the state, three-fortieths lie in the coastal valleys of the Pacific slope 
 of the Coast Range Mountains and between the Oregon line and the 
 Santa Barbara Channel. 
 
 The.se agricultural lands produce, or are capable of producing, the 
 grains, fruits, berries, grapes, vegetables, and the other farm products of 
 the state, and slightly over halF of this total agricultural producing 
 area was farmed in 1920. The hi.story of the development of these 
 agricultural lands is graphically represented on Plate I, ' ' Expansion of 
 Agricultural Industry in California." 
 
 On Plate I, the demand for agricultural products from 1870 to the 
 present day is shown by a curve expressing the values of agricultural 
 produce marketed in the various years.- A second curve shows the 
 expansion of the improved area in farms as this demand increased. A 
 third curve, taking its origin with the beginning of irrigation in 1870, 
 depicts the increase in the farming area receiving irrigation waters in 
 succeeding years. The iipwardly directed sections of these curves, 
 which are drawn to connect the values in successive yeai-s, represent 
 increase in value or expansion of acreage. The steeper slopes indicate 
 a greater rate of increase, and sections parallel to the base show that no 
 increase occurred. The curve of demand for agricultural products 
 progresses steadily upward and at an increasingly steeper inclination 
 with the passing of time as it approaches the present day, thus indi- 
 cating the accelerated rate at which the demand for the state's farm 
 products has continued to grow. 
 
 The increasing demand for California's agricultural products that 
 occurred prior to 1870, was satisfied by dry farming additional areas of 
 land each succeeding year. The curve expressing the expansion of the 
 improved area in farms, shows that this extension of area continued up 
 to the year 1885. At this time the curve turns and becomes parallel to 
 the base. This indicates that there has been no increase in the area 
 of the total land under cultivation since that date. 
 
 'Twelve million out of twenty-three million, or 52 per cent. Fourteenth U. S. 
 Census, 1920. 
 
 =U. S. Census Reports. 
 
WATER RESOURCES OF C.VLIPORNIA. 
 
 13 
 
 
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 Years 
 
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 GROWTH OF AREA IN IMPROVED AND 
 IRRIGATED FARM LANDS 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 ^——•^685 \ 12 
 
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 Years 
 
 EXPANSION OF AGRICULTURAL INDUSTRY 
 IN CALIFORNIA 
 
 STATE DEPAKTME>(T OF PUBLIC WORKS 
 
 DIVISION OF ENGINEERING AND IRRIGATION 
 
 Califohnia Water Resources frfvwTiOATion 
 
 CHAPTOt iV-ISZI VTATUm 
 
14 WATER RESOURCES OF CALIFORNIA. 
 
 With 23,000,000 aerps of arable land in the state, the extension of 
 agriculture to new lands stopped at 12,000,000 acres. Since the 
 demand for the products of the agriculturist continued to increase, and 
 at an aecelei-ated rate after the expansion of the farming area had 
 ceased, every circumstance and condition existed for the continuance 
 of the extension of agriculture to new areas if it were possible. As 
 a result of the unprofitable farming conditions obtaining on the remain- 
 ing uncropped 11,000,000 acres, the area under cultivation did not 
 further increase. The experience of the practical agriculturist limited 
 the total area farmed to 12,000,000 acres. Statistics presented later in 
 this report indicate that with the 12,000,000 acres cultivated, all of the 
 state's agricultural area with sufficient natural moisture to mature a 
 profitable crop had been brought into use, together with some additional 
 area having inadequate natural moisture, but for which accessory 
 supplies were developed economically. 
 
 After 1885, with the demand for California's agricultural products 
 constantly increasing, the state had no additional area that could be 
 profitably utilized for agriculture. In response to the continuing favor- 
 able market, a more intensive farming of the land already under culti- 
 vation resulted ; for California, favorably situated, its fertile agricul- 
 tural soil not producing to capacity under dry farming conditions, 
 required only that additional water be applied to these lands to multiply 
 the yield. The practical farmer, responding to the market created for 
 his products by the ever-growing demand, increased the yield of each 
 acre by supplementing the soil's natural moisture with water applied 
 through irrigation. The increase in the area irrigated in the years 
 succeeding 1885, after the increasing demand for the state's farm pro- 
 ducts could be no longer satisfied by enlargement of the farmed area, is 
 depicted on Plate I^ Although starting in 1870, the area irrigated did 
 not increase very rapidly until the yeai's following 1885. This curve of 
 irrigated area and the curve of demand for agricultural products 
 closely conform in shape. The similarity of these curvatures in the 
 succeeding years, expresses the dependency of agriculture upon irri- 
 gation and the effect of irrigation in augmenting the yield to a produc- 
 tion commensurate with demand; for California's lands, potent in possi- 
 bilities, needed only the accessory moisture that irrigation supplied to 
 enhance their yield that the state might respond to the demand for its 
 products. The upwardly directed paths of both the demand curve and 
 the curve of irrigated area, ascending with greatly increased steepness 
 as they approach the present day, show that still more intensive farming 
 must be practiced in the future and that the irrigated area must expand 
 at a still greater rate than in the past, or the state's progress will be 
 retarded through agricultural production failing to meet the demand. 
 
 Through the state's response to the demand for its agricultural pro- 
 ducts by the more intensive farming of its rich agricultural lands ; and 
 because of the introduction of irrigation and the continued extension of 
 this practice, it has come about that California, eighteenth in the area 
 of land farmed among the states of the Union, but with favoi'able 
 climate and fertile soil, is in the fifth- position in value of farm crops. 
 
 '"Expansion of Agricultural Industry in California." , 
 
 =Fourteenth U. S. Census, 1»3». 
 
WATER RESOURCES OF CALIFORNIA. 15 
 
 CHAPTER II. 
 
 CLIIVEATOLOGY. 
 
 The California year is distinctive in having but two well-defined sea- 
 sons, summer and winter. This feature arises from the transitional 
 periods, spriner and autumn, beins: short and devoid of distingniishing 
 features other than that they are intermediate between the more clearly 
 defined seasons of summer and winter. The summer, or growing period, 
 is long, warm and generally rainless : the winter is the dormant period, 
 or the inter^-al of retarded growth in plant life in the annual cycle, 
 and is normally short, cool, and at times stormy. Most of the precipita- 
 tion occurs during this season of winter. 
 
 The mountains and the proximity of the thousand mile coast line 
 of the Pacific Ocean, modify California's climate so that only moderate 
 seasonal fluctuations of temperature occur over most of the state. Any 
 great extremes of heat and cold that do occur, are confined principally 
 to the non-agricultural areas of the mountains and deserts of the state. 
 For California generally, the mean summer temperatures and mean for 
 the winter show a less departure from that of the entire yearly tempera- 
 tures than do similarly compared mean heat measurements for the states 
 ad.joining California, or those located ea.stward and included in the 
 same latitude. 
 
 The seasonal fluctuations of temperature, the duration of periods of 
 heat and cold, and the extremes of temperature reached in the 3aily and 
 yearly cycle, all have an effect on plant life. Agricultural plants 
 require appreciable intervals of favorable gi'owing temperature that 
 they may attain to mature growth and reach an annual harvest bearing 
 stage. This growing period must necessarily be continuous and for the 
 greater number of agricultural plants, the growing season must be 
 exempt from freezing weather or long continued chilling cold. Growing 
 plants generally can withstand temperatures slightly below freezing for 
 short inter\'als without serious consequences, except that a few degrees 
 of frost, even for short periods, is damaging to tender plants when they 
 are passing through critical stages of growth, as budding, blooming or 
 setting of fruit. Dormant plants can withstand varying degrees of cold, 
 ranging from six to seven degrees below freezing for an hour or so for 
 orange trees, to fifty degrees below freezing for mature grape vines. 
 
 Although the frost-free period, which is the time when temperatures 
 are continuously above freezing, is known as the growing period, most 
 crops will make little if any growth on days when the average daily 
 temperature is below 43 degrees and because of the variations that take 
 place in the daily temperatures between noontime warmth and the cooler 
 nights, the first month of the growing season is usually that month in 
 which the mean temperature is above 49 degrees. 
 
 The mean monthly precipitation and temperature, as well as frost- 
 free periods for sixteen illustrative towns located in these agricultural 
 sections, is graphically presented on Plate III, "Illustrative Clima- 
 
16 WATER RESOURCES OF CALIFORNIA. 
 
 tology of Agricultural Lands. "^ The upper section of this plate shows, 
 by colored bars drawn upwardly from the base line, the mean monthly 
 precipitation that has occurred at the "Weather Bureau 's station located 
 in the town shown below the foot of the bar. These bars in intercepting 
 the crass lines give the mean monthly precipitation in inches of depth. 
 The longer lengths of these upwardly directed bars indicate that greater 
 rainfall has taken place at these stations, the shorter lengths that the 
 precipitation has been less. The middle section of Plate III- repre- 
 sents, by similarly colored bars, the mean monthly temperatures that 
 have prevailed during the period of record at the same Weather Bureau 
 stations. In a like manner, the longer bars show higher mean monthly 
 temperatures, and the .shorter bars that the temperatures have been less. 
 The lower section, designated "Frost-Free Period," has traufsverse bars 
 of like color opposite the names of the Weather Bureau stations, and 
 gives a pictorial representation of the aibsolute frost-free period by 
 means of solid colored bars. The shading lines, cross drawn in like 
 colors and extending from the extremities of the solid bars, show within 
 the limits of the extreme ends the average frost-free period that has 
 obtained at these stations during the years of record. 
 
 These bars, one to a town in each of sixteen sections of the state and 
 covering every month in the year, illustrate in a graphical way the main 
 climatic characteristics of the state's agricultural lands. The location 
 of the towns and the agricultural lands is presented with other data on 
 Plate V, "Map of Agricultural Areas and Duty of Water Sections." 
 
 Illustrative of the climate in their respective sections .shown on this 
 map, the bars on Plate III- show that almost without exception the 
 precipitation, in amounts to be of much value to agriculture, is con- 
 fined to' the months of November, December, January, February and 
 March, while the period of favorable growing temperature is from 
 March to November, inclusive. During this nine-month period, with the 
 exception of March and November, the rainfall is negligible at almost 
 all the stations of record, and the only supply of water available to the 
 growing plant is the moisture stored in the soil from the winter rains. 
 With plant growth started, some time is consumed before additional 
 waters, above that stored in the soil, are required. In localities where 
 the natural rainfall is inadequate or does not occur in suiScient amounts 
 at the needed times, and where other methods of watering are used, the 
 first month during which these additional waters are required is that 
 during which the mean temperature is above 52 degrees. However, 
 with all other elements of climate favorable to agriculture, by the 
 utilization of the soil's natural moisture stored from the rains of the 
 previous winter and supplemented by the light spring rains, although 
 deficient, harvestable crops of limited varieties have been successfully 
 grown over a large portion of California 's fanning lands. In localities 
 where rains adequate for di-y farming, occurred with sufficient regu- 
 larity in succeeding years, the venture was profitable ; but the limits 
 to the agricultural industry of California, when conducted without a 
 supplementary supply of water for the growing plants during the long 
 dry summer period, was reached about the year 1885. 
 
 ^Dala from records of the U. S. Weather Bureau. 
 '"Illustrative Climatology of Agricultural I>ands." 
 
I 
 
 WATER RESOURCES OF CALIFORNIA. 17 
 
 Althougli the successful fai-ming of the past has demonstrated that 
 crops may be grown and that plants will endure the moisture deficien- 
 cies of the summer period, the experiences recorded on Plate I,' and the 
 climatological data of Plate III,'' are convincing that the agricultural 
 areas of California can not produce to the full advantage of the rich 
 soils and favorable climate of the state without an increase in the 
 supply of moisture during the growing season over that supplied by 
 the meagre summer rains and the holdover moisture in the soil from the 
 winter season. To attain maximum productivity on agricultural lands 
 in all parts of the state, it is clearly necessary to supplement the natural 
 moisture of the soils by applying acces.sory waters to the growing crop 
 during the summer season. In practice this is called irrigation. It con- 
 sists of the diversion of water from a lake or flowing stream, or pump- 
 ing from underground waters, and the conveyance and application of 
 this water to the soils in the agricultural areas. It is this utilization 
 of precipitation that has fallen on other than cropped areas, the col- 
 lecting, conveying and applying of such waters to the tillable soil and 
 the growing crops, that constitutes our science of irrigation. 
 
 Three-fifths of the area of the state is occupied by lands that are non- 
 agricultural, but useful for the collecting of precipitation to supple- 
 ment the deficient natural moisture of the agricultural lands. Higher 
 in elevation, precipitation falls in greater abundance on these mountain- 
 ous lands. While the valleys in which the agricultural lauds of the 
 state lie. for the most part receive between five and twenty inches in 
 depth of rainfall per year, a depth of over twenty inches is mostly con- 
 fined to the mountainous areas. The annual quantity also varies, in 
 general, increasing from south to north, from little more than zei'O in the 
 Imperial Valley near the JMexican boundary, to 100 inches or more per 
 year in the north coastal areas close to the Oregon line. 
 
 lu the localities of lesser rainfall, ii-rigation is absolutely essential to 
 the production of crops. In the localities of greater rainfall, irrigation 
 would be unnecessary if the total precipitation were distributed uni- 
 formly throughout the year. Even in these areas, the natural soil- 
 moisture is insufficient and is either exhausted or so greatly reduced 
 early in the summer that irrigation becomes commercially profitable. 
 The increased productivity occasioned by an adequate supply of soil- 
 moisture, yields returns greatly exceeding the costs of accessory water 
 to obtain it. The greater certainty of maturing the crops and the 
 increased yield under irrigation, make an accessory supply a necessity 
 for maximum production in every section of the state. On no occasion 
 where waters have been conveyed, distributed and applied to growing 
 crops have the results not been definitely and decisively conclusive that 
 the application of waters periodically and in proper amoimts, to the 
 cropped area, has assured a greater yield and a better product. 
 
 The distribution of precipitation over the state is exhibited in graphi- 
 cal fonn on an isohyetose map, which shows how rainfall varies with 
 locality. On tliis rainfall map. presented as Plate IV, "Isohyetose Map 
 of California," points of equal mean annual precipitation are connected 
 by lines passing through them. Every obtainable measurement of rain- 
 fall made in the state, comprising the records of 728 observation 
 
 '"Expansion of AgricuUural Industry in California." 
 '"Illustrative Climatology of Agricultural Lands." 
 
 2— 202T3 
 
18 WATER RESOURCES OP CALIFORNIA. 
 
 statidus, has been collected and utilized in the preparation of this 
 isohyetose map. Locations of these observation stations and places of 
 record are shown by symbols on the map. The number adjacent to each 
 symbol marking the location of the station, refers to Table 4, "Precipi- 
 tation Data Used in Constructing Isohyetose Map," in which is 
 tabulated the data from which the map was prepared. Table 5, "Pre- 
 cipitation Stations Used in Constructing Isohyetose ]\Iap," lists the rain- 
 fall stations in the alphabetical order of their names and carries opposite 
 each name, a number by which the station is designated on the map and 
 in Table 4. 
 
 The mean annual precipitation, which has been pictured on the 
 isohyetose map, is either the observed or it is the estimated average 
 annual i-ainfall for the fifty-year period that has just been concluded. 
 Comparatively few of the rainfall stations have records covering this 
 half century. However, in the instances where they did not, the record 
 of the years of actual measurement was extended to complete the record 
 of the precipitation for the fifty-year period, through comparison with 
 the chronicles of adjacent stations that had more extensive records. 
 For this expansion, so necessary to make fuller records available for the 
 interpretation of the sequence and predominant features of annual 
 precipitation through long periods, use was made of factors called 
 "indices- of wetness." These indices give numerical value to the rela- 
 tion that exists between the wetness of one year and the wetness of 
 another. Wetness varies for different years in the amounts of rain 
 falling and a ratio is obtainable that expresses this wetness for one 
 year in terms of another year. This index for any one year is the ratio 
 of the wetness or annual precipitation for that year, to the average 
 precipitation for the fifty-year period. These indices or ratios form a 
 series, each one typical of a successive year, and have a relation, one 
 with another, identical with the actual values of the annual rainfall. 
 Table 4^ tabulates the data of the years for which rainfall measure- 
 ments were made at each station, and the average rainfall for that 
 period. This average for the years of measurement at each of the 
 stations of short record, was increased or decreased to obtain the esti- 
 mated mean for the fifty-year period. The increment added or amount 
 subtracted was the proportional quantity that was required to change 
 the average of the indices of wetness, for the years of measured rainfall, 
 to the average of the indices for the fifty-year period. 
 
 This isohyetose map shows the general tendency toward greater 
 precipitation in the higher mountain regions where a depth of more than 
 70 inches is reached near the northern summits of the Coast Range. 
 The elevated peaks and tablelands of the western slope of the Sien-a 
 Nevada Mountains receive a mean precipitation of from 50 to 90 inches 
 compared to depths of from 5 to 25 inches occurring in the valley 
 between the two ranges. It is also discernible on this map that the 
 rainfall over the extensive and continuous area.s of agricultural land 
 in the San Joaquin and Sacramento valleys, is less in depth and more 
 uniform than over the mountanious area. While the precipitation 
 
 ""Precipitation Data Used in Constructing Isohyetose Map." 
 
 'These indices are developed for every division of the state from the records of 
 two hundred and si.vty stations of the United States Weather Bureau, and are 
 presented as a part of Appendix "A." to this report, "Flow in California Streams." 
 Bui. No. 5, State Department of Public AVorks. 
 
■WATER RESOURCES OF CALIFORNL\. 19 
 
 varies from 1 to 100 inches in depth over the state, this ^eat valley in 
 the center of the state, containing the bulk of California's agricultural 
 land, receives 15 to 25 inches in the north half, and the south half 
 receives only 5 to 15 inches. South of Tehachapi Pass, the southern 
 California coastal valleys, lying to the west of the dividing range, have 
 a rainfall of from 9 to 15 inches a year. On the eastern side of this 
 mountain range, dividing the coastal plains from the desert, lies a 
 great expanse of territor^^ one-fifth of the total area of the state, which 
 receives less than 5 inches of rainfall per annum. To the north and 
 along the eastern border of the state, the mountain valleys lying east of 
 the Sierra Xevadas and south of Lake Tahoe. have a mean precipitation 
 of from 5 to 25 inches ; those north of Lake Tahoe and on the mountain 
 plateaus east of ilount Shasta, receive from 10 to 20 inches per year. 
 Along the western border of the state, on the Pacific slope of the Coast 
 Range ilountaius, the agi-icultural valleys north of Cape ^lendocioo 
 and west of Mount Shasta, have a precipitation of from 20 to 75 inches ; 
 the valleys from Mendocino Cape to San Francisco Bay, receive from 
 20 to 50 inches per year. The valleys on this same slope, between San 
 Francisco Bay and the Santa Barbara Channel, have a rainfall that 
 varies in depth from 10 to 25 inches per annum. 
 
 The annual precipitation on all these areas \aries greatly from year 
 to year. Long continued records of rainfall give, when averaged, a 
 mean depth of annual precipitation which shows the quantity of water 
 that should be expected to fall in any one year; but the precipitation 
 actually occurring may depart widely from the average computed from 
 full records covering extensive periods of time. The precipitation in 
 any year may be expected to occur in depths exceeding or falling short 
 of the fifty-year mean with equal likelihood, except that wet and dry 
 years appear in the record by groups. Records and information have 
 not been accumulated for a sufficiently long time to determine the 
 sequence with which these groups of wet or drj' years may occur, the 
 number of j'ears in a group, or the widest departures from the mean 
 annual rainfall that may be expected to take place in any year. So far 
 as human experience carries, the longer records of a half century or 
 more, probably contain the extremes which might ordinarily be expected. 
 Precipitation for any one year may for this reason have a wide variation 
 from the mean, but with the passing of time, the departures tend to 
 equalize, effects of wide variation are suppres.sed, and the mean annual 
 precipitation of the past gives the most probable depth of precipitation 
 that may be expected to occur in the future. 
 
 Adequate precipitation desirably distributed, propitious temperature, 
 and fertile soil, combine to make abundantly productive agricultural 
 localities that yield generous harvests to human effort. California's 
 farm lands, favorably located and possessing naturally all these requi- 
 sites but a rainfall commensurate in amount and fittingly distributed, 
 require that accessory water be applied to the cropped soil during the 
 long gi-owing season to attain maximum productivity. 
 
20 WATER RESOURCES OF CALIFORNIA 
 
 CHAPTER III. 
 
 DUTY OF WATER FOR IRRIGATION. 
 
 Plant life and the physiological proeessps taking place in the vege- 
 table structure through which the seed germinates, maintains its life 
 and grows to maturit.y, is one of absorption, transformation and stor- 
 age in its cells, of materials available to it from its environs. Plant life 
 requires sunshine, moisture, and mineral and organic food for normal 
 physiological functioning in siistaining life and for nourishing it to 
 mature growth. Rooted in place, plants have at their command only 
 such of these elementary necessities as are naturally about them or are 
 conveyed to them by the hand of man. 
 
 Dependent upon the resources of their immediate surroundings, with- 
 out means of effecting their own relief during adversity, plants are of 
 necessity, hardy and tenacious of life and do not succumb except to 
 very unfavorable circumstances or long endured i^rivations. Distrib- 
 uted around the earth and through all latitudes, the plant organism has 
 shown by its distribution and the diverse conditions under which it 
 prospers, a remarkable facility in adapting itself to unpropitious 
 environments. In such regions, growth is slow and plant jn'oducts are 
 scanty, but with the introduction of advantageous factors into the sur- 
 roundings or on transplanting into more favoralile localities, the plant 
 responds with more luxuriant growth and abundant fruits. Because 
 of this facile adaptability to environment, the plant requirements for 
 any one of its elemental necessities, sunshine, moisture, or food supply, 
 are as variable as the numerous combinations of circumstances under 
 which they are accustomed to mature. 
 
 JMoisture is required, however, by growing plants in far greater 
 quantities than mineral and organic foods, for in addition to its incor- 
 poration into the cell structure of the plant, there is a large amount 
 evaporated from all the surfaces of the stalks and leaves that are 
 exposed to the atmosphere. The root system of the plant extracts 
 moisture from the surrounding soil and takes it into the plant structure 
 to supply this two-fold need for water; that required for incorporation 
 into the cells and framework, and that portion which evaporates from 
 the exposed snrfaces during the phj'siological process of transpiration. 
 The quantity of water needed for these purposes is large, but varies 
 greatly with the ditferent varieties of plants as well as with the circum- 
 stances of their surroundings. The moisture utilized by the plant for 
 incorporation into its structure and product, varies from 10 per cent 
 of its total weight in grain, to 80 per cent in tuber crops and 90 per cent 
 in fruits. Of all the moisture absorbed by the root system, however, 
 that incorporated into the structure of the plant is but a very small 
 part. Much the larger portion is evaporated to the atmosphere from 
 the leaves and other exposed surfaces of the plant. The type of plant 
 and the conditions under which it grows, especially the fertility and 
 tilth of the soil, cause this quantity to fluctuate between wide limits. 
 
WATER RESOURCES OF CALIPORNU. 21 
 
 Greater ([uantities are also evaporated when the supply of soil moisture 
 is more abundant. 
 
 Much scientific effort has 1)een expended to determine the minimum 
 quantity of water required to bring plants of various agricultural 
 types to an hnrvestalile maturity. Tlie moisture transpired during the 
 epoch of plant growtli from germination to harvest, in fluctuating with 
 all the circumstances of tlie environment, is so varialjle, however, that 
 the experimentors have produced a variety of figures differing from 
 each other by several hundred per cent. 
 
 The total moisture required to make the environment favorable, is 
 greater in volume than the minimum quantities actually used in plant 
 growth. Water in the interstices of the soil is drawn by gravity and 
 capillary attraction, and portions are removed by these forces beyond 
 the reach of tlie plant roots. The moisture carriecl by gravity to greater 
 depths, as well as that drawn to the ground surface by the capillary 
 powers of the soil to be dissipated through evaporation, are alike lost to 
 the plant. That the environment be favorable for plant growth, there 
 must be ample moisture in the soil to supply the actual amount 
 required for absorption into tlie plant structure by its root system, after 
 portions liave been removed from the reach of the root system by the 
 continually acting and imavoidable natural attractions of gravity and 
 capillarity. The total amount of water that can be stored in the pores 
 of the soil et any one time is quite limited. While pore space in soils 
 varies from a third to half its volume, not more than one-half of 
 this pore space can be occupied by water for any considerable period of 
 time without detriment to plant growth. Plants require air in the soil 
 as well as moisture to effect the chemical and bacteriological processes 
 concurrent with the abstraction of their nourishment from the soil, 
 and if the pore space of the soil is too filled with water, air will be 
 excluded or will not be present in sufficient quantity for plant needs. 
 Without sufficient air in its pores, the soil takes on a condition called 
 "sour," which is commonly known to be unfavorable to plant growth. 
 The most favorable conditions for plant growth require that moisture 
 be supplied to the soil of cropped areas at intervals and in quantities 
 less than the maximum that the soil will absorb. With applications 
 made in this manner, the supply in storage in the pores of the soil, is 
 never much above or much below an amount that is most favorable to 
 plant growth. The natural replenishment of the soil moisture through 
 rainfall, as the climatological data shows, occurs in the dormant 
 period of plant life, or during the early part of the growing season. 
 To replenish soil moisture during the growing season requires a supply 
 accessory to that of nature. 
 
 The amount of water required of the accessory supply and the 
 frequency of replenishment, concern not alone that needed for absorp- 
 tion by the plant and the ((uantity that is removed from the proximity 
 of the plant roots by gravity and capillarity, but also an additional 
 quantity. From the very point at which these accessory waters are 
 taken from their natural location, into conduits for conveyance tothe 
 place of use, throughout this entire course, lo.sses occur. Seepage into 
 the earthen banks confining the waters, leakage through walls and 
 joints of constructed channels and passages, and percolation to the sub- 
 
22 WATER RESOURCES OE CALIFORNIA. 
 
 soil, are quantities varying in amount and are often unavoidable or 
 impractical to prevent pconomically. With tlie pouring of the waters on 
 to the cropped soil, a furtlier portion of the water is dissipated. The 
 long ribbons of furrow-confined waters of slight depth, or the extensive 
 and shallow sheet of water flooding the ground surface when the irri- 
 gation waters are disposed upon the cropped area, and the large expanse 
 of wetted soil, give unexcelled opportunities for evaporation to the 
 atmosphere both during and after the spreading of the waters, and a 
 great deal of water is so dissipated. In localities of porous soils and free 
 drainage tlirough subsoil, much water may percolate immediately to 
 depths beyond the reach of plant roots in those parts first wetted, even 
 before the spreading waters have made their way to the borders of the 
 field. The loss of water involved in the pouring out and spreading 
 of the accessory waters upon the cropped land is gi'eat or small, depend- 
 ing upon many circumstances, most of which are controllable by man. 
 The manner of spreading the waters, the time required to wet the 
 field, and the proficiency displayed in application, restrain the way- 
 ward waters to more or less beneficial purposes. With the greater or 
 less expenditure for leakless conduits to convey the water to the point 
 of use, and for preparing the fields and making provision for a quicker 
 and more even spreading of the water, the diffusion losses that serve no 
 useful purpose, and take place when applying the irrigation waters 
 to the land, may be made smaller or larger. Other circumstances 
 beyond the control of man affect the magnitude of these losses, but to 
 a lesser degree. The type of soil, its variation throughout the 
 field and its dryness at the time of irrigation, the freedom of drainage 
 through the subsoil, the local climate and weather conditions prevail- 
 ing at the time of irrigation, all tend to enhance or lessen the diffusion 
 losses, but do not control their es.sential magnitude. For the effect of 
 these elements, in increasing the proportion of water lost before serv- 
 ing any usefid pui-pose, may be largely offset by the expenditure of 
 money to conserve the water, by providing watertight conduits for 
 conveying the waters over the ground and through the fields to- its 
 place of emission for use, for retaining the waters for beneficial serv- 
 ice, for guarding it from leakage and evaporation, and for delivering 
 it undiminished to the zone of the plant roots. The economics of irriga- 
 tion and agricultural production are thus the determining factors in 
 coping with application losses; to conserve or to permit waste, expendi- 
 ture is balanced against returns, the value of water, the value of the 
 crop ; and the margin of profit decides. The losses occurring in the 
 application of irrigation waters may equal half the total water spread 
 upon the land. The practical working quantity of water required of an 
 accessory supply, to furnish adequate supplementary moisture for grow- 
 ing plants must include sufficient to provide for all these various 
 amounts dissipated as the water Aowls from its natural source through 
 man-made channels, pipes and conduits, and pours out upon the soil, 
 and before any is incorporated in the structure of the plant and product. 
 This practical working quantity, liy which the needs of cropped 
 areas may be expressed and water re(|uirements of localities may be 
 compared, is the greatest utility when expressed as the amount of 
 water needed for a unit area of cropped land. The "Duty of Water" 
 
WATER EESOURCES OF CALIFORNIA. 23 
 
 is the name used for this practical working quantity of water. Origin- 
 ally an expression for the area of land that a measure of water would 
 irrigate, flowing continuously through the irrigation season, custom 
 has inverted the first meaning and more conveniently utilizes the term 
 "Duty of Water" to name the quantity of irrigation water required 
 to furnish an adequate supplementary supply to the soil moisture 
 tliroughout one season on a unit area of land. This quantity is usually 
 expressed as feet of depth on the land, meaning the depth that the 
 total amount of water required for one acre in one year would cover 
 its surface if it were all accumulated and confined above the surface 
 of that acre. Conventional use has resulted in dropping the unit of 
 area, the acre; and of time, the year; and these are now implicitly 
 contained in the phrase "Duty of "Water." 
 
 Qualifying terms are in common use, such as "Net" and "Gross." 
 "Net Duty" is the quantity of water measured at the point nearest 
 to its entry and spreading out upon the cropped land. It thus con- 
 tains the water required for plant growth, together with the spreading 
 or application losses and the losses contingent to storage of moisture 
 in soils prior to being absorbed by the plant roots. The "Gross Duty" 
 is this same quantit.y of water in lake or flowing stream, reservoir or 
 place of storage, together with the conveyance losses incident to its 
 flow from point of first diversion from its natural source, along the 
 canals and through the channels and conduits to its point of entry on 
 to the cropped soil. "Net Dut.y" of water is best adapted to consid- 
 erations of requirements of accessory water supplies and in comparing 
 the needs of different localities. "Gross Duty" is a sub.]'ect of con- 
 sideration in canal and conduit design and initial diversion quantities. 
 
 The net duty of water may be studied through the amounts of water 
 actually used in irrigation practice and the circumstances contingent 
 to its use. The use of water on different fields varies widely even for 
 like crops, for not only do the quantities that are dissipated in the 
 process of irrigation change greatl.v with contingent circumstances, 
 but the actual quantity necessary for absorption by the root system 
 of the plant is also conditional. These circumstances and conditions 
 that necessitate the application of more or less accessory water, are so 
 vast in number, changing with every variation of soil, crop and prepa- 
 ration for spreading water, that on small tracts the effect of one may 
 predominate, but on greater areas they tend to neutralize in effect. 
 For this reason the average use of water on verj' large areas approaches 
 like figures, while the use on small tracts has wide numerical depar- 
 tures from the average. The larger the areas compared, usually the 
 closer agreement in the records of use. 
 
24 WATER RESOURCES OF CALIFORNIA. 
 
 CHAPTER IV. 
 
 MONTHLY IRRIGATION DEMAND. 
 
 Agricultural plants are al)le to exist and propagate their species in 
 extremely adverse surroundings, and when deprivation and adversity 
 are their destiny, devote their reserve capacity and utilize their 
 resourcefulness to the utmost in the maintenance of life and the per- 
 petuation of their kind. IMoisture, most essential of plant foods, is 
 necessary in large quantities that the environment be auspicious, and 
 when denied the plant, its surroundinas are ill-favored to its continued 
 well-being, vegetable growth is slow and stunted, and fruits are dwarfed 
 in size and scant in number. From the plant seed awaiting moisture 
 and favorable temperature to germinate and send forth its fir.st tiny 
 tendrils, to the sturdy mature plant entering harvest stage loaded 
 with plentiful fruits, plant life is most responsive to adequate moisture 
 propei'ly applied. Too much moisture, too long continued, excludes 
 air from the pores of the soil and plant life requiring this air, together 
 with the moisture, is impeded in its growth. Inadequate moisture or 
 Jong-continued drought are equally unfavorable, for the plant is 
 required to conserve its resources that it may even continue to exist, and 
 this is done at the expense of growth and greater yield. It is the yield, 
 the production of fruits in great number and excellence, that is first 
 affected by moisture supply undesirable in amount or not fittingly dis- 
 tributed. Since all plants of agricultural type are without capacity to 
 store moisture within their structure for use during periods of short 
 supply, their reaction to adversity requires, and the economics of 
 agriculture demand, that favorable conditions of soil moisture be 
 maintained throughout the growing season. 
 
 The periodic application of accessory water is therefore essential 
 and the demand for irrigation water follows closely upon the preva- 
 lence of the seasonal temperatures of appropriate warmth, favor- 
 able to the growth of plants. The moisture in the soil from the winter 
 rains is usually not retained in sufficient quantities to make conditions 
 propitious for vegetable growth long after the gi-owing season opens. 
 The spring rains, when the.y occur, are seldom adequate in amount to 
 much more than wet the ground surface. Such moisture is available 
 principally for shallow rooted plants and only in the requisite abun- 
 dance during the rather brief period preceding the drying of the ground 
 surface that occurs through evaporation. 
 
 In general, the demand for irrigation water increases as the season 
 progresses and temperatures become higher. Water requirements 
 usually reach their peak in midsummer, during the months of July 
 and August, when the temperatures are greatest and the dissipation of 
 the accessory supply, through evaporation and percolation, is a maxi- 
 mum. As the season further progresses and temperatures become 
 lower, the demand usually becomes less and ceases altogether with the 
 termination of the growing season. The crops grown in any locality 
 
WATER RESOURCES OF CALIFORNIA. 25 
 
 influence the distribution of the demand for irrigation waters through 
 the season, affecting the frequency with which exactions are made upon 
 the accessory supply and the amounts demanded, and these water- 
 needs give characteristic variations from these general considerations. 
 According to their developed habits, agricultural plants spring from the 
 dormant life of the winter period or evolve from the latent life of the 
 seed, starting from quiescence at various times during the advancing 
 and unfolding of the growth-stimulating weather of the summer season. 
 The time required to mature the plant from the instant life first stirs 
 in the seedling, or from the initial appearance of vitality in the dormant 
 rooted-plant, to harvest laden stage, diffei-s with ^e many crops from 
 about sixty days, to the entire growing season. As a consequence, the 
 demand for irrigation water varies with the needs of different crops 
 that are grown. In extensive agricultural di.stricts the proportional 
 areas planted to crops of the several kinds may differ and water 
 requirements be affected likewise. 
 
 Due to the variable stream flow that occurs during the season, irriga- 
 tion use of the past has conformed to a considerable extent with the 
 availability of water in the streams. During the spring, while the 
 supply in the stream channels is ample, an excessive amount of water 
 has often been applied to the cropped land in anticipation of the 
 shortage to come in the latter part of the season. With a short supply 
 in the latter part of the season, the past use has been generally less 
 than the desirable amount. The distribution of the use of irrigation 
 water, in both frequency and amount, as recorded in the measurements 
 on various .systems, does not always, therefore, represent the demand 
 under conditions of a favorable supply. 
 
26 WATER RESOUliCEb OF CALIFORNIA. 
 
 CHAPTER V. 
 
 IRRIGATION REQUIREMENTS OF AGRICULTURAL LANDS. 
 
 The quantity of water adequate for supporting a growing crop to 
 an harvestable maturity, intrinsically a variable, .small in the amount 
 actually incorporated into the plant structure and its products, large 
 in the amount dissipated in supplying the plant needs, may best be 
 derived from the results of experience and practice. California's 
 agricultural lands, deficient in natural moisture, and requiring the 
 application of accessory water through irrigation to produce the luxuri- 
 ant growth and abundance of fruit which their propitious climate and 
 responsive soil make possible, have received varying quantities of 
 water. The amount applied on the sundry tracts in the various localities, 
 differs widely with all the circumstances and conditions affecting the 
 use of water. From the average use of water obtainnig over large 
 areas, sufficiently great to suppress the predominance of effects peculiar 
 to small parcels; natural divisions of the state, sixteen in number, were 
 evolved, called duty of water sections. These sections comprise within 
 their boundaries lands of approximately like geographical position, 
 similar surface conformation, of analagous economic environment, and 
 equal climate, and the.y form convenient segregations for the disclosure 
 of the irrigation requirements of California's agricultural lands. 
 Delineated on Plate V,^ the section boundaries show as red lines follow- 
 ing natural dividing conformations, and the agricidtural lands show as 
 light green areas within the delimiting red lines. Letters within 
 circles, shown interspersed throughout the green areas on the map. 
 give the location of individual irrigation systems or of divers tracts 
 of land for which data have been collected on actual use of water and 
 on proposed uses. A searching inquiry covering the accumulated 
 records of California's use of water has been completed. Comprehen- 
 sively planned, it includes all procurable measurements, and, con- 
 taining a preponderance of information, it results in practical values 
 on the irrigation requirements of California's agricultural lands. These 
 accumulated records are the summation of the labors of innumerable 
 engineers and hydrographers, and cover the major portion of the past 
 two decades. The water measurements, both net and gross, were taken 
 over an area that equals more than half the lands irrigated in the 
 State of California in 1919. The records of monthly use of the yearly 
 supply apply to an equally great area of land and for an interval of 
 time that is equivalent to a consecutive period of over five years. 
 
 The net amount of water applied on an average area of 2,210,000 
 acres of land for an average of three and eighth-tenths years, supple- 
 mented by one and nine-tenths years of record on ten systems of 
 indeterminate acreage, has been assembled in Table 8, "Use of Water as 
 Measured on Various Syistems," together with the crops grown and 
 the distribution of the water used through the months of the year. 
 Also included in Table 8, are one hundred sixty-nine proposals on net 
 use of water for one hundred and nine projects scattered over the state. 
 
 '"Map of Agi-icuUural Areas and Duty of Water Sections." 
 
WATER RESOURCES OF CALIFORNIA. 27 
 
 The monthly use of water comprises the records obtained on an 
 average area of 2,660.000 acres for an average of five and six-tenths 
 years, plus two and four-tenths years of record on forty-six systems 
 of indeterminate acreage, and fifty proposals covering twenty-eight 
 projects. 
 
 The gross use 'of water on California's agricultural lands are the 
 records of an average area of 2,690,000 acres for an average of seven 
 and one-half years, together with two and one-tenth years of record 
 on ten .s.ystems of an indeterminate acreage, and supplemented by one 
 hundred and nine proposals for seventy-six projects. 
 
 The tracts of land on areas within irrigation systems for which 
 measurements were obtained, are arranged in the table in groups as 
 they lie within the confines of the duty of water sections. Each entry 
 in this table is symbolized by a letter which indicates the position 
 occupied on the map by this land within the duty of water section. For 
 convenience of reference. Table 7, "Index bj' Sections and Key Let- 
 ters on Map, Plate V, to Systems Listed in Tables 8 and 9 on Use of 
 Water," lists the irrigation systems in the order of the duty of water 
 section and letter symbol of geogi-aphic position within the section. 
 Table 6, "Aphabetical Index to Irrigation Systems Listed in Tables 
 8 and 9 on Use of Water," presents the irrigation systems in the 
 alphabetical order of their name. 
 
 The letter symbols of geographic position also appear on Plate VI, 
 "Net Use of Water as Measured and Proposed on Various Systems," 
 on which is graphically presented all the information collected on the 
 net annual use of water. On this plate, arranged by duty of water 
 section and spread in rows, are upright bars, solid black in color, and 
 resting on common base lines. These upwardly drawn bars indicate 
 by their height above the base line, the amount of irrigation water 
 that was spread upon the lands of the s.ystem named below the base 
 of the bar. Geographic location is symbolized by the circled letter 
 above the bar. and approximated by the name of a nearby town which 
 is above the rows of bars. The year of the measured use is placed 
 under the base line at the foot of the bar. 
 
 The amount of water used is expressed in feet of depth on the land, 
 as though all the water applied during the entire season were accumu- 
 lated and confined at one time above the surface of the lands irrigated. 
 The upright bars, representing these average depths, by intercepting 
 tan colored lines, drawn cross-wise and parallel to each other, indicate 
 the depths in feet. The bars have varying widths which approxi- 
 mate the area of land watered on the system for which the bar stands. 
 The narrowest bars apply to areas of a thousand acres or less and the 
 widest bars to greater areas, progressing by gi-aded steps to the 
 broadest bar standing for two hundred tliousand acres or more. Unless 
 otherwise specified close above the bars, the general crops of the 
 locality were grown on the lands irrigated, and without unusual pre- 
 dominance of any one variety. 
 
 Interminglmg with the black bars on Plate VI,^ are similarly dis- 
 posed bars of a tan color, which are so distinguished to represent pro- 
 posed uses of water. These proposed uses are the estimates of irriga- 
 tion engineers whose names are given adjacent to the bars. These 
 estimates have been prepared in reporting on new projects and are 
 
 L 
 
 '"Net Use of Vfater as Measured and Proposed on Various Systems." 
 
28 WATER RESOURCES OP CALIFORNIA. 
 
 quantities of water believed to be adequate for the maturing of 
 harvestable crops. Reported by engineers after examining and study- 
 ing the locality, they are determinations of the net volunu! of acces- 
 sory waters which need be procured for the lands. These qiunitities are 
 distinguished from tliose represented by the black bars in being esti- 
 mates of water required, rather than measurements of actual use. 
 The data for drawing the tan colored bars were obtained from Table 9, 
 "Use of Water as Proposed for Various Localities," which contains all 
 the information on the use of water, as proposed by various investiga- 
 tors, collected in the statewide search. The indexes to Tables 6' and 7- 
 include the entries in Table 9. The data on tlie proposed use of wafer 
 may be traced in Taljle 6^ by the alphabetical arrangement of the names 
 of the irrigation projects. This proposed use-of-water data may also 
 be located in Table 7- by using the duty of water section number in 
 which the project lies, together with the letter symbol indicating its 
 position within the section. The extensive amount of information 
 collected on the use of water, both measi^red and proposed, is presented 
 summarized in Table 10, "Summary of Use and Duty of Water by 
 Sixteen Sections of the State," with the average figures tabulated 
 section by section, for the sixteen duty of water sections of the state. 
 Tliat the duty of water for each of the several sections might be 
 derived from this great assemblage of information, an examination of 
 circumstances and close scrutiny of the conditions surrounding the 
 iise of water in each section, was made. All information on the surface 
 conformation, types and fertility of soils, crops grown, prevailing 
 climate, the water supply, and all other related .subjects pertinent to 
 irrigation requirements, was reviewed and anal.vzed, together with the 
 measured uses of water, that the water needs of each section might be 
 disclosed through the values found for the duty of water. The values 
 found for this agricultural need of supplementary water, together with 
 the areas^ of farm land enclosed within each section are set down in 
 Table 1, "Agricultural Area and Net Duty of Water in the Sixteen 
 Sections of California, shown on Plate V," and alsoi in Table lO*. 
 These values are also indicated in red on the Map, Plate V^, near the 
 center of each section. On Plate VI'"'. these duties of water are repre- 
 sented by red cross lines, parallel to and at a height above the base 
 line proportional to the net duties. For comparison with these red 
 lines representing duties of water, dotted black cros.s-lines are also 
 presented. The black lines are the net average depth of water used 
 on all the land comprised within the systems and for which measure- 
 ments are tabulated in Table 8^ The dotted-tan colored cross lines 
 are the proposed net depth of water, averaged for the land comprised 
 within the systems for which proposals were made. They are tabulated 
 in Table 9^' 
 
 '"Alphabetical Index to Irrigation Systems Listed in Tables 8 and 9 on Use of 
 Water." 
 
 -"Index b.v Sections and Key Letters on Map, Plate V, to Systems Listed in Tables 
 8 and 9 on Use of Water." 
 
 ^Area.s under irrigatiim in 1920 obtained from survey made by Irrigation Investiga- 
 tions, United States Department of Agriculture, in cooperation with the then State 
 Department of Engineering. 
 
 *"Sunimary of Use and Duty of Water by Sixteen Sections of the State." 
 
 ""Map of Agricultural Areas and Duty of Water Sections." 
 
 ""Net Use of Water as Measured and Proposed on Various Systems." 
 
 '"Use of Water as Measured on Various Systems." 
 
 '"Use of Water as Proposed for Various Localities." 
 
WATER RESOURCES OF CALIFORNIA. 
 
 29 
 
 TABLE 1. AGRICULTURAL AREAS AND NET DUTY OF 
 
 WATER 
 
 in sixteen sections of California, shown on Plate V. 
 
 Section 
 number. 
 
 Description of section. 
 
 Agricultural 
 area. 
 
 Net duty 
 of water. 
 
 Acres. 
 
 Feet depth 
 on laud. 
 
 1.310.000 
 
 1.75 
 
 984.000 
 
 1.25 
 
 1,299,000 
 
 3.00 
 
 1,107.000 
 
 2.00 
 
 657,000 
 
 2.50 
 
 1,800,000 
 
 1.75 
 
 5,468,000 
 
 2.00 
 
 971,000 
 
 1.75 
 
 410,000 
 
 1.50 
 
 296,000 
 
 1,75 
 
 530,000 
 
 1,50 
 
 453,000 
 
 1.50 
 
 2,694,000 
 
 2,25 
 
 2,305.000 
 
 1.50 
 
 624,000 
 
 1,25 
 
 1,598,000 
 
 1,75 
 
 22 506 000 
 
 
 
 
 1 
 
 2 
 3 
 4 
 5 
 6 
 7 
 8 
 9 
 10 
 11 
 12 
 13 
 14 
 15 
 16 
 
 Los .\ngeles area, Ventura to Rediands 
 
 San Diego area. Mexican boundary to San Jacinto and Vucaipa 
 
 Imperial, Coachella and Palo Verde valleys 
 
 .\nteIope Valley and Mojave River areas 
 
 Inyo-Kern, Owens and Mono valleys 
 
 Sierra foothills and rolling plains east and south of >Sau Joaquin Valley floor , 
 
 San Joaquin Valley floor 
 
 Western slope of southern San Joaquin Valley 
 
 Santa Barbara, Santa Maria and San Luis Obispo areiis 
 
 Salinas and contiguous valleys. 
 
 Santa Clara and adjacent valley areas 
 
 Delta lands of San Joaquin and Sacramento valleys 
 
 Sacramento Valley floor 
 
 Sierra foothills, and rolling plains east and west of Sacramento \'alley floor. . 
 
 North coast area. . , , 
 
 Northeastern mountain-vaUey and plateau areas 
 
 Total 
 
 k 
 
30 WATER RESOURCES OP CALIFORNIA. 
 
 The circumstauces and conditions surrounding tlie use oi water in 
 each section through which the duty of water has been found, is set 
 forth section by section in Table 11, "Illustrative Climatological Data 
 for Agricultural Lands by Sixteen Sections of the State," and also in 
 the accompanying summary. This table and summary also contain 
 material and pertinent facts that were of a.ssistance in disclosing the 
 desirable distributiou through the year of the annual irrigation supply, 
 for each of the sixteen sections. This desirable distribution, as 
 well as the duty of water, was sought in the measurements of the 
 monthly use of water as found recorded in Table 8\ and in the pro- 
 posed monthly use of water on the projects listed in Table 9^. The 
 black bars, upwardly drawn from a common base line shown on 
 Plate VII, "Monthly Use of Annual Irrigation Supply," pictures the 
 average portions of the annual supply used in each month of the year, 
 section by section. The height of these black bars, by intercept- 
 ing the tan colored cross lines, indicate the fractional part used in 
 that month, of the total use for the year. They are expressed in per 
 cent for the successive months and cover the projects for which 
 measurements are noted in Table 8\ Intermingled with these black 
 bars are tan colored bars also upright, whose height, in likewise inter- 
 cepting the tan colored cross lines, gives the average of proposed uses 
 of water within the section, in the same terms as the black bars. The 
 values found for the desirable monthly distribution of the annual 
 supply through consideration of these data, is depicted graphically on 
 Plate VII by a red line drawn step by step and from month to mouth 
 for each of the sixteen sections. This red line, expressed in the same 
 terms as the black and tan bars, mounts to heights above the base, in 
 each succeeding month to indicate by its position, the portion of the 
 annual supply which it is desirable to use in that month. The values 
 found are also printed in Table 2, "Desirable Monthly Distribution 
 of Annual Supply According to Duty of Water in Sixteen Sections 
 of California, shown on Plate V." 
 
 The data establishing the average annual net duty of water and the 
 desirable portion to be used each month for the sixteen sections of 
 the state have been largely presented on Plates III to VII, inclusive, and 
 Tables 4 to 11, inclusive. However, there are many considerations of 
 topography, soil, climate, economic and other conditions, which influ- 
 ence these deductions. These considerations are here summarized for 
 each section. 
 
 '"Use of Water as Measured on Various Systems." 
 ="Use of Water as Proposed for Various Localities." 
 
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 o 
 
 
 
 s 
 
 
 
 u 
 
 
 
 hJ 
 
 
 
 l-H 
 
 Q 
 
 s 
 
 WATER RESOURCES OP CALIFORNIA. 
 TABLE 2. 
 
 31 
 
 CO "M CO 
 
 lO "3 »0 
 
 M M 
 
 ♦-> OS O (7> lO 
 
 ■"*• 00 c-1 ca 
 
 (MCOtNOO-^OOcOO 
 
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 ^) O O 
 
 C^ CO o to «o <:c r— t— 
 
 lO OO to lO 
 
 Ir^ Ir- QO O O O 
 
 tn c-t ^o 
 
 co»~-eoir»co»OOMM^ 
 
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 CO M CO 
 
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 -H CO CI (M •-• <N 
 
 ^ -I3 
 
 2^5 
 
 = b S-, 
 
 
 & H = 
 
 
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32 WATER RESOURCES OP CALIFORNIA. 
 
 SECTION 1. 
 LOS ANGELES AREA, VENTURA TO REDLANDS. 
 
 Total agricultural area 1,310,000 acres 
 
 Area under irrigation in 1920-_ 669,000 acres 
 
 Section 1 lies south of Tehachapi Pass and is disposed about the city of 
 Los Angeles, the metropolis of southern California. It is bounded on 
 the west and south by the ocean, and it extends from the Pacific littoral 
 to include agricultural valleys that are situated on the western slope 
 of San Bernardino Range. Almost all of Orange and one-half of 
 Ventura and Los Angeles counties, together with portions of Riverside 
 and San Bernardino counties, are in this section. It comprises the 
 drainage basin of the lower half of the Santa Clara River and most of 
 the area drained by the Ventura, Los Angeles, San Gabriel, and Santa 
 Ana rivers. 
 
 This section includes the coastal plains of Ventura, Los Angeles and 
 Orange counties, and the interior valleys of San Fernando, San 
 Gabriel, Pomona, Cueamonga and San Bernardino. The upper 
 margins of these valleys ai-e between elevations of from 1000 to 
 1500 feet, and this, with the relatively .short distance required to 
 arrive at this altitude, gives rise to steep slopes, with the result that the 
 larger portion of the irrigated lands of this section have favorable 
 drainage. 
 
 The mountains of the section are of a granitic formation. The 
 subsidiary hills, more dispersed and less elevated, are sedimentary, 
 consisting mainly of shales and conglomerates. The predominant soils, 
 derived from the weathering, attrition, conveyance and deposition of the 
 rock composing these mountains, are, therefore, of granitic origin and 
 may vary from a. disintegrated granite near the hills to a sandy loam 
 in the vicinity of the estuaries, while the soils which originate in the 
 shale formations, show a finer texture in which clay and adobe are 
 prominent. 
 
 The climate prevailing over the agricultural lands comprised in 
 this section is tempered by the proximity of the Pacific Ocean. Sea- 
 sonal fluctuations of temperatures are moderate, winter temperatures 
 below freezing are infrequent and of short duration, and on the table 
 lands bordering the coast, frosts are very exceptional. The coastal 
 I)lains and plateaus are subject to fre(iuent fogs and heavy dew, even 
 during the dry season; the bottom lands of the interior valleys are 
 subject to occasional frosts, but the thermal belt on the foothill lands 
 is practically frost-free. The summer temperatures are highest in 
 August, during which the mean monthly average is 73 degrees for this 
 section, while the lowest temperatures occur in January, for which the 
 mean monthly temperature is 52 degrees. The average seasonal rainfall 
 of the plains and valleys is about fifteen inches, with a minimum of 
 about nine inches and a maximum of over thirty inches. 
 
 The active growing season is comprised within the period of March 
 to October; however, on the thermal belt of the foothills, citrus trees 
 have a perennial seasonal growth, and on the plateau lands along the 
 coast, vegetables are raised throughout the year. The culture of citrus 
 trees, deciduous fruits, alfalfa, together with garden produce, are the 
 
■WATER RESOURCES OP CALIFORNIA. 33 
 
 principal agricultural enterprises. Marl^et facilities are exceptionally 
 good, the country being interspersed with cities and population centers. 
 Cooperative marketing has also been developed to an effective degree. 
 The electric lines that are spread throughout this section, together 
 with the branch and feeder lines of two transcontinental railway 
 systems that traverse it. their many stations and sidings, give excep- 
 tional opportunity for the transporting of freight shipments. The 
 section is crossed and ret rossed by hard surfaced highways, which gives 
 facility for conveyance by motor : and through its ocean harbor, and its 
 docks and wharves with their loading ecjuipment, it has direct access to 
 ocean transport. 
 
 The water supplies that have been developed, have not been sufficient 
 to meet the demands of the entire irrigable area. There are, however, 
 large volumes of flood water not yet utilized. In former years 
 the main water supply was derived from the surface streams. 
 These surface waters are not only limited in volume, but also extremely 
 erratic in flow, depending upon seasonal rainfall. The result is a 
 stream flow which rapidly decreases during the summer months. The 
 absence of adequate reservoir sites in both the San Gabriel and San 
 Bernardino ranges, and the existence of ground water basins of large 
 capacity, which are well adapted for water storage, have developed in 
 this region the practice of spreading flood waters over the gravel 
 beds at and below the mouths of the canyons. The spread waters, after 
 penetrating the surface soil, percolate to greater depths and become 
 available for use through pumping from wells. This method of 
 replenishment and retention of the underground storage for deferred 
 u.se, is finding a more and more extensive application. 
 
 All of the main valleys and the entire coastal plain consist of alluvial 
 deposits of great depth, which are suitable for the absoi'ption of 
 flood and rain waters. The past twenty j'ears have seen the develop- 
 ment of these ground water sources on an unprecedented scale through 
 the sinking of thousands of wells, some of them to nearly two thousand 
 feet in depth, and the installation of modern pumping equipment, so 
 that today over sixty per cent of the irrigation and domestic supply is 
 derived from subterranean sources. The relatively small cost of the 
 development of individual ground water supplies, has made feasible 
 this t\-pe of irrigation supply for small ranches. 
 
 Irrigation is necessary throughout this section to secure a crop yield 
 commensurate in value with the price of the land. The amount of 
 irrigation water actually applied to the land varies from six to twelve 
 inches for bean crops and deciduous fruits, to as much as eighteen inches 
 for citrus fruits and thirty inches for alfalfa. The available water has 
 been rather effectively used, and, due to the surface slopes and the soil's 
 texture that gives the favorable drainage prevailing in this section, it 
 has been possible to collect and re-use .some waters after their initial 
 application. In localities adjacent to the coa.st the stored soil-moisture 
 is conserved by the high humidit.v, and the fogs and mists that occur at 
 certain intervals. Scarcity of water has required the effectual use 
 made of it in this section ; a large portion of the acreage brings crops 
 to maturity with a water use of one foot or less. 
 
 The mean of the measured net annual use for the entire section is 
 1.62 feet in depth. This quantity is slightly less than that required 
 
 3-202ri 
 
34 WATER RESOURCES OF CALIFORNIA. 
 
 to olitain full crop productiou. This lesser use of water results, in 
 part, from the ismaller demand made by acreages planted to young 
 orchards and by groves which have not reached mature growth. The 
 net duty for this section is therefore 1.75 feet. 
 
 The monthlj' distribution of the accessory water supplies, in per cent 
 of the entire seasonal use, i.s well indicated by the present and 
 past use on existing irrigation systems. On some of these systems 
 the luitural stream How has been supplemented b.v storage, and on 
 many projects the available surface Avaters have been greatly en- 
 hanced by the development of underground waters. This regulation 
 and -augmentation has resulted in a fairly adequate water supply 
 throughout the irrigation season. 
 
 The desirable monthly use in per cent of total seasonal supply, is, 
 therefore : 
 
 January 3 per cent 
 
 February 3 per cent 
 
 March 3 per cent 
 
 April 7 per cent 
 
 May 12 per cent 
 
 June 14 per cent 
 
 July 15 per cent 
 
 August 14 per cent 
 
 September 12 per cent 
 
 October 9 per cent 
 
 November 5 per cent 
 
 December 3 per cent 
 
 SECTION 2. 
 
 SAN DIEGO AREA, MEXICAN BOUNDARY TO SAN JACINTO AND 
 
 YUCAIPA. 
 
 Total agricultural area 984,000 acres 
 
 Area under irrigation in 1920 96,000 acres 
 
 This section contains almost all of Saa Diego County, portions of 
 Riverside, Orange and San Bernardino counties, and comprises within 
 its boundaries, the drainage basins of Sweetwater, San Diego, San 
 Dieguito, San Luis Rey, Santa Margarita and San Jacinto rivers, all 
 of which flow into the Pacific Ocean. It is bounded on the south by 
 Mexico, on the east by the San Jacinto and San Diego mountain 
 ranges, on the northeast by San Bernardino Mountains, and on the 
 west by the Pacific Ocean. 
 
 The agricultural lands of this section lie on the coastal plains, on 
 the foothill slopes rising from these plains, and in the foothills and 
 mountain valleys of the San Bernardinos. The parcels of farming 
 land adjacent to the coast cover a strip some seventy miles in length, 
 and from twenty to thirty miles wide. The agricultural areas of 
 valley land are located inland a distance of approximately thirty-five 
 miles from the ocean and include the interior valley of the San Jacinto 
 river and the Hemet, Lakeview, Perris, Elsinore and Temecula valleys. 
 The table lands along the coast have a compact, impervious sub- 
 soil ; the lands of both the coast and interior valleys in many instances 
 have subsoils of dense texture. 
 
 The mean annual rainfall ranges from about ten inches for the 
 coastal lands to a maximum of about forty inches in the higher moun- 
 
WATER RESOURCES OF CALIFORNU. 35 
 
 tain areas. Most of the agricultural lands on which irrigation is now 
 practiced have a mean annual precipitation of less than eighteen inches. 
 The proximity of the ocean has its influence in suppressing the ex- 
 tremes of summer and winter temperature. The seasonal variation of 
 temperature in departing so slightly from the mean, is conducive of long 
 growing season which permits double cropping. The culture of vege- 
 tables during the winter months is being more widely practiced. Por- 
 tions of the coastal area and lower interior valleys are well adapted to 
 citrus culture. The more remote interior valleys have occasional frosts 
 and for this reason are more suitable to the raising of alfalfa and 
 deciduous fruits. 
 
 The transportation facilities are the main and branch lines of two 
 transcontinental railroads. ^larketing facilities are good along the 
 coast. The principal city, San Diego, situated on a salt water bay, has 
 docks, wharves and freight-transfer equipment and an extensive ocean 
 commerce. 
 
 There are no appreciable areas of water-logged lands in this section. 
 The available water suppl.v along the coast is limited. In the coastal 
 valley, surface storage of flood waters is practiced while underground 
 storage is limited by the shallow depth of the alluvial fill. In the 
 interior valle.ys both surface and ground water storage is utilized. 
 The scarceness of the supply has developed a high standard of irriga- 
 tion practice and intensive cultivation of the soil. The trend of develop- 
 ment is toward small farms of ten to forty acres, although there are 
 still a number of large grants which have not been subdivided. 
 
 The use of water is from six inches to two feet. The average 
 measured net annual use is 1.26 feet in depth; it represents past 
 practice and is the mean of sixty-three records for an aggregate area 
 of 321,700 acres. The use has been to some extent limited by the 
 scarcity and high cost of water. These conditions will continue to 
 exist, for the available water supply is small as compared to the total 
 area of agricultural lands. This favoi-s future development taking 
 place along the Pacific coastal plains where the climatic conditions 
 and the adaptable crops favor a small water recjuirement. As the 
 country becomes more intensively developed, it is probable that the 
 culture of alfalfa will give way to orchards, vegetables and grapes, 
 which require less irrigation water. These considerations disclose 
 that the average net duty for this section is 1.25 feet in depth. 
 
 The monthly use of irrigation water in per cent of the total seasonal 
 use, is well indicated by the past use on lands which have been served 
 with a controlled water supply, and is: 
 
 January 2 per cent 
 
 February 2 per cent 
 
 March 3 per cent 
 
 April 7 per cent 
 
 May 13 per cent 
 
 June 14 per cent 
 
 July 15 per cent 
 
 August 14 per cent 
 
 September 13 per cent 
 
 October 10 per cent 
 
 November 5 per cent 
 
 December 2 per cent 
 
36 WATER RESOURCES OF CALIFORNIA. 
 
 SECTION 3. 
 IMPERIAL, COACHELLA AND PALO VERDE VALLEYS. 
 
 Total agricultural area 1,299,000 acres 
 
 Area under irrigation in 1920 524,000 acres 
 
 This section is located in the southeastern corner of California. It 
 lies east of the San Bernardino Range, is bounded on the south by 
 Mexico, on the east by Arizona, and includes the agricultural lands 
 reclaimed from the Saltoii Sink, and a strip of bottom and plateau 
 lands that border the Colorado River. It comprises over one-half 
 of Imperial County, and portions of San Bernardino, San Diego and 
 Riverside counties. The principal agricultural areas lie in Imperial, 
 Palo Verde and Coachella valleys. 
 
 Imperial Valley, the most extensive body of agricultural land in 
 this section, is in Imperial County between the Salton Sea and the 
 Mexican boundary. This valley is at or below sea level and comprises 
 part of the delta of the Colorado River. The soil varies from a very 
 fine, sandy loam to a hard clay. The region has practically no rain- 
 fall and is entirely without local water supply. 
 
 Palo Verde Valley is located along the western bank of the Colorado 
 River and is the most easterly of the three principal agricultural 
 valleys in Section 3. This valley lies partly in Riverside and partly 
 in Imperial County. The .soils of the bottom lands which are contiguous 
 to the Colorado River, are exclusively the deposit of this river and are 
 lighter and more easily tilled than some of the Imperial Valley soils. 
 The Palo Verde table lands, which are located in the western portion 
 of the valley away from the river and above the bottom lands, are of 
 a different formation, and have their origin in the Chuckawalla Ranges. 
 
 Coachella Valley, in Riverside County, is located northwest from 
 Imperial Valley and west of the Palo Verde Valley and extends from 
 the vicinity of Palm Springs east of San Gorgonio Pass, at an elevation 
 of about 1200 feet, to the Salton Sea on the south, which is 250 feet 
 below sea level. This valley has been built up by the deposits of the 
 Whitewater River and its tributaries, wdiich originate in the granitic 
 formations of the San Jacinto Mountains to the northwest and San 
 Bernardino ilouutains to the north, although some of the minor 
 tributaries find their origin in the clay hills which border the valley 
 along the northeast boundary. 
 
 Because of the low elevation of the farming lands of both the 
 Imperial Valley and Palo Verde Valley relative to the Colorado River, 
 which forms the only possible water exit for these areas, the natural 
 drainage is defective. Much water-logging of agricultural land has 
 already taken place. Extensive drainage works are under construction 
 that these conditions may be remedied. Coachella Valley, with its 
 sandy soil and subsoil, has very favorable drainage conditions. The 
 great depth to ground water in this valley is, in part, the result of 
 withdrawal of ground waters through pumping. There are, however, 
 bottom lands in the Coachella Valley, near the Salton Sea, where the 
 drainage is not so satisfactory, and the ground waters are close to the 
 surface of the soil. 
 
 S 
 
WATER RESOURCES OF CALIFORNIA. 37 
 
 The winters in these valleys are mild throughont the day, but night 
 temperatures are low and frosts occur occasionally during the months 
 of December, Januaiy and part of February. There is, however, a 
 markedly higher prevailing winter temperature over the high table 
 lands which girdle the valleys of the Imperial and Palo Verde. This 
 hisher temperature is found also in the sandhill regions and the foot- 
 hills of the Coachella Valley. The summers are long and hot. The 
 humidity is very low, especially during the summer months. The main 
 agricultural areas of this section have a negligible rainfall, the mean 
 precipitation being less than four inches; however, the snowcapped 
 mountains of the San Jacinto and San Bernardino on the north and 
 northwest, receive a seasonal, though irregular precipitation on their 
 desert slopes. These rainfalls are of high intensity, but of short 
 duration, and are of a type that produces an extremel.y erratic run-off. 
 
 The growing season extends practicall.y throughout the j'ear, though 
 some agricultural plants are more or less dormant during the months 
 of December and January. The standard crops are alfalfa, corn, grain, 
 cotton, melons, vegetables and grapes, with some citrus and deciduous 
 fruits. The date industry has become prominent in Coachella Valley 
 and in the northern part of the Imperial Valley. Coachella Valley and 
 Palo Verde Valley are each served by one transcontinental railroad. 
 Imperial Valley has one transcontinental line, besides several branch 
 and feeder lines, and all three districts are well situated as to market- 
 ing centers and freight shipping points. There are numerous pre- 
 cooling plants and vegetable and fruit storage plants which are 
 adequately equipped for the icing of transcontinental refrigerator 
 trains that take on their loads of agricultural products in this district. 
 
 In Imperial and Palo Verde valleys, farming is at present conducted 
 on comparatively large units of land, that is, 160 to 320 acres and more 
 in extent. The subdividing of these largo units into smaller tracts has 
 
 I been in progress as crops, other than alfalfa, grain or cotton, are raised. 
 In the Coachella Valley small ranches and intensive cultivation are 
 the rule. The available water supply is pumped from wells or is 
 derived from artesian flow, and is limited. It is, however, feasible to 
 supply the Coachella Valley from the Colorado River, and this source 
 of water supply is under investigation by the Ignited States Reclama- 
 tion Service. Both Palo Verde and Imperial Valley receive their water 
 supply from the Colorado River, although this sometimes drops below 
 the flow required to satisfy the demand during the month of September. 
 Water is being less wastefuUy used as farming methods improve, 
 particularly in Imperial Valley and Palo Verde Valley, while in Coa- 
 chella Valley the scant supply tends toward an economical use of water. 
 The soil of the Coachella Valley is unusually porous and has free iinder- 
 ground drainage, so that the quantities used are greater than in the 
 other valleys. The average use of water on the land in Imperial Valley 
 and Palo Verde Valley, is in the neighborhood of 2.5 to 3 feet in depth, 
 while in Coachella Valley the average use, on small areas of sandy 
 soils with free underground drainage, has been nearly five feet in depth. 
 The average net annual use which represents past practice is 2.91 feet. 
 This is the mean of 51 records, equivalent to one year's measurements 
 on 2,588,000 acres. 
 
38 WATER RESOURCES OF CALIFORNIA. 
 
 Because of the deficiency in the water supply during the late summer 
 and early fall months of some years, the use has been less than that 
 which would obtain with an ample supply for the entire seasoji; on the 
 other hand with abundant water in the early summer months, crreater 
 amounts have been used than were needed. The average net duty for 
 this section is, therefore, 3.0 feet in depth. 
 
 Modified to improve the late summer deficiency, the past use in 
 Imperial Valley and the use obtaining close at hand on the Salt River 
 and Yuma projects in Arizona, disclose that the desirable average 
 monthly use in per cent of the total seasonal supply is : 
 
 January 3 per cent 
 
 February 5 per cent 
 
 March 7 per cent 
 
 April S per cent 
 
 May 10 per cent 
 
 June 12 per cent 
 
 July 13 per cent 
 
 August 13 per cent 
 
 September 12 per cent 
 
 October 9 per cent 
 
 November 5 per cent 
 
 December 3 per cent 
 
 SECTION 4. 
 ANTELOPE VALLEY AND MOJAVE RIVER AREA. 
 
 Total agricultural area 1,107,000 acres 
 
 Area under irrisation in 1920 22,000 acres 
 
 This section is south of the Sierra Nevadas, east of the Tehacbapi 
 Pass and north of the San Bernardino Mountains, and comprises por- 
 tions of Kern, San Bernardino and Los Angeles counties. The irrigable 
 agricultural lands lie in Antelope and Victor valleys in the western 
 portion of the ilojave Desert. These lands are located at the general 
 altitude of 3000 feet. The most fertile sections are the northern 
 slopes of the mountains which have a soil of disintegrated granite, 
 while the bottom lands show heavier soils sometimes impregnated with 
 alkali. 
 
 The climatic characteristics are high temperatures throughout a 
 large part of the year, a long hot summer, winters with occasional 
 frosts and .severe wind storms, a low humidity, and a very meager 
 rainfall. The northern slopes of the San Bernardino and San Gabriel 
 mountains receive seasonal rains. The daily range of temperature is 
 very great. 
 
 Agriculture is impossible without irrigation. There are but few 
 continuously flowing streams in or near the agricultural areas, but 
 subterranean waters are procurable from wells, in limited quantities. 
 Only about two per cent of the agricultural area is irrigated. Of this, 
 less than one-third is supplied bv gravity water, the remainder receiving 
 its accessory supply through draft on the ground waters underlying 
 the agricultural lands. 
 
 Antelope Valley in the western portion and Victor Valley in the 
 southern portion of this section, produce alfalfa and deciduous fruits 
 
WATER RESOURCES OF CALIFORNIA. 39 
 
 such as pears, apricots, almonds and apples. The marketing facilities 
 are adequate, the district being traversed by the main line of v railroad. 
 
 The severity of the desert climate and the deficient water supply 
 have put natural limitations on the development of this section, and 
 large areas will undoubtedly remain uncultivated for the want of 
 irrigation water. The measured average net annual iLse is 1.39 feet. 
 This is the mean of records for the equivalent of one season's measure- 
 ments on an area of 6,500 acres. A considerably larger quantity of 
 water is required for full production of general crops, but the available 
 water supply is very limited so that undoubtedly, crops requiring the 
 least irrigation water will be grown. From these considerations the 
 average net duty is disclosed as 2.0 feet in depth. 
 
 The average monthly use in per cent of the total seasonal supply is 
 revealed from the consideration of the growing period, monthly tem- 
 peratures, precipitation, probable crops to be grown and a comparison 
 with the use in other localities, and is : 
 
 January per cent 
 
 February per cent 
 
 March 3 per cent 
 
 April 10 per cent 
 
 May 16 per cent 
 
 June IS per cent 
 
 July 20 per cent 
 
 Au^st 18 per cent 
 
 September 10 per cent 
 
 October 5 per cent 
 
 November per cent 
 
 December per cent 
 
 SECTION 5. 
 INYO-KERN, OWENS AND MONO VALLEYS. 
 
 Total agricultural area 657,000 acres 
 
 Area under irrigation in 1920_.. 136,000 acres 
 
 This section lies east of the crest of the Sierra Nevada Mountains, 
 south of Lake Tahoe, and comprises all of Alpine and Mono counties 
 and portions of Inyo County. The section extends from the north end 
 of Alpine Countv to the southern boundary of Inyo-Kern Valley in Kern 
 Countv, an approximate distance of 225 miles. The principal agricul- 
 tural areas are located in the valleys of Walker River and :Mono Lake, 
 in Mono Countv, in the various subdivisions of Owens Valley, and m 
 Inyo-Kern Vallev. The altitude varies from about 25uu teet in Inyo- 
 Kern Valley to 6500 feet in the East Walker area. The average annual 
 precipitation is less than seven inches. There is in the higher valleys a 
 well-defined winter season. Stock raising and the growing of stock 
 feed to supplement the native grass on the range, constitute the chief 
 agricultural pursuit. The irrigable areas in the northern part of this 
 lo'iig narrow section are to be found on the tributaries of streams flow- 
 ing into Nevada, thus, in Alpine County, several thousand acres are 
 irrigated from the west and east forks of. Carson River, and in the 
 Antelope and Bridgeport regions, a much larger area is watered by the 
 tributaries of Walker River. Mono Lake, at an elevation of 6400 feet 
 
40 WATKR RESOURCES OF CALIFORNIA. 
 
 and iiaving an area of 54,000 acres, is fed chiefly by streams flowing 
 from the eastern slope of the Sierra Nevadas. The lake has no outlet, 
 but loses its water by evaporation. 
 
 Owens Valley is located in Inyo and Mono counties and embraces a 
 strip of agricultural land of from two to six miles in width and 120 
 miles in length. The average elevation is 4000 feet. The mean 
 monthly winter temperature drops as low as 35 degrees during the 
 months of November to March, and frosts are frequent. The summers 
 are hot and dry and the growing season extends from April to 
 October, during which irrigation is practiced. Owens Valley receives 
 an average seasonal precipitation of less than six inches, while a fairly 
 abundant rain and snowfall occurs on the ea.stern slope of the Sierras 
 and furnishes a water supply for both Mono and Owens valleys which 
 is in excess of their needs. The mountain ranges to the east of Owens 
 Valley receive but scant seasonal rainfall, and this does not contribute 
 materially to the water supply of the valley. The side slopes of the 
 valley are steep and the soil, which is a distintegrated granite with 
 extensive lava beds, is generally porous and conducive to large seepage 
 losses. The bottom lauds of Owens Valley are deficient in drainage. 
 Here are large grass areas and alkali flats that are not irrigated. These 
 are recipient of much of the drainage water coming from irrigation 
 on the more elevated land. These flats evaporate considerable amounts 
 of water, so that under present conditions only a part of the drainage 
 waters are available for re-use. 
 
 Inyo-Kern Valley occupies the southern part of this section and has 
 an average elevation of 2500 feet. The climate has all the characteris- 
 tics of the desert, with a hot and dry summer and occasional frosts in 
 winter, but the elevation of the valley accentuates the cold of the winter 
 nights so that the growing season is not perennial. The tributary 
 drainage area is deficient in water production, so that large portions of 
 this valley have no irrigation possibilities, unless it be by importation 
 of a supply from other districts. A small amount of ground water is 
 being developed from wells at the present time. 
 
 The slopes rising from the floors of these valleys, which are well 
 drained and have a sandy soil, offer the best farming possibilities. 
 Alfalfa and deciduous fruits are raised, the latter being probably the 
 more dominant crop on account of the lack of an adequate water 
 supply. 
 
 Mono Valley is without railroad transportation, it maintaining com- 
 munication through highways alone. The Owens and Inyo-Kern 
 valleys are served by a branch line of one of the transcontinental 
 railroads. 
 
 The average measured net annual use of irrigation water in this 
 section is 3.31 feet. Wherever water is readily obtainable, a liberal use 
 has been the prevailing practice. This excessive use of water, resulting 
 from the crude and wasteful methods of irrigation, has resulted in 
 much watei'-logging of agricultural lands and the accumulation of 
 alkali salts to a damaging extent, over large areas. The subdivision of 
 the larger holdings, the growing of more diversified crops, the im- 
 provement of canal systems and the more skillful application of water, 
 should bripg about, in time, a more careful use of water as it has in 
 
WATER RESOIRCES OF C.VLIFORNIA. 41 
 
 other sections of the state and, in anticipation of modifications to the 
 present practices similar to those which have elsewhere occurred, the 
 data discloses the annual net duty to be 2.5 feet in depth. 
 
 As a rule, little water is used for irrigation before the first of April, 
 or after the last of September. The desirable monthly distribution of 
 the annual supply during the irrigation period, expressed in per cent of 
 the total seasonal use, has been derived from the records of past use, 
 modified slightly to conform with conditions were there a fully regu- 
 lated water sujiply, instead of the natural stream flow, which is low 
 during the late summer months. It is as follows : 
 
 January per cent 
 
 February per cent 
 
 March 2 per cent 
 
 April 10 per cent 
 
 May 16 per cent 
 
 June 20 per cent 
 
 July 20 per cent 
 
 August IS per cent 
 
 September 10 per cent 
 
 October 4 per cent 
 
 November per cent 
 
 December per cent 
 
 SECTION 6. 
 
 SIERRA FOOTHILLS AND ROLLING PLAINS EAST AND SOUTH OF SAN 
 JOAQUIN VALLEY FLOOR. 
 
 Total agricuUural area l.SOO.OOO acres 
 
 Area under irrigation in 1920 77,200 acres 
 
 This section extends from the ^Mokelumne River to the Tehachapi 
 Pass, thence around the south end of the San Joaquin Yalh'v to a line 
 opposite Bnena Vista Lake and includes portions of the San Joaquin, 
 ■Calaveras, Stanislaus, Tuolumne, Pierced, Mariposa. Madera, Fresno, 
 Tulare and Kern counties. It includes all the agricultural lands above 
 the floor of the San -loaquin Valley on the western slope of the Sierra 
 Nevada ilountains and on the northern .slope of the Tehachapi. The 
 agricultural lands of the section are situated in the small valleys on 
 these slopes and on the foothills and rolling plains, and areas between 
 the flat floor of the valley and the mountains proper. 
 
 The surface conformation of the agricultural area in this section, 
 ranges from the gentle slopes along the foothills, which merge into 
 the valley floor, to the steeper slopes and irregularly broken and 
 scattered parcels at the higher elevations. The land rises rapidly and 
 with increasingly steep gradients, as it recedes from the floor of the 
 vallev. and some of the agricultural land attains a maximum elevation 
 of from 2500 to 3000 feet. 
 
 The soils along the foothill slopes are generally loams and gravelly 
 loams underlaid at varying depths with compact subsoils or hardpan. 
 and heavier soils. The soils of the higher lands have been mainly formed 
 ■from the weathering of gi-anitic rocks. They are micaceous, usually 
 friable, and commonly underlaid with more compact and less permeable 
 
42 WATER RESOURCES OF CALIFORNIA. 
 
 subsoils. At widely varying depth.s, but n.sually less than six feet, the 
 subsoil passes into partially disintegrated granite which frcfjuently con- 
 tinues for several feet before reaehin^' the unaltered rock. The surface 
 drainage is good and the lands of this section are free from alkali. 
 
 While the winters are cold and the precipitation relatively large 
 over the higher mountain areas, the climatic conditions on the lower 
 part of the area are similar to those of the valley floor. The summer 
 temperatures decrease slightly as the higher elevations are reached, 
 but in general the irrigation season has its beginning later in the 
 spring months. The present irrigated area in this section is only a 
 small part of the total area of agricultural land.s. The irrigated crops 
 are principally deciduous and citrus fruits, vines, and alfalfa. The 
 thermal belt, extending along the foothills and below an elevation of 
 1200 feet, gives a large area that is adapted to the raising of citrus 
 fruits. Alfalfa is mostly limited to the lower plains and to some of the 
 flatter lands located in the smaller valleys in the liills. 
 
 Good railroad transportation facilities are afforded the regions along 
 the lower edge of this section by two transcontinental lines. Branches 
 of these lines, and electric railroads extend into the more developed hill 
 area of this section, however, much of the higher lands of Section 6 
 require a long haul to reach shipping points on the railroads. 
 
 Of the lands bordering the valley, the favorable gradients of the 
 surface slope, and their elevation above the floor of the valley and above 
 the bottom of the stream beds that traverse this area, give it a good 
 drainage. 
 
 The water supply is dependent principally on streams and rivers that 
 have their origin in the high Sierras, and which flow through this area 
 to the San Joaquin Valley floor below. As much of the normal flow, 
 and practically all of the late summer and autumn flow, is already 
 utilized, the development of irrigation water for the rest of this section 
 is dependent on the storage of flood waters and on a limited amount of 
 ground water. For this reason, as well as the irregular surface contour, 
 the cost of irrigation development will necessarily be high for most of 
 the area. 
 
 The agi-icultural growth of this section indicates that the future 
 development will be principally in the intensive farming of the higher 
 priced irrigated crops. The large area included in the thermal belt will 
 make citrus fruits an important crop, also. It is anticipated that 
 deciduous orchards and vineyards, with some alfalfa and miscellaneous 
 crops, will comprise the remainder of the products grown on the 
 irrigated area. 
 
 The net u.se of water for citrus land ranges from 1.5 to 2 feet; the 
 average net annual use obtained on the Lindsay-Strathmore and Terra 
 Bella irrigation districts, where citrus crops predominate, is about 1.5 
 feet in depth, although the use on these districts has been limited 
 by the scarcity of water. The use for the other crops will be somewhat 
 less than on the floor of the valley, because alfalfa will naturally be a 
 minor crop and conditions will demand a careful use of water. These 
 considerations reveal that the average pnnual net duty for this sectioD 
 is 1.75 feet in depth. 
 
WATER RESOURCKS OF CALIFORNIA. 43 
 
 The monthly use of water in the past on the Lindsay and Terra Bella 
 distrifts, is of value in determining the ultimate monthly use for lands 
 devoted principally to citrus fruits. For other crops the monthly use 
 determined for the San Joaquin Valley floor, is more representative. 
 The desirable monthly distribution, in per cent of the total seasonal use 
 for this section, determined from these data is : 
 
 January per cent 
 
 February 1 per cent 
 
 March 3 per cent 
 
 April 10 per cent 
 
 May 16 per cent 
 
 June Ig per cent 
 
 July IS per cent 
 
 August 16 per cent 
 
 ■September 11 per cent 
 
 ■October — 6 per cent 
 
 November 1 per cent 
 
 December per cent 
 
 SECTION 7. 
 SAN JOAQUIN VALLEY FLOOR. 
 
 Total agricultural area 5.468,000 acres 
 
 Area under irrigation in 1920 2,712,000 acres 
 
 Section 7 comprises about two-thirds of the total agricultural area 
 of the great central valley, and consequently 25 per cent of the total 
 agricultural lands of California. It contains the largest irrigated dis- 
 trict of the state. Broadly speaking, it includes that portion of the 
 great valley that lies between the Sierra Nevada and Coast Range 
 mountains, from the Tehachapi Pass on the south to Cosumnes River 
 and the lower delta lands of Suisun Bay on the north. The rdluvial fan 
 of Kings River forms a low ridge which separates the Tulare Basin, or 
 the southerly portion, from the remainder of the valley. Portions of 
 Contra Costa, San Joaquin. Stanislaus, Merced, Madera, Fresno, 
 Kings, Tulare and Kern counties are included in this section. 
 
 Kings River, during flood stage, flo^-'s in part through Fresno 
 Slough into San .Joaquin River, and in part into Tulare Basin. The 
 other main streams entering the Tulare Basin are the Kern, Tule and 
 Kaweah rivers. The drainage basins of these streams extend into the 
 high Sierras and, during years of more than normal flow, their flood 
 waters reach Tulare Lake. Through evaporation and non-replenish- 
 ment from flood waters in all seasons, a large part of the bed of Tulare 
 Lake periodically becomes dry, and is put under cultivation. Levees 
 have been built to restrict the flooded area of this lake bed. With the 
 extension of irrigation and the development of storage of flood waters, 
 the frequency and extent of overflow will be reduced. Kern River dis- 
 charges into Buena Vista Lake, which has been converted into a storage 
 reservoir by the construction of earth embankments, and now. only 
 during exceptional flood years, do surplus flood waters reach Tulare 
 Lake from this river. 
 
 Upper San Joaquin River is the first important stream north of the 
 Kings River ridge. The San Joaquin rises in the high Sierras and flows 
 
44 WATER RESOURCISS OF CALIFORNIA. 
 
 down the westerly slope of this range in a southwesterly direction until 
 it reaches the trouiih of the valley, where it turns and flows alonj^ the 
 trough in a northwesterly direction to Suisun Bay. The main tribu- 
 taries of the San Joaquin River in order from south to north, are: 
 Merced, Tuolumne, Stanislaus. Calaveras and Mokelumne rivers. All 
 their drainage areas, except the Calaveras, exteud into the high Sierras. 
 The maximum flood flows occur during the mid-winter months and 
 result from excessive rainfall, but are of short duration. The more 
 continuous flood flows are produced by melting snows, and these occur 
 during the months of ^lay and June. The stream flow then diminishes 
 rapidly and is small during the late summer and autumn months. 
 
 The smaller streams draining into the San Joac[uin Valley, whose 
 drainage basins do not reach into the high mountains, are fed largely 
 by rain water ; they are intermittent and more torrential in character. 
 The streams that have their watersheds on the east slope of the Coast 
 Range, are of less importance, since the precipitation on this slope is 
 small, and the run-off is subject to wide fluctuations ^rith little or no 
 dependable flow during dry years. 
 
 A strip of low lands along the trough of the San Joaquin Valley and 
 extending from the mouth of Upper San Joaquin River near Kings 
 River ridge, to about the mouth of the Stanislaus, being in width from 
 about one to twelve miles, is below the high water level reached during 
 the maximum floods. These lands are, in part, reclaimed and protected 
 from overflow by levees. Below the mouth of the Stanislaus, is the San 
 Joaquin delta proper which merges with the delta of the Sacramento 
 and Mokelumne rivers. 
 
 The lands in this section range from 450 feet above sea level at the 
 southerly end. to slightly above sea level for the lands adjacent to the 
 delta region in the north. The average longitudinal slope of the floor 
 of the valley, from the Kings River ridge on the south, to th-:- mouth of 
 the Stanislaus on the north, is about two feet to the mile. The transverse 
 slope towards the trough of the valley, increases from less than five 
 feet. to a mile for some of the flattened or basin-like surfaces in the 
 lower parts of the valley adjacent to the trough, to from five to ten feet 
 per mile for the main body of the land on either side of the valley, and 
 from ten to forty feet per mile for the lands near the foothills. In 
 general, the slopes on the ea.stern side of the valley are somewhat flatter 
 than those on the western side. The favorable slope and smoothness of 
 the surface make the cost of con.struction of distribution ditches and 
 the preparation of lands for irrigation, relatively low; on the other 
 hand, this advantage is offset on flat slopes toward and along the trough 
 of the valley, coincident with the low elevation and the decreasing 
 depth of the river and creek channels as they reach the trough, by poor 
 drainage conditions and limit the amount of surplus irrigation 
 water which can enter the soil and be carried away through natural 
 underground drainage and require the construction of drainage canals. 
 
 The valley floor is the result of the filling from unknown depths, of 
 material washed down from the enclosing mountains and distributed 
 across land surfaces as alluvial fan material. There is considerable 
 variation in the texture and other properties of the soil and subsoil, not 
 
WATER RESOURCES OK CALIFORXIA. 45 
 
 only in areas far apart, but also in adjacent small areas. In general, 
 the soils of the land on the east side of the valley and north of Kings 
 River, vary from coarse, sandy loams to clay loams \rith medium sandy 
 loams predominating. The soils are generally underlaid with compact 
 subsoils and in some cases with more or less continuous^ indurated or 
 hardpan layers. The hardpan varies from a few inches to one or more 
 feet in thickness and is found at depths that range from near the surface 
 to six feet or more. Tliis presence of compact subsoil or hardpan under 
 most of the coarse, sandy soil, permits the irrigation of these soils with- 
 out an excessive use of water. The soils on the ea.st side of the valley, 
 south of the Kings River, are generally sandy loams, loams and clay 
 loams, but not underlaid by hardpan ; they are retentive of moisture 
 and are productive under sparing applications of water. 
 
 The soils on the entire western side of the San Joaquin Valley, are 
 generally more compact in texture and retentive of moisture than the 
 soils on the east side, and consist principally of loams and clay loams. 
 
 Alkali lands occur in scattered spots or streaks of a few acres in 
 extent, to bodies of land that include several thousand acres or more. 
 North of the Kings River ridge, alkali areas are confined largely to the 
 flatter slopes and the basins lying adjacent to and along the trough of 
 tlie valley. South of tlie Kings River ridge and in the Tulare Basin, 
 there is a belt of alkali-free land averaging several miles in width and 
 extending along the lowest part of the vallej- from Tulare Lake on the 
 south, to the ridge on the north. This strip is bordered on the west by a 
 continuous body of alkali soils varying in width from less than one 
 mile to six or seven miles. This one continuous body of alkali soil com- 
 prises practically all of the alkali lands on the west side. On the east 
 side of the Tulare Basin, excepting for this belt, the alkali soils are 
 largely confined to the fiatter slopes and to scattered bodies of land 
 where high water table conditions exist. The steeper slopes near the 
 foothills are usually free from alkali. While some of the alkali lands 
 were formed by the accumulation of alkali salts through natural pro- 
 cesses and prior to the initiation of irrigation, the area of alkali lands 
 has been increa.sed in extent through the rise of the groundwater level 
 and resulting concentration of alkali salts near the surface of the soil. 
 This has come about through the apjjlication of irrigation waters to 
 adjacent lands and inadequate drainage for the removal of the deeper 
 percolating water from these applications. 
 
 The main characteristics of the climate of the San Joaqviin Valley are 
 warm, dry summers and moderate winters. The temperatures increase 
 and the rainfall decreases from north to south. There is a long, dry 
 season almost without rain, extending from Jlay to September. During 
 the period from June to September, inclusive, there is a mean rainfall 
 of less than one-half inch. The mean annual rainfall ranges from about 
 five inches in the south to about fifteen inches in the north. 
 
 The mean annual temperature ranges from 60 degrees to 65 degrees, 
 with the mean monthly temperature having a variation between 46 
 degrees in January, and about SI degrees in July. Minimum temper- 
 atures of 20 degrees and maximums of 115 degrees are occasionally 
 attained. The sun during the slimmer months, shines about 95 per cent 
 of the hours between sunrise and sunset. The growing season is long; 
 
46 WATER RESOURCES OP CALIFORNIA. 
 
 the average frost-free period extends from about iMareh 1st to the middle 
 of Novemlier, though killing frosts have oer-urred as late as the middle 
 of April and as early as the first week in November. The prevailing 
 winds are from the northwest ; they attain their highest average velocity 
 in May and June, being reported at Fresno as 10.0 and 9.3 miles per 
 hour for these months, respectively. 
 
 Transportation facilities are good throughout the valley, there being 
 over 1400 miles of raih-oad tracks, not including sidings and spurs. 
 Two transcontinental lines which traverse the entire length of the 
 valley, with their branches, serve a large portion of this area. 
 
 The production of dry-farm grain, w'hieh has been an extensive pur- 
 suit in the valley, has become of less importance through the extension 
 of irrigation. Grain is now grown with irrigation where the rainfall 
 is deficient and not dependable, to rotate with crops, or in double 
 cropping when it is followed by a second crop of corn or beans. Alfalfa 
 is an important irrigated crop, especially during the early years of 
 development of an irrigation project. In the Modesto District, the 
 area in alfalfa reached a maximum of 87 per cent of the total area 
 in crops for the year 1911, but decreased to 40 per cent of the total 
 for the year 1921. In the Turlock District, the percentage decreased 
 from a maximum of 73 per cent in 1914, to 31 per cent iu 1921. 
 Alfalfa is an important crop on the west side of the San Joaquin Valley 
 and on lands that are irrigated with the waters of Kern River. On 
 the other hand, it is a less important crop on lands supplied with waters 
 from Kings River. The available data indicate that with an ample 
 supply throughout the season, the area in alfalfa pastures on different 
 projects would range from 20 to 50 per cent of the cropped area and 
 will average about 35 per cent for the entire valley. 
 
 The vineyards and deciduous orchards are of growing importance, 
 and are gradually being planted on areas that have been previously 
 devoted to alfalfa and general field crops. In the Fresno Irrigation 
 District, the area in grapes and deciduous orchards is 55 per cent of the 
 gross area planted to crops, but on later projects, such as the Modesto 
 District, the percentage is 20, while on the Turlock District, it is 12 per 
 cent. The available data indicate, that with an adequate irrigation 
 supply, the area in orchard or vines on different projects will I'ange 
 from 10 to 60 per cent and will average 30 per cent for the entire 
 San Joaquin Valley. Sorghum, corn, sugar-beets, melons, beans and 
 other minor crops are successfully grown in the San Joaquin Valley, 
 and will make up the renuiinder, or 35 per cent of the irrigated crop- 
 area. 
 
 The water supply for irrigation use iu the San Joaquin Valley 
 has been in the past, largely a diversion of the direct stream 
 flow, unregulated by storage and receiving but small increments 
 of water from underground sources. The marked features of the stream 
 flow are large flood flows during the months of May and June, 
 with a rapidly decreasing flow during July, and with very small flows 
 for the remainder of the irrigation season. This results in an abundant 
 supply during the early months of the irrigation season, which may 
 extend into July during wet years, but a deficient supnly in the later 
 
WATER RESOURCES OF CiVLIFORNLV. 47 
 
 summer months. Because of the uucertainty of the duration of the 
 wlater supply, aud the resulting attempt to store water in the soil for 
 use later in the season, excessive amounts of irrigation water have been 
 applied to the laud during the early months of the irrigation period. 
 With an ample supply throughout the season, a better distribution and 
 less wasteful use of water will result. 
 
 The underground water is an important source of irrigation supply. 
 It occurs extensively and can be economically developed through pump- 
 ing from wells. These undergi-ound waters have their source in the 
 seepage from the rivers and irrigation canals, and from the surplus 
 irrigation waters applied to the land, which pass down through the soil 
 beyond the reach of the plant roots. Where the supply is unreplen- 
 ished, as in those areas toward the foothills on the west side, the quan- 
 tity of underground water is deficient in amount, or can not be economi- 
 cally lifted to the ground surface. The development of underground 
 water as a source of irrigation supply, has been very rapid. In 1909, 
 the area irrigated from underground water wa.s 91,000 acres; it 
 increased to 171,800 acres in 1912, and to over 400,000 acres in 1920. 
 In some areas the annual withdrawal of water has approached, if not 
 actually exceded, the replenishment. 
 
 Prior to irrigation, the groundwater table under the lands not irri- 
 gated was at a considerable depth below the earth's surface. In some 
 of the first wells near Fresno, the depth to the water surface was sixty- 
 five feet. The depth to water in a number of wells in the Modesto 
 Irrigation District for the year 1904, which was the first year of irri- 
 gation, ranged from 12 feet to 78 feet below the ground surface. 
 During the early years of an irrigation project, before a large portion 
 of the area is irrigated, because of the abundant supply, water is used 
 rather promiscuously and quantities of water are applied to the land 
 far greater than the soil can retain, or the plant growth utilize. On 
 the ilodesto District, the volume of water diverted from the Tuolumne 
 River per season, during the first four j'ears, averaged about 10 feet in 
 depth over the land irrigated. Occurrences similar to this have been 
 experienced on nearly all large irrigation projects. Surplus water 
 applied to the land, together with the seepage losses from canals, moves 
 downward through the earth until they reach and unite with the 
 groundwater. When the increment added to the groundwater is greater 
 than the quantities subtracted from it, the water table ri.ses, and on 
 occasions reaches so near the surface that large acreages suffer from an 
 excessiveh' high water table, with, in many cases, a gradual accumu- 
 lation of alkali salts at the surface of the ground. With the added 
 increments exceeding the subtractions, the water table continues its 
 rise until the evaporation loss from the water-logged lands, together 
 with the underground drainage, equals the surplus irrigation water 
 applied and then a condition of equilibrium is reached. 
 
 On one large area of the San Joa(iuin Valley, 66 per cent of the terri- 
 tory had a water table within four feet of the surface for a period of 
 one month. On another large tract elsewhere in the SaTi Joaquin 
 Valley, over 30 per cent of the area had a water table within four feet 
 of the ground surface for a period of three months. On two irrigation 
 
48 WATER RESOURCES OF CALIFORNIA. 
 
 districts, the water table has been within six feet of the surface for a 
 period of one moutli ; more than 40 per eent of the area of one district 
 and over 60 per eent of the area in the other district, was so atl'eeted. 
 On many hirge bodies of hind receiving gravity irrigation water, and 
 where the groundwater table is within the zone of plant roots, the 
 wbter table seasonal fluctuation is from three to five feet. It 
 rises rapidly after the beginning of the irrigation season, attains its 
 maxinuim in June and July, and then recedes. The result of this 
 fluctuation is that the deeper root sy.stem is drowned out with their 
 submergence by the rising water table and the occurrence as a whole 
 is disastrous to plant growth. 
 
 The water-logging results from the surplus irrigation water being 
 greater in amount than can be carried away by the underground drain- 
 age. To remedy or ameliorate the water-logged condition, tlic lining of 
 canals to prevent seepage, and artificial drainage, have been resorted to 
 on a number of pro.jects. The lowering of the water table by pumping 
 from the groundwater is now being successfully carried out in some 
 parts of the valley. This practice not only drains the land, but also 
 recovers water which is available for second use. This recovery of 
 underground water by pumping from wells, the lining of those canals 
 that sutt'er excessive losses, the more economical use of irrigation water 
 will, to a large extent, prevent water-logging and will also })ermit the 
 irrigated area to be extended. 
 
 The extensive development of irrigation in the San Joaquin Valley 
 dates from about 1870. The first large system constructed was that of 
 the San Joaquin and Kings River Canal and Irrigation Company, which 
 first diverted water from San Joaquin River in 1872. This was 
 followed by extensive canal construction about Fresno, and in Tulare 
 and Kern counties. By 1880, the total area irrigated in the San Joaquin 
 Valley had reached 188,000 acres. The greater part of this was planted 
 to cereals, a considerable acreage in alfalfa, and the remainder in 
 orchards and gardens. About 1880, the fruit industry began to assume 
 importance, and from this time on, irrigated agriculture developed 
 rapidly. To about 1887, all the development was made by private 
 enterprise. In 1887, the state legislature passed the Wright Act which 
 provided for the organization and bonding of districts for the construc- 
 tion of irrigation works by vote of residents within the district bounda- 
 ries. In 1897, the Wright Act was amended and superseded by the 
 Bridgeford Act. Since that date development through the organization 
 of irrigation districts has been very rapid and nearly all of the increase 
 in the area irrigated has been accomplished through district organi- 
 zation. There are now about 30 organized districts in the valley. 
 
 The total agricultural area on the valley floor is 5,46'8,000 acres, and 
 the total irrigated area in 1920 was 2,712,000 acres. This irrigated 
 area includes a small acreage of lands in the foothills. 
 
 The present area irrigated has been largely dependent for its water 
 supply on the direct diversion of natural stream flow and on the 
 utilization of ground waters pumped from wells. The crops grown 
 have been selected because of their adaptability to the uncertain irriga- 
 tion season. Some areas or districts depending on natural stream flow. 
 
WATER RESOURCES OF CALIFORXLV. 49 
 
 liave enjoyed a good supply either ou account of their prior rights, or 
 because the area utilizes only a very small part of the total flow of the 
 stream. On the other areas, attempts have been made to irtilize a 
 larger part of the uatural stream tiow by applying some of the flood 
 waters to lands devoted to the gro^rth of grain, alfalfa or pasture, in 
 the anticipation that these crops might be grown with occasional 
 irrigation and thus avoid, to some extent, the total waste of flood 
 waters. However, intensive irrigated development has been limited 
 to those areas which have a dependable supply of water each year and 
 during at least part of the usual irrigation season. Tlie "variable 
 character of the stream flow tributary to the San Joaquin Valley, and 
 the low summer flow, are such that the demands for water of the 
 present area irrigated, even in yeai-s of exceptionally heavy run-off, are 
 greater than the low water summer-flow of the streams. 
 
 Further development is dependent upon the bettef and more complete 
 utilization of the water supply. This involves the economic application 
 of water to the land to prevent excessive waste, the avoidance of 
 abnormal conveyance losses, tlie recoveiw of underground waters 
 through pumping and the maintenance of an adequate drainage, and 
 tlie regulation of stream flow through the storage of flood waters. Such 
 improved utilization of water is proceeding advantageously in a number 
 of districts and hirge storage reservoirs are being built, or are in con- 
 templation: ditches are being lined with concrete: drainage problems 
 are receiving more serious consideration, and these are resulting in a 
 more intensive cropping of the higher priced fai-m products and 
 enhanced yield from the plantings of standard crops. 
 
 The rate of use of irrigation water varies considerably, not alone in 
 different localities of the valley, but also on individual farms. The 
 variations of climatic conditions are not sufficiently marked to account 
 for the dift'erence in water requirements of the several localities . 
 while the precipitation increases and the temperature decreases from 
 .south to north, the ditference in rainfall does not represent an equal 
 difli'ereuee in water requirements. The capacity of the soils to hold 
 moisture is limited, and the late spring rainfall is small, and tiie precipi- 
 tation is practically nothing during the normal growing season. 
 
 The variations of .soil in texture are considerable, but as the larger 
 part of the more porous soils are underlaid with impervious materials, 
 the water requirements for sandy soils are not very different from those 
 of the more retentive soils. The use of water varies with the kind of 
 crops grown, but the largest variation in use of water on lands which 
 have essentially the same climatic conditions, the same .soil, and growing 
 the same crops, is generally due to the amount of available water and 
 its cost. "With a supply regulated to insure irrigation during the full 
 active growing period, and having experienced the destructive and 
 expensive effects of the rise in the groundwater table, from deep 
 percolation of excess irrigation water, a more saving use is going to be 
 the practice. Alfalfa, which is an important crop, will produce full 
 yields with 2.0 to 3.5 feet of water applied on the land. The smaller 
 quantity is sufficient for the retentive soils where natural underground 
 drainage is limited, and the groundwater less than eight to ten feet 
 
50 WATER RESOURCES OF CALIFORNIA. 
 
 from the surface; the larger quantity of water is reciuired for maximum 
 yields on the more porous soils and where subsoils have good under- 
 ground drainage and a greater depth to the water tal)le exists. Less 
 than the smaller amount is now being used on the Patterson Water 
 Company project, in the northwestern part of the valley, where 88 per 
 cent of the 16,000 acres is alfalfa. This project derives its water supply 
 by pumping from the lower San Joaquin River, water is available 
 throughout the gi-owing season, and the .soils generally are retentive 
 loams and clay loams. The average net duty for alfalfa with an ample 
 supply throughout the season is 3.0 feet in depth in the San Joaquin 
 Valley. 
 
 Deciduous orchards and vineyards are sometimes so situated that 
 they derive sufficient moisture from the soil without surface irrigation, 
 but as the future demand for irrigation water will undoubtedly lower 
 the ground water elevation, these areas will have to be irrigated from 
 surface supplies. The number of irrigations for a full season with a 
 regulated How, will range from two to four, and the quantity of water 
 applied to the laud from one to two feet. The average duty for 
 orchards and vineyards in the San Joaquin Valley is 1.5 feet in depth. 
 
 Cereals are frequently raised on the more retentive soils with one 
 heavy irrigation and on less retentive soils with two applications of 
 irrigation water. Corn and other general field crops usually require 
 two to four irrigations. Cereals are sometimes followed by a crop of 
 corn, beans, or other sununer crops in which case the laud which is 
 double cropped receives from two to four irrigations. This practice 
 is increasing with the development of full season supplies. 
 
 The net duty for cereals, corn, sugar beets, potatoes and other general 
 field crops, ranges from one to two feet, with an average net duty for 
 these, allowing for the increase in double cropping, of 1.5 feet in depth. 
 
 The gross use for 21-4,000 acres served by the Fresno-Gould Canal 
 for the seasons from 1915 to 1919, inclusive, is less than two feet and 
 averages 1.6-4 feet in depth. This area is highly developed and 55 per 
 cent is in trees and vines. Other large and highly developed areas, 
 that receive water from Kings River, have gross uses of less than two 
 feet, and even with this amount of water some of the lower lands have 
 become water-logged and are in need of drainage. 
 
 These considerations reveal that the average net duty for the entire 
 San Joaquin Valley floor, considering the extent to which the various 
 crops will be grown and the water requirements of these crops, is two 
 feet in depth. This net duty agrees well with that obtained at the 
 present time on areas which have satisfactory irrigation supplies, and 
 are devoted to an intensive and diversified farming and have a reason- 
 ably good standard of irrigation practice and agricultural methods. 
 An average net duty of two feet with a desirable distril)ution through 
 the season, will result in less water being added to the groundwater, a 
 reduction in the expense for drainage, a smaller seasonal fluctuation in 
 the water table and a lower water table during the summer months, and 
 it will still furnish ample moisture for plant growth. 
 
 Considerable data are available on the monthly use of water on a 
 number of projects in the San Joaquin Valley, which are favored with an 
 
WATER RESOURCES OF CALIFORNIA. 51 
 
 adequate supply for the entii'e irrigation season and the deficiency 
 during the latter part of the season on other well developed projects, 
 can be estimated. There are 263 records, an equivalent of one year's 
 record on 9.30-4,000 acres, of actual distribution of the seasonal use of 
 water in this valley. There are also 24 estimates by consulting 
 engineers, covering an undetermined acreage, on the monthly use for 
 a full seasonal supply. These data have been fully considered, and the 
 desirable monthly use, expressed in terms of per cent of the total 
 seasonal supply, is: 
 
 January per cent 
 
 February 2 per cent 
 
 March 5 per cent 
 
 April 11 per cent 
 
 May 17 per cent 
 
 June 18 per cent 
 
 July 18 per cent 
 
 August 15 per cent 
 
 September 10 per cent 
 
 October 4 per cent 
 
 November per cent 
 
 December per cent 
 
 SECTION 8. 
 WESTERN SLOPE OF THE SOUTHERN SAN JOAQUIN VALLEY. 
 
 Total agricultural area 971,000 acres 
 
 Area under irrigation in 1920 20,400 acres 
 
 This section is the portion of the western slope of the San Joaquin 
 Valley that extends from near Buena Vista Lake on the south, to a point 
 opposite ^lendota on the north, and comprises portions of Kern, Kings 
 and Fresno counties. Its surface rises gradually from the floor of the 
 vallej- with increasing slopes towards the base of the Coast Range 
 Mountains. 
 
 The larger part of the agricultural lands form a smooth sloping sur- 
 face, which merges at the lower elevations into the flat lands of the 
 valley floor. The general altitude varies from about 150 to 500 feet 
 above sea level. 
 
 The run-otf of the eastern slope of the Coast Range, which crosses 
 this section, is concentrated in the channels of small intermittent 
 streams, usually of not sufficient size to maintain well-defined channels 
 very far down the slopes toward the trough of the San Joaciuin Valley. 
 A few of them have gravelly beds for several miles into the valley after 
 their emergence from the foothills, but during dry years little or no 
 water reaches the valley floor. 
 
 The soils are generally of heavier types and are mostly loams, silt 
 loams and clay loams, underlaid by similar subsoils. They are free 
 from alkali and) are retentive of moisture. Their surface is generally 
 favorable to cultivation and irrigation. 
 
 The climatic conditions are similar to those of the adjacent valley 
 floor described in Section 7; the mean annual rainfall is somewhat 
 less, however, averaging seven inches in depth. 
 
52 WATEE RESOURCES OF CALIFORNIA. 
 
 Water is scant and very little of the area Ls irrigated. Because of 
 the small rainfall, dry farming is precarious and but little is done. 
 Most of the land is used for pasture. With irrigation tlie land is well 
 adapted to growing alfalfa, deciduous fruits, small grain, sorghum 
 and for the culture of vegetables. 
 
 The transportation facilities are the main line of a transcontinental 
 railroad traversing the lower margins of this section and a branch line, 
 crossing the southern end to Coalinga. 
 
 There is verv little irrigated land in this section. The groundwater 
 supply is very limited, and, if found at all, is at great depth below the 
 surface. The developmeut of irrigation for this .section depends on the 
 very limited supply from the intermittent streams of the eastern slope 
 of the Coast Range, or on waters which may be brought in from outside 
 sources. At best it will be expensive. 
 
 The water requirements are essentially the same as for the lands in 
 the floor of the valley. The limited water supply, its high cost of 
 development, and use on soils which are retentive of moisture, will 
 result in a more saving use of water for this section than for other parts 
 of the San Joaquin Valley. These considerations disclose that the 
 average net duty of water for this section is 1.75 feet in depth. 
 
 The desirable monthly distribution in per cent of the annual supply 
 is the same as that for the San Joaquin Valley floor, and is : • 
 
 January per cent 
 
 February 2 per cent 
 
 March 5 per cent 
 
 April 11 per cent 
 
 May 17 per cent 
 
 June IS per cent 
 
 July 18 per cent 
 
 August 15 per cent 
 
 September 10 per cent 
 
 October 4 per cent 
 
 November per cent 
 
 December per cent 
 
 SECTION 9. 
 SANTA BARBARA, SANTA MARIA AND SAN LUIS OBISPO AREAS. 
 
 Total agricultural area 410,000 acres 
 
 Area under irrigation in 1920__ 25,000 acres 
 
 This section is on the Pacific slope of the Coast Range Mountains, 
 and extends from the crest of this range to the ocean shore, and from 
 the ridge west of the Ventura River on the south, to the confluence of 
 the Nacimiento with the Salinas River on the north. Portions of 
 Ventura, San Luis Obispo, Monterey and all of Santa Barbara counties 
 lie in this section. 
 
 The agricultural lands are on the ocean shore between Santa 
 Barbara and San Luis Obispo, in the valleys and flat bottom lands, 
 and on the gentle slopes of low hillsides surrounding the valleys. These 
 agricultural valleys are mostly at altitudes of less than 1000 feet, 
 excepting the Cuyama Valley which is above 2000 feet. 
 
WATER RESOfRCES OF CALIFORNIA. 53 
 
 The coastal range which traverses this section is formed largely of 
 sedimentary deposits of shales, saucLstones and conglomerates. There 
 are. however, isolated granitic mountain masses. The soils formed from 
 their erosion, are predominantly sandy loams, with loams and clay in 
 some of the interior valleys. 
 
 The climate is moderate and equitable and there are no great depai't- 
 ures from the mean temperatures. It exhibits the moderating influence 
 of the Pacific Ocean, the average winter temperature being around 
 50 degrees. Fogs are common and conserve the soil moisture by 
 retarding evaporation of water from the cropped area. The winter 
 is the principal period of precipitation. The active gi-owing season 
 is long and without great extremes of heat. Dry farming is profitably 
 practiced. The moist climate along the coast is favorable for the raising 
 of grain, beans, sugar-beets and vegetables, and there are considerable 
 areas devoted to the raising of these and flower seeds. 
 
 The growing seasons for the different crops overlap and in the aggre- 
 gate extends throughout the whole year. The principal precipitation 
 occ^irs in the months of November to March, inclusive, and averages 
 over sixteen inches. The interior valleys and tablelands are suitable 
 for raising deciduous fruit trees, sugar-beets and alfalfa, which requir? 
 but one or two irrigations per season. 
 
 The available water supply is adequate for the coastal valleys, but 
 is deficient in volume for the regions away from the coast. The trend 
 of agricultural development is toward intensive cultivation of small 
 farm units. 
 
 The use of water for the different crops varies from six inches or less 
 for beans, vegetables, and other shallow-rooted plants grown along the 
 marginal agricultural lands adjacent to the coast, to twenty-four inches 
 or more for alfalfa in the interior valleys. The water requirements for 
 lands in this section will be less than for Section 1, the Los Angeles 
 area, which adjoins it on the southeast, and should be essentially the 
 same as for Section 2, the San Diego area. The average net duty for 
 this section therefore, is 1.5 feet in depth. 
 
 The desirable monthly distribution in per cent of the annual sup- 
 ply is : 
 
 January 2 per cent 
 
 February 2 per cent 
 
 March I 2 per cent 
 
 April 5 per cent 
 
 May 12 per cent 
 
 June 16 per cent 
 
 July 20 per cent 
 
 August 16 per cent 
 
 September 13 per cent 
 
 October 8 per cent 
 
 November 2 per cent 
 
 December 2 per cent 
 
54 WATER RESOURCES OF CALIFOHNU. 
 
 SECTION 10. 
 SALINAS AND CONTIGUOUS VALLEYS. 
 
 Total agricultural area 296,000 acres 
 
 Area under irrigation in 1920 72,000 acres 
 
 Most of the agricultural lands of this section are located in the 
 lower Salinas Valley in Monterey Couuty, and extend from the con- 
 fluence of Naeimiento and Salinas rivers on the south, to the mouth of 
 the Salinas River on the north. There are other smaller area.s of arable 
 lands to be found in the valleys of Carmel, San Antonio, Priest, Bitter- 
 water and Peach Tree, in Montere.v and San Benito counties. 
 
 The soils of the Salinas Valley are derived from the rocks of the 
 Coast Range which include a variety of shales, sandstones, limestones, 
 schists, gneiss and granitic rock. The soils of the bottom lands and 
 the alluvial delta in the lower portion of the valley consist of recent 
 alluvial deposits eroded from the variety of rocks occurring in the 
 drainage basin of the Salinas River. The soils range in texture from 
 loose drifting sands to heavy clay adobes. With the exception of the 
 lighter textured sandy types, the^y are of moderate to high organic- 
 matter content and are productive under irrigation. Drainage condi- 
 tions are not quite so favorable for fruits in the alluvial delta as in 
 the more elevated lands and terraces, but the former is more favorably 
 situated for irrigation and is underlaid by friable and permeable 
 stratified sediments. 
 
 The average annual precipitation over the floor of the lower Salinas 
 Valley is fifteen inches, of which over 80 per cent occurs from the first 
 of November to the end of March. The rainfall during the remaining 
 seven months is so small and uncertain that it is a negligible factor 
 in nourishing plant life. Soil moisture is conserved by the prevalence 
 of summer fogs; on the other hand, the evaporation of moisture is 
 increased by the trade winds which enter the valley from Monterey 
 Bay. 
 
 In common with man.y other parts of the state, cereals grown without 
 irrigation constitute the principal crop. Here, as elsewhere, the yields 
 from grain crops have decreased and other crops, many of which are 
 irrigated, have taken their place. Conditions in the lower Salinas 
 Valley are well adapted to the growing of such crops as alfalfa, sugar- 
 beets, potatoes and beans, as well as deciduous orchards, and under a 
 suitable system of crop rotation large returns are possilile under irriga- 
 tion. The greater portion of the agricultural lands of this section have 
 adequate railroad facilities. The Salinas Valley is traversed from end 
 to end by a main line railroad. 
 
 Water supply for irrigation may be developed from the surface flow 
 or the storage of the flood flow of streams, and the pumping of under- 
 ground water. Storage of the large quantity of flood water which is 
 discharged annually into Monterey Bay, would also remove the flood 
 menace which threatens destruction to property along the river banks. 
 Pumping from underground water would provide an excellent irriga- 
 tion supply as well as prevent injury through the water-logging of 
 lands by too high a rise of the groundwater level such as has been 
 experienced in other localities similarly disposed. 
 
WATER RESOURCES OP CALIFORXIA. 55 
 
 In the past, development nnder irrigation has been retarded by the 
 large number of ranches of more than 10.000 acres each. Until 
 recently, the sentiment has been opposed to irrigation. As time goes 
 on. the large land holdings will be subdivided and a more intensive 
 utilization of the land be brought about. The increased productivity of 
 the lands under irrigation will gradually establish the practice through- 
 out the section. 
 
 The mea.sured net annual use is 1.S2 feet in depth. This is the 
 mean of five records and is the equivalent of one year's measurement 
 on 5790 acres. These data reveal that the average net duty is 1.75 feet. 
 
 About nine inches of rain falls on an average, during the first four 
 months of each calendar year, and for the crops now grown, little 
 irrigation water is needed until the latter half of April, neither will 
 water be needed, as a rule, after the last part of September. The 
 irrigation season may, therefore, be said to extend from April 15th to 
 September 30th, with a small use for special requirements in both 
 March and October. 
 
 The desirable monthly distribution in per cent of the annual supply 
 will approach that of the San Joatiuin Valley, modified for a larger 
 spring rainfall, and for the lower mean monthly temperatures that 
 obtain in the Salinas Valley, and is: 
 
 January per cent 
 
 February per cent 
 
 March 2 per cent 
 
 April 12 per cent 
 
 May IS per cent 
 
 June 20 per cent 
 
 July 20 per cent 
 
 August 16 per cent 
 
 September 10 per cent 
 
 October 2 per cent 
 
 November per cent 
 
 December per cent 
 
 SECTION 11. 
 SANTA CLARA AND ADJACENT VALLEY AREAS. 
 
 Total agricultural area 530,000 acres 
 
 Area under irrigation in 1920 147,000 acres 
 
 This section lies between the Pacific Ocean and the crest of the 
 ilount Diablo Range, and extends in a southeasterly direction from 
 San Francisco Bay, to the ridge dividing the watersheds of the Pajaro 
 and Salinas rivers, and also to the lower part of the San Benito River, 
 a tributary of the Pajaro River. It includes the agricultural lands of 
 all San Mateo, Santa Cruz. Alameda and Santa Clara counties, most 
 of Contra Costa County, together with small areas in Monterey and 
 San Benito counties. These agricultural lands lie for the most part 
 in the vallej's of Santa Clara, Pajaro, Livermore, San Ramon, and 
 Ygnaeio, and on the coastal plains bordering on the .southern portion 
 of San Francisco Bay and skirting the shores of the Pacific Ocean. 
 
 The soils of these valleys consist of alluvial deposits derived from 
 the rocks of the Coast Range, which consist mainly of shales and 
 
56 WATER RESOURCES OP CALIFORNIA. 
 
 sandstones, with minor associated areas of igneous rocl\S. Tliese rocks 
 generally contain considerable lime and the resulting soils have not 
 been entirely leached of soluble materials. In many cases they are 
 distinctly calcareous. 
 
 The .soils have been distributed mainly as alluvial fan deposits by 
 minor intermittent streams ancL by surface wash. They, therefore, 
 occupy gently sloping areas marginal to the foothills and mountains, 
 and are frequently traversed by somewhat deeply cut stream channels. 
 In consequence, natural drainage conditions are well developed, though 
 flat basin-like areas of poor drainage occur in regions adjacent to 
 tidewater. The soils, which are of recent deposition and not materially 
 altered by weathering in place, are of brown to black color, and of 
 loam, clay loam, and clay texture with minor silty, fine sandy or 
 gravell.y variations. Prevailing texture and structure are such as to 
 favor water-holding capacity and retention of moisture, under suitable 
 cultural methods. Some of the heavier textured types, however, have 
 pronounced adobe characteristics and demand careful management 
 in irrigation and cultivation. Limited areas occur in wliich soil 
 materials occupying the more elevated slopes, have been modified by 
 weathering in place, leaving compact subsoils in which percolation and 
 subdrainage is arrested, and which are less well adapted to tree fruits 
 and the deeper rooted crops. The soils of these valleys are represented 
 by a wide variety of types, which, owing to their pronounced physical 
 character and to the special adaption to certain fruits, vine and truck 
 crops, have materially inflnencecl the development of agricultural and 
 cultural methods. 
 
 The average annual amount of rain which falls on the agricultural 
 lands of this section, is eighteen inches : of this total, about three- 
 quarters occurs during the four rainy winter months of December, 
 January, February and March ; the four summer months of June, 
 July, August and Septemlicr are iiraetically rainless, and have a mean 
 precipitation of but half an inch, while the remaining spring and 
 autumn months make up the balance, or one-quarter of the total. 
 
 The temperature is uniform. The mean annual temperature 
 is 58 degrees, and there is less than 19 degrees variation between the 
 mean temperature of the coldest month in winter, and the warmest in 
 summer. 
 
 The transportation facilities of this section are exceptional. Three 
 transcontinental railways traverse the locality, which have their 
 terminals on the ocean harbor of San Francisco Bay, in the northern 
 portion of the section. Numerous branch railway and feeder lines, 
 sidings, stations and yards are distributed throughout the area. ^lany 
 hard surfaced highways give ease of communication and opportunity 
 for motor transport. 
 
 Marketing centers with storage plants, precoolers, ice and refrigerat- 
 ing plants, canneries and exaporators, are interspersed over the district 
 and in some of the valleys, the line of communication is bordered by 
 almost continuous urban settlements. 
 
 Forty to fifty years ago, wheat was the prevailing crop. I^ater, 
 orchard trees were planted in the most favorable locations, and the 
 fruit from these proved so profitable that the orchard area has been 
 
WATER RESOURCES OP CALIFORNIA. 57 
 
 greatly increased. Owing- to the demand for truck crops and berries 
 to supply the urban population around San Francisco Bay, about 
 twelve per cent of the total irrigated area is devoted to the growing 
 of these products. For the same reasons, dairy products are readily 
 marketed at a profit, and about as large an area is planted to alfalfa 
 and other forage or root crops as there is for truck farming. While 
 'fully a third of the cultivated area is still in cereals, the trend of 
 development, influenced by more profitable returns, is in the direction 
 of more deciduous orchards: prune trees are far in the lead and also 
 more truck, vineyards and small fruit are being planted. AVheu the 
 gi-eater part of the total area of agricultural lauds is irrigated, the 
 present trend of development indicates that sixty per cent of the section 
 will be planted to deciduous orchards, fifteen per cent to grain and hay, 
 ten per cent to truck and berries, ten per cent to alfalfa and other stock 
 feed, and the remainder to vines and raiscellaiieoiis crops. 
 
 For the lauds thus far irrigated, water has been obtained for the 
 most part, by pumping from wells. This general practice has lowered 
 the ground water level and prevented the water-logging of soils, except 
 in a few limited areas. This draft on the underground' basins, particu- 
 larly in manv })arts nf Santa Clara Valley, has been much greater than 
 the natural replenishment resulting in a decided lowering of the water 
 table, a lessening of the discharge of wells, and an increase in the cost of 
 pumping water. While the streams are torrential in character, being 
 high after heavy rains in winter and early spring and very low or 
 without water in midsummer, many small and medium sized reservoir 
 sites may be utilized for the storage of water. By storing a part of 
 the run-off from non-tillable lands and conveying the stored water 
 by gravity to arable valley lands in the immediate vicinity, a much 
 larger area can be irrigated from the surface run-ott than is now 
 watered. The seepage losses fi'om such reservoirs and gravity canals, 
 and deep percolation losses from the irrigated fields, would tend to 
 raise the ground water level in underground basins, increase the area 
 irrigated from wells, and decrease the present cost of pumping. 
 
 Taking into consideration the amount of the winter rainfall, the 
 compactness of the arable soils and subsoils, the relatively low evap- 
 oration, and further that the greater part of the crops raised in the 
 future will require a comparatively small quantity of irrigation water, 
 the data disclose that the average net duty is 1.5 feet annually on the 
 agricultural lands of this section. 
 
 The monthly use of water depends chiefly on the crops grown. 
 Since the climatic and soil conditions are well adapted to the produc- 
 tion of deciduous fruits, more especially prunes and apricots, it is 
 reasonable to expect that this crop will predominate in the future as 
 it does at present, and that it will influence to a large extent, the 
 monthly distribution of the seasonal use of water. The large acreage 
 devoted to prunes requires the greatest quantity of water in June, with 
 more in SeiDtember and October, than in July and August. Offsetting 
 this unequal monthly distribution, the alfalfa and truck crops recpiire 
 a relatively large (juantity of water in July and August. 
 
58 WATER RESOURCES OP CALIFORNIA. 
 
 Considering the records of the monthly nse of water, and of eon- 
 sumption of electric power for pumping groundwater for agricultural 
 purposes during the past few years, the desirable monthly use of 
 irrigation water in per cent of the total seasonal supply is: 
 
 January per cent 
 
 February per cent 
 
 March 4 per cent 
 
 April 6 per cent 
 
 May 15 per cent 
 
 June 20 per cent 
 
 July 15 per cent 
 
 August 15 per cent 
 
 September 14 per cent 
 
 October 9 per cent 
 
 November 2 per cent 
 
 December per cent 
 
 SECTION 12. 
 DELTA LANDS OF SAN JOAQUIN AND SACRAMENTO VALLEYS. 
 
 Total agricultural area 4.'"i3.000 acres 
 
 Area under irrigation in 1920 390,000 acres 
 
 This section is located along and adjacent to the lower stretches of 
 the Sacramento, San Joaquin and Mokelumne rivers. These lands 
 lie south of Sacramento, west of Stockton, north of Lathrop and 
 Tracy and extend westerly to Suisun Bay. They include portions 
 of San Joaquin, Sacramento, Contra Costa, Yolo and Solano counties. 
 
 The agricultural lands of this section are of a flat surface conforma- 
 tion. Oi"iginally a tule marsh, the land surface of which was below 
 sea level, occupied a very considerable part of the section. Numerous 
 winding channels and sloughs connect with the several branches of the 
 river, and divide this section into islands and peninsulas of a few 
 hundred to several thousand acres in extent. 
 
 The banks along the channels have been built up through the deposit 
 of sediment that takes place during the overflow from these channels, 
 and these banks are usually several feet above the general level of 
 the land lying away from the channels. The lands in the peninsulas 
 rise above sea level and continually increase their altitude as they 
 approach the body of land from which they project, but no part of 
 Section 12 is more than a few feet above sea level. 
 
 Most of the area is now either fully or partly protected again.st over- 
 flow, occasioned by high tides and floods, by surrounding levees that 
 have been built on or near the banks of the channels that make their 
 devious way through this section Interior drainage of the excess rain 
 water is collected by means of ditches, and removed by pumps, which 
 also serve to collect and remove seepage waters from the rivers rising 
 too near or above the surface level of the low lands. 
 
 The more elevated banks and the islands farthest up stream in the 
 rivers are composed of a silt loam. The back or land side of the penin- 
 sulas merge into the same soil as the main body land, which is generally 
 a sandy or silt loam. The main body of these islands and peninsulas 
 is composed of a silt loam and decayed roots of tule and other aquatic 
 
WATER RESOURCES OF CALIFORNIA. 59 
 
 plants, and varies from soils iu which the silt loam predominates, to 
 lighter peat soil containing little mineral matter. The heavier peat 
 soils along the margin of this section may attain a depth of ten feet, 
 and are underlaid by sediment or elay. !Much of the lighter peat soil 
 will float, and is of great depth, underlaid with a coarser peat. The 
 soils of this delta are known for their remarkable productiveness. 
 
 The climatic conditions differ from the remainder of the San Joa- 
 quin Valley, in that the summer temperatures are somewhat lower and 
 the humidity is higher. The mean annual rainfall is about eighteen 
 inches. 
 
 The most important crops are potatoes, asparagus, corn, barley, 
 beans and celery. Some of the best orchards in the state are located 
 on the higher lands adjacent to the river banks. Alfalfa is grown on 
 the silt loam and heavier peat soils. 
 
 Excellent water transportation is available for nearly all the area, 
 so that the products of the district can be cheaply delivered to Sacra- 
 mento, Stockton or San Francisco. There are a number of good 
 highways, and good railroad transportation facilities are available 
 along the margins of this section. 
 
 The water supply for these lands consists of ground moisture 
 replenished from rainfall and river seepage, and that taken out from 
 the adjacent rivers or sloughs and delivered over or through the levees 
 by siphons, pumping plants or culverts. 
 
 During the winter and spring months, the water level in the rivers 
 and channels is considerably higher than the surfar-re of the interior 
 lands, and drainage pumps are operated to remove surplus rainfall 
 and seepage water. Inundation or an excessively high water table is 
 so prevented. Beginning in the latr- spring, and la,sting through the 
 remainder of the growing season, the water table is too low for sub- 
 irrigation of the predominant shallow-rooted crops, and the dry top 
 soil is therefore moistened by irrigation. IMost of the area is irrigated 
 by running sufficient water in .small ditches to raise and maintain the 
 water table at the desired depth below the surface. Some of the 
 higher lands in orchard or alfalfa, are surface irrigated. The depth 
 to the water table for much of this land is not over six feet, and is 
 maintained nearly uniform throughout the growing season. 
 
 The high productivity of these delta lands encouraged early efforts 
 toward their reclamation, and nearly all of the area is now organized 
 in reclamation districts, which have constructed protection works 
 against inundation by the high water in the adjacent channels, occa- 
 sioned by floods and tides. The lands are generally intensively farmed 
 and fuliy utilized. Future development will consist principally in 
 construction of works for greater safety against floods, and in the 
 extension of irrigation to all the lands in the delta. 
 
 Much of the land drains readily, and the surplus irrigation water 
 which reaches the drains, is pumped back into the rivers or channels 
 during the same period that irrigation water is also pumped into the 
 district. Two years" records of the irrigation watc- pumped in and 
 drainage water pumped out, of a typical district iu this area, indicate 
 a use of somewhat less than 1.5 feet in depth. These considerations 
 disclose an average net annual dnU- for the entire section of 1.5 feet. 
 
60 WATER RESOURCES OP CALIFORNIA. 
 
 The monthly use of water is determined by the presence of surplus 
 rain and seepaofe waters in the soil. Irrigation is not ner-essary during 
 the periods in which the drainage pumps operate to hold the ground 
 water plane down. For this reason, irrigation is not started as early 
 as in the adjoining parts of Sacramento and San Joaquin valleys. 
 The irrigation season is therefore shorter, and because of the nature 
 of the crops, the maximum use occurs in July. 
 
 The desirable monthly distribution of the irrigation supply, in per 
 cent of the total seasonal use, is : 
 
 January per cent 
 
 February per cent 
 
 March per cent 
 
 April per cent 
 
 May 8 per cent 
 
 June 22 per cent 
 
 July 30 per cent 
 
 August 25 per cent 
 
 September 15 per cent 
 
 October per cent 
 
 November per cent 
 
 December per cent 
 
 SECTION 13. 
 SACRAMENTO VALLEY FLOOR. 
 
 Total agricultural area 2,694,000 acres 
 
 Area under irrigation in 1920__ 662,000 acres 
 
 This section comprises about one-third of the total agricultural area 
 of the great central valley, and contains one-eighth of the total 
 agricultural area of the State of California.. It extends from the 
 delta of Sacramento Eiver on the south, to Redding on the north, a 
 distance of 170 miles; it contains land in Solano, Sacramento, Placer, 
 Yolo, Sutter, Yuba, Colusa, Glenn, Butte, Tehama and Shasta counties. 
 
 The average slope of the tloor of the valley from north to south, is 
 about three feet per mile, attaining to a maximum of five and one-half 
 feet and a minimum of less than one foot. From Redding to the 
 mouth of Stony Creek, a distance of about ninety miles, the Sacramento 
 River flows through its deepest cut in the valley tloor, but below this 
 point, through most of its course, the river occupies a ridge higher than, 
 and nearly parallel to, troughs in the bottom of the overflow basins on 
 either side. The flood area on the west side of the river, is separated 
 into two basins, the Colusa on the north and the Yolo on the south, 
 by a ridge of detritus deposited by Cache Creek. There are four 
 basins on the east .side of the river, which are known from north to 
 south as the Butte, Sutter, American and Sacramento basins, and are 
 separated by the Marysville Buttes. the Feather and American rivers 
 respectively. On the west side of the river, there are alluvial fans or 
 ridges of considerable area at the mouths of tributaries. These fans or 
 ridges have slopes that are much steeper, and elevations that are greater, 
 than the adjacent floor of the valley, but most of the irrigable lands 
 of the section are flat in slope and lie below the 200-foot level. They 
 
WATER RESOURCES OP CALIFORNIA. 61 
 
 attain a maximum of 550 feet in tlie extreme north, and drop to a mini- 
 iiiuni in the south, of less than 15 feet in elevation. 
 
 Most of the soil of this section is sedimentary in origin. About 
 thirty per cent of the area is clay or clay adobe; of the lemainder, about 
 one-half is silt, sandy or gravel loams, and the balance a clay loam. 
 Centrally located, for the most part in the poorly drained sections of 
 the valley, are considerable areas in alkali lands, but in these areas 
 the highly concentrated form of salts, injurious to plant growth, is not 
 common. On much of the land, good crops of grain have been produced 
 by dry-farm methods, and during the last few years large areas have 
 been successfully developed to rice culture, lands that hitherto have 
 been thought unsuitable to agriculture. The area of alkali land, which 
 is irreclaimable and of no agricultural value, is a very limited portion 
 of the entire section. Hardpan and indurated clay subsoils are 
 encountered at various depths in many localities throughout the valley. 
 
 Climatic conditions are very similar to those of the southerly portion 
 of tlie great valley, with the exception that the rainfall is somewhat 
 greater. Of the annual precipitation, SO per cent occurs From November 
 to Jlarch, inclusive. The range is from about fifteen inches in the 
 southern, to thirty inches in the northern part of the section, and aver- 
 ages twenty-two inches for the whole area. The mean annual tempera- 
 ture is 63 degrees, wiith a raage of monthly means from 46 degrees in 
 January to 80 degrees in July. ]Minimums below 20 degrees and maxi- 
 mums of 110 degrees, are of occasional occurrence. During the 
 rainy .season the prevailing winds are fiom the south. There are drying 
 north winds which vary in intensity during the spring and summer 
 months. The latter are of low humidity and have a decided influence 
 in increasing the water requii-ements of the entire section. 
 
 The growing season is long and has an average frost-free period 
 from the middle of February to the last week in November. 
 
 At the present time most of the land is dry-farmed to grain. Of 
 the irrigated portion, about one-fifth is devoted to rice, and the balance 
 to alfalfa, fruits and miscellaneous crops. There are portions of the 
 section which appear to be particularly adapted to specialized crops, 
 such as rice, olives, almonds and certain deciduous fruits, and these 
 localities are gradually developing their specialities. The rice-growiug 
 area is located largely in South (ilenn. South Butte, Colusa, Sutter and 
 Yolo counties. Oranges are grown in Glenn and Tehama counties; olives 
 are a specialty in Sutter, almonds in Yolo, and in nearly any one of 
 the counties some particular fruit predominates. Alfalfa is a stablc 
 forage crop that can be successfully grown on mo.st of the area, if the 
 moisture conditions are made favorable for it. 
 
 The trend of development indicates that a large portion of this 
 section, when irrigation supplies have been developed for its watering, 
 will he devoted to general crops and to the production of staple food- 
 stutfs, dairy and meat products. 
 
 Transportation facilities are excellent. There are two transconti- 
 nental rail lines, four branch lines, four electric railways and numerous 
 highways, together with water transportation on the Sacramento River 
 to San Francisco Bay. 
 
62 WATER RESOURCES OP CALIFORNIA. 
 
 The principal sources of water supply are the Sacramento River 
 and its tributaries. The most important tributaries on the east side 
 are the Pit, Feather and American rivers; on the west side tlie Thoines, 
 Stony, Cache and Putali creeks. These streams have large flows during 
 the winter and spring, but the summer flows dwindle to almost nothing 
 in the Coast Range streams, and in the Sierra streams, to small fractions 
 of the winter discharge. 
 
 Natural drainage conditions are very fair in the higher ground at 
 the rim of the valley, but in the low land of the overflow basins, the 
 heavy subsoil and low elevation of the land require particular atten- 
 tion to artificial drainage. 
 
 Prior to 1880, water was used for irrigating but a few small areas 
 in the Sacramento Valley. The works were crude, and the lands 
 irrigated were in small tracts adjacent to the streams. In 1887, an 
 attempt was made to bring a larger area in Glenn and Colusa counties 
 under irrigation through the organization of the t'entral District under 
 the State Irrigation District Act. Difficulties in financing the district 
 caused construction work to be abandoned in 1891, but some land was 
 brought under irrigation and continued the use of water. In 1903, the 
 works w'ere taken over by a land and water company which was suc- 
 ceeded later by a number of irrigation districts, the largest of which is 
 the Glenn-Colusa District. In Glenn and Colusa counties, there are now 
 six districts organized under the state law and one constructed under 
 the Federal Reclamation Act, and their irrigation works are practically 
 all completed. This development has taken place since 1910. 
 
 On the east side of the river, development started earlier, mostly 
 under private enterprise. It has also progressed rapidly during the 
 past ten years. There are now considerable areas which are served by 
 pumping ground water from wells. As a whole, the irrigation works 
 already constructed in this section are of a capacity far exceeding the 
 unregulated water supply, and-, unless in the future, reservoirs are 
 constructed to store winter floods, the rapid development now in prog- 
 ress will be checked or may cease altogether. 
 
 The average measured annual use for this section is 3.88 feet in depth, 
 but the area on which these measurements were made comprises a much 
 larger percentage of land in rice than will occur on the full development 
 of the section. 
 
 About 200,000 acres is the maximum which will be devoted to rice 
 culture. Of this no more than one-half, to at most three-fourths, will 
 actually be planted to rice each year; the balance will be either fallow, 
 or planted to crops on which no water will be used, in order to destroy 
 the water grass. Use of water for rice has been from four to seven 
 feet per year and averages around six feet in depth. For the whole area 
 primarily devoted to rice, the average annual water refpiirement is three 
 feet. The average net duties for other crops are : orchard and vineyard, 
 1.5 feet; alfalfa and general crops, 2.7 feet; rice, for the portion of land 
 in crop, 6 feet, or for the total area devoted to rice, 3 feet. Some citrus 
 fruits will be grown, but the amount of water required by these in 
 excess of 1.5 feet should be offset by the much larger area of other fruits 
 requiring less than this amount. Based on the trend of development 
 
WATER RESOURCES OP CALIFORNU. 63 
 
 and these considerations, the average net annual duty of water for the 
 entire section is 2.25 feet in depth. 
 
 Much data liave been collected on the monthh use of water. During 
 years when there is a short rainfall after January, some water is used 
 prior to April 1st, but the irrigation season under average conditions 
 opens about April 1st and closes in October. Oranges and lemons 
 usually require water after October, but the area on which these crops 
 will be grown, is small and does not appreciably affect the general 
 distribution. The desirable monthly use is indicated by the measured 
 use in the past. Some projects or systems serve primarily rice lands, 
 while others supply water for genera! crops with no rice. The monthly 
 use on these projects, combined in the proper proportion for rice and 
 other crops, determine the desirable monthly distribution of the annual 
 supply. 
 
 The desirable monthly distribution in per cent of the sea.sonal supply 
 for this section, is : 
 
 January per cent 
 
 February per cent 
 
 March 1 per cent 
 
 April 5 per cent 
 
 May 16 per cent 
 
 June 20 per cent 
 
 July 22 per cent 
 
 August 20 per cent 
 
 September 12 per cent 
 
 October 4 per cent 
 
 November per cent 
 
 December per cent 
 
 SECTION 14. 
 
 SIERRA FOOTHILLS, AND ROLLING PLAINS EAST AND WEST OF 
 SACRAMENTO VALLEY FLOOR. 
 
 Total agricultural area 2,305,000 acres 
 
 Area under irrigation in 1920-- 87,000 acres 
 
 This section includes all of the agricultural lands above the floor of 
 the Sacramento Valley, lying along and including the foothills of both 
 the Sierra and Coast Range mountains. It extends from the Mokel- 
 nmne River on the south, to the limits of the great central valley on 
 the north near Redding, and thence around the north end of the 
 valley and down the western side to Cache Creek near Woodland. 
 About -four-fifths of the land lies on the east side of the valley floor 
 between the Mokelumne and Feather rivers. The largest compact 
 area on the west side lies in southern Shasta County. 
 
 Tlie arable lands of this section are not continuous, out consist for 
 the most part, of detached areas of low rolling hills and small valleys 
 somewhat broken by gullies and canyons. The variation in altitude 
 is great, ranging from around 100 feet near the floor of the valley to 
 2500 feet in the vicinity of Nevada City, with isolated small areas 
 above 4000 feet. However, most of the lands lie below the 600-foot 
 contour. 
 
 I 
 
64 WATER RESOURCES OF CALIFORNIA. 
 
 The soils are primarily of weatliered rock in place. In the valleys, 
 there are sedimentary and alluvial deposits, but the parcels so formed 
 are comparatively small. A few minor areas of sandy loams occur 
 on the higher slopes and along the margin of the valley Hoor. Shallow 
 soils occur on some of the foothill lands, but generally the soils are of 
 good depth. 
 
 Climatic conditions below the 1500-foot eli'vatioii, do not vary greatly 
 from those of the floor of the valley. The summers are long and dry 
 and most of th(> precipitation occurs between Novemlier and April. 
 Precipitation generally increases with altitude and ranges from twenty 
 inches to forty-five inches, and averages thirty-two inches per 
 year. Temperatures below the 1500-foot level vary little from those 
 of the floor of the valley. For the whole section the annual mean 
 is 57 degrees. Lying along the fo(/thills, are warm belts of craisid- 
 erable extent, where tlie winter temperatures are notably higher than 
 the average for the valley floor, while in the higher altitudes much 
 lower temperatures are experienced. The growing season for the 
 section as a whole is somewhat shorter than for the vallej' floor. The 
 average frost-free period is from the latter part of March to the 
 middle of November, excepting for limited areas located at the higher 
 elevations. 
 
 The variations in elevatirin, rainfall and temperature, make a wide 
 range of crops po.ssible in this section. Citrus fruits are succes.'-fully 
 grown throughout the thermal belt, which varies in altitude but is 
 always below the 1000-foot contour Apples, pears and plums are 
 extensively grown on the higher elevations, and peaches, cherries, 
 prunes, vines, olives and a great variety of fruits are grown on all 
 but the highest elevations. Alfalfa thrives on lands of .suitable surface 
 conformatiin and texture. Large areas not irrigated, are devoted to 
 grain and pasturage. Fruit growing will dominate future irriga- 
 tion development. 
 
 Transportation facilities are excellent, with two transcontinental 
 railroads through the section and electric lines traversing portions of 
 the area. 
 
 The surface conformation of this section is, in general, very favorable 
 to natural drainage and, with proper precautionai'y mea,sures along the 
 valley margin, no serious water-logging of land should occur. 
 
 The Sacramento River and its tributaries constitute -the available 
 water supply for this section. The first irrigation practiced in the 
 section was undertaken as a secondary use of water-supplies developed 
 for mining purposes. The water was applied to small tracts planted in 
 fruits and vegetables and located along the main streams. Many of the 
 old mining ditches are still in operation, but water .service for irriga- 
 tion and power has long been their principal use. A large portion of 
 the irrigated land of this section is served through privately-owned 
 irrigation works. There are also many small cooperative farmers' 
 ditches and a number of irrigation districts organized under the State 
 Act. Of the later all are of recent origin, except the Browns Valley 
 District, which was organized in 1888. But a comparatively small part 
 of the agricultural lands are irrigated. There ha.s been great impetus 
 
WATEK RESOURCES OF CALIFORNU. 65 
 
 to irrigation development during the past ten years, and a number of 
 irrigation projects of magnitude are at present pending. 
 
 There is quite complete data on the quantity of water used in grow- 
 ing the various crops for which the section is noted. The water supply 
 for the land now uuder irrigation is, with few exceptions, ample, and 
 the amount applied closely represents crop needs. Mea.surements indi- 
 cate that the use of water now ranges from 1 foot to 2.5 feet in depth, 
 depending largely on the variety of crops and soil. The average 
 for all measurements is 1.47 feet deep. It is not likely that, as this 
 area is further developed to irrigated crops, there will be much change 
 in the relative proportion of crops now grown, and the water require- 
 ments will be about the same for the future as in the present. The 
 average annual duty of water for the entire section is 1.5 feet in depth. 
 
 The desirable monthly distribution expressed in .per cent of the 
 seasonal irrigation supply is well indicated by the past use on irrigation 
 systems, and is : 
 
 .January per cent 
 
 February per cent 
 
 March 2 per cent 
 
 April 2 per cent 
 
 May 15 per cent 
 
 June ^ 20 per cent 
 
 July 22 per cent 
 
 August 20 per cent 
 
 September 13 per cent 
 
 October 5 per cent 
 
 November 1 per cent 
 
 December per cent 
 
 SECTION 15. 
 NORTH COAST AREA. 
 
 Total agricultural area 624,000 acres 
 
 Area under irrigation in 1920— 22,300 acres 
 
 This section extends from San Franisco Bay to the Oregon line, and 
 comprises the westerly slope of the Coast Range Mountains north of San 
 Francisco. It contains the drainage basins of the Eel, Russian, Mad, 
 Salmon, and the lower portions of the Trinity and Klamath rivers, 
 together with those of Sonoma and Napa creeks. 
 
 The elevation of the arable land varies from just above sea level to 
 1500 feet, but most of it lies below elevation 500 feet. The section is 
 divided into five main basins, one on each of the Russian, Eel and ilad 
 rivers, and on Sonoma and Napa creeks. There are numerous small 
 mountain valleys throughout the area, the largest of which is adjacent 
 to Clear Lake. The basin of the Russian River contains the largest com- 
 pact body of tillable land. All parts of the section are more or less 
 cut up by the numerous tributaries which enter the main streams. 
 
 In general the soil is of sedimentary formation and quite fertile. 
 
 The temperatures over the coastal valleys are moderate and quite 
 uniform throughout the whole section, and they are modified by the 
 proximity of the ocean. The mean annual temperature is 56 degrees. 
 The rainfall, occurring mostly between November and April, reaches 
 
 5—20273 
 
66 WATER RESOURCES OP CALIFORNIA. 
 
 100 inches or more in the extreme north and averages over 35 inches 
 per iiunnm for the whole section. While the summers are long there 
 is little extreme heat. Along the coast there is some rainfall during the 
 summer montlis. Over a considerable area summer fogs have an 
 influence on moisture conditions b.v reducing evaporation and plant 
 transpiration. 
 
 Tlie growing season is somewhat shorter than for the Sacramento 
 Valley to the east. The average frost-free period is from the first 
 week in May to the latter part of October. 
 
 The cultivated areas in the southern or main portion of the section, 
 are devoted to growing fruits and grapes. In the north, forage is the 
 principal crop. Transportation and marketing facilities are good for 
 the area south of Humboldt County. Ocean and rail transportation arc 
 available for the coastal regions of most of the northern part of this 
 section. 
 
 Because of the sloping surface conformations of the agricultural 
 lands in this section, the drainage of the surplus water has presented 
 no difficulties. Water from the Russian, Eel, ilad and Klamath rivers 
 and their tributaries will amply supply iri-igation needs. 
 
 Due to greater rainfall, irrigation development has not received the 
 impulse that it has in other parts of the state. While orchards and 
 vineyards thrive without irrigation, especially near the coast, it is 
 a distinct advantage to irrigate all ei'ops wherever accessory waters are 
 available. In time, irrigation will be the general practice throughout 
 most of the section. 
 
 Tlie average measured net annual use is 1.52 feet but the considera- 
 tions here presented reveal that the desirable net annual duty of water 
 for this section is 1.25 feet in depth. 
 
 The desirable monthly distribution of the irrigation sui^idy, in per 
 cent of the total seasonal use, is: 
 
 January per cent 
 
 February per cent 
 
 March per cent 
 
 April 10 per cent 
 
 May 20 per cent 
 
 June 20 per cent 
 
 July 20 per cent 
 
 August 17 per cent 
 
 September 11 per cent 
 
 October 2 per cent 
 
 November per cent 
 
 December per cent 
 
 SECTION 16. 
 
 NORTHEASTERN MOUNTAIN-VALLEY AND PLATEAU AREAS. 
 
 Total agricultural area 1,598,000 acres 
 
 Area under irrigation in 1920.. 333,000 acres " 
 
 This section extends from near the crest of the Sierras north of Lake 
 Tahoe, to Oregon and Nevada, and consists of mountain valleys and 
 plateaus of the northeastern part of the state; it includes all of the 
 arable lands of Siskiyou, Modoc and Lassen counties, practically all of 
 
WATER RESOURCES OF CALIFORNU. 67 
 
 Sierra and Plumas counties, and a portion of the lands in Shasta 
 County. 
 
 The agricultural lands are located on plateaus and in mountain 
 valleys that range in elevation from 2.000 to 5,000 feet. Generally the 
 slopes are moderate and the larger areas of agiueultural land are com- 
 paratively level. JIany lakes are scattered throughout the section. 
 
 The soils are formed principally from the weathering of volcanic 
 rocks and are generally light and easily tillable. There are many tracts 
 of swamp lands which require drainage before they can be cultivated, 
 but when reclaimed, are verj' fertile. 
 
 There is a wide variation in the annual precipitation, ranging from 
 less than 14 inches in the northern part of the section to more than 40 
 inches in the southern part. The annual average is 22 inches. Tem- 
 peratures are low with great extremes between summer and winter. 
 The annual mean is 48 degrees. The growing season is short. The 
 average frost-free period extends from the middle of June to the last 
 week in August. 
 
 About five-sixths of the area lies within tlie arid belt in which little 
 can be gromi without irrigation. The land now under irrigation is 
 almost entireh' cropped to pasture, hay and grain, and its ownership 
 is in large tracts. Climatic conditions will limit the introduction of 
 new crops. Only fair transportation and marketing facilities are 
 afforded a large portion of the area. 
 
 With the extension of irrigation, the water-logging of much land 
 and the accumulation of alkali at the ground surface is apt to occur 
 over large tracts in this section. 
 
 This region is principally dependent for its water supply upon small 
 streams and the headwaters of the Shasta, Pit and Feather rivers ; and 
 this source of supply has reached its maximum development unless 
 winter flood waters are stored. 
 
 Water has been used for irrigation since the early settlement of the 
 section, but only ^\'ithin recent years has development been rapid. Much 
 of this in the past has been through the cooperative efforts of the 
 farmers. Some large projects have been undertaken by private inter- 
 ests, and plans have recently been formed for extensive projects by 
 irrigation district organizations. 
 
 The jjresent use of water ranges from 1.25 feet to about 2 feet in 
 depth. The average for the section, determined from twenty-six records 
 e([uivalent to one year's measurements on 437,200 acres, is 1.30 feet. 
 Taking into account the shortage of water that now exists during the 
 latter part of the season over a very large area in the section, crop 
 requirements, prevailing temperatures, rainfall and other climatic 
 conditions, and past use, the average net annual duty of water for this 
 entire section is 1.75 feet in depth. 
 
 The monthly distribution of the annual supply is indicated from 
 twenty-six records, equivalent to one year's record on an agricultural 
 area of 306,440 acres. These should be increased, however, on account 
 of the short water-supplj' late in the summer. 
 
68 WATER RESOURCES OP CALrPORNU. 
 
 The desirable monthly use, expressed in per cent of the total seasonal 
 supply, is: 
 
 January per cent 
 
 February per cent 
 
 March per cent 
 
 April 3 per cent 
 
 May 14 per cent 
 
 Jung 24 per cent 
 
 July 26 per cent 
 
 August 21 per cent 
 
 September 12 per cent 
 
 October per cent 
 
 November per cent 
 
 December per cent 
 
WATER RESOURCES OP CALIFORNU. 
 
 CHAPTER VI. 
 
 NET AREA IRRIGATED IN LARGE AGRICULTURAL 
 DISTRICTS. 
 
 Contingent to an intensively developing agricultural community; the 
 rural and urban dwellings, r'outes of communication and transportation, 
 industries, and improvements, occupy an increasingly larger portion of 
 the total area. The locality's natural resources enhance in value, 
 augmenting the wealth with the increasing income derived. The riches 
 received and credit created are spent in enterprises, the products of 
 which are essential to agriculture, or in manufactories, canneries and 
 evaporators, or other industries, to further prepare the agricultural 
 product for the use of the public. Progress is further reflected in the 
 appearance and development of facilities for the curing, chilling, storage 
 and sale of the farm product ; in the extension and improvement of 
 means of transportation ; in the construction of warehouses, sidings, 
 yards and freight terminals. These improvements as they are inaugu- 
 rated, require that areas of agricultural lands be given up to industry. 
 
 More roads are required ; cities and towns extend their boundaries ; 
 villages arise to become towTis, develop into cities, swarming with 
 inhabitants who find emploj-ment in manufactories and industries 
 developed coincident to, or as consequence of, the prosperity initiated 
 with the successful agricultural expansion. While the number of 
 small farm holdings are increased, the land is more vigorously culti- 
 vated, and production per acre is enhanced; the farm buildings needed 
 for this greater activity, occupy a larger proportion of the cultivable 
 area. The total value of improvements made, wealth created, and 
 income derived from agriculture, vastlj- increases but the farmed area 
 tends to diminish with the continuance of intensive agriculture. At 
 the same time an opposing tendencj' comes into action, directed towards 
 increasing the farmed area by bringing new areas into cultivation, 
 previously unprofitable to farm, but now productive through the 
 demand created by extended markets. These tendencies effect con- 
 trarj^ results, one making accretions to the cultivated area and the 
 other causing subtraction therefrom, largely neutralizing as commu- 
 nities mature. In the end, the conclusion is inescapable that all the 
 cultivable lands will not eventually be planted to crops, for roads, 
 canals, warehouses, railroads, farm buildings and dwellings, villages, 
 towns and cities there must be, and these will increase, but irrigation 
 water is required only for the cropped area. 
 
 The extent of .settlement which will prevail in the future, may be 
 conceived only by comparison with the rise and growth of commu- 
 nities which at this day have reached a stage of fairly den.se population. 
 The Santa Clara Valley, in Central California, is one of the highly 
 developed farming areas of the state, and here eight per cent of the 
 total agricultural lands are occupied by cities and towns, and these are 
 still growing. In the San Gabriel Valley, in southern California, a 
 
70 
 
 WATER RESOURCEvS OF CALIFORNIA. 
 
 rich farming area tributary to Los Angeles, seven per cent of the total 
 agricultural area is within tlie boundaries of cities and towns, and these 
 are growing at an accelerated rate. 
 
 There are lands that are naturally unfit for cultivation, such as 
 rocky and alkali spots, high knolls and stream beds. These will never 
 be irrigated. Further, in each .season a portion of the total area will 
 remain fallow, other portions will be planted but not watered, and irri- 
 gation water will not be required for either. In a closely-settled section, 
 the sum total of the unirrigated land may sometimes be a very consider- 
 able part of the total area. 
 
 Since cities of mature gi'owth and dense population use water about 
 equal to that required for irrigating crops on an equal area, the total 
 consumption of water in any district for both domestic and irrigation 
 supplies will not become much less as agricultural land is relinquished 
 for city development. The expansion of less mature and more disperse 
 towns will, however, tend to deci'ease the water consumption for the 
 locality. Because of the great complexity of these considerations and 
 the probability that the use of water in the centers of population will 
 approximate that on an equal area of agricultural land, the future 
 water reciuirements of large areas for both agricultural and domestic 
 purpo.ses, may. best be estimated as the irrigation requirements of the 
 net area which will eventually be irrigated, plus the areas of the cities, 
 towns and villages of the ultimate development. 
 
 TABLE 3. 
 
 PORTION OF AGRICULTURAL AREAS THAT 
 REQUIRE A WATER SUPPLY. 
 
 Agricultural areas. 
 
 Gross area 
 within the 
 
 ui.trict 
 boundaries. 
 
 Acres. 
 
 Land that will 
 not require 
 water being 
 absolutely 
 unfit for 
 irrigation. 
 Acres. 
 
 Irrigable areas 
 
 occupied by 
 
 improvements 
 
 outside of 
 
 population 
 
 centers. 
 
 Acres. 
 
 Net area 
 requiring a 
 water supply. 
 
 Acres. 
 
 Net Area 
 requiring a 
 water supply 
 in per cent of 
 
 gross area. 
 
 VALLEY FLOOR AREAS. 
 
 Consolidatrd Irrigation District 
 
 Fresno Irriiration DiPtrict 
 
 151.500 
 
 215,205 
 
 IM.OOO 
 
 178,665 
 
 81,183 
 
 26,697 
 
 603,840 
 
 27,260 
 
 167,685 
 
 71,112 
 
 74,246 
 16.040 
 
 4,000 
 
 18,210 
 
 208,360 
 
 3,000 
 9,730 
 
 10,000 
 9,100 
 7,183 
 4.823 
 
 88.840 
 5,260 
 
 18.400 
 
 11,000 
 
 12,000 
 4,940 
 
 800 
 4,000 
 76,803 
 
 7.425 
 11.770 
 9.400 
 8,900 
 3,700 
 1,800 
 25,750 
 1,100 
 
 7.400 
 
 7,112 
 
 3,110 
 550 
 
 160 
 
 710 
 
 6,250 
 
 141.075 
 193,705 
 170,600 
 160,665 
 70.300 
 19,974 
 489,250 
 20,900 
 
 141,885 
 
 53.000 
 
 59,136 
 10,550 
 
 3,040 
 
 13,500 
 
 125,307 
 
 93 
 90 
 90 
 
 
 90 
 
 
 86 
 
 Orland Project. U. S. R. S 
 
 Imperial Irrigation District 
 
 75 
 81 
 77 
 
 Glenn-Colupa Irrigation District 1 
 
 Jacinto Irrigation District. 
 
 Proviflont Irrigation District 
 
 Compton-Dclevan Irrigation District... 
 
 Maxwell Irrigation District 
 
 Williams Irrigation District. ..._..._.... 
 South San Joaquin Irrigation District. . . 
 
 INTERMEDIATE AREAS. 
 
 85 
 
 75 
 80 
 
 
 66 
 
 FOOTHILL AREAS. 
 
 Fairoaks Irrigation District 
 
 Happy Vallev Irrigation District 
 
 76 
 74 
 60 • 
 
 
 
WATER RESOURCES OF dLIFORNIA. 71 
 
 To aid in estimating future total water requirements, Table No. 3, 
 "Portion of Agrioultnral Areas That Require a "Water Supply," has 
 been prepared. This table lists the projects on which information was 
 obtained, on tlie gross area, areas untit for irrigation, and areas of 
 irrigable land devoted to other purposes than agriculture or urban 
 development. 
 
 Of the projects listed in the table, the Consolidated Irrigation Dis- 
 trict and the Fresno Irrigation District, illustrate the segregations of 
 land that prevail on the flat valley floors of the state. Formed in the 
 early days, to include lands requiring the least expenditure for develop- 
 ment, their project bouudaries enclose a gi'eater proportion of tillable 
 land that is suited to irrigation than do pi'ojects that were organized 
 later. In the Consolidated Irrigation District, but 2 per cent of the 
 gi'oss area is unfit for irrigation and 4 per cent in the Fresno Irriga- 
 tion District is deduetable for the same reason. Deducting with these, 
 the area occupied by improvements, leaves 93 per cent ancl 90 per cent 
 for the Consolidated ancl Fresno districts, respectively, as the per cent 
 of the gross area in these projects reciuiriug irrigation waters. The 
 percentages applying to these projects represent the maximum irrigable 
 area within project boundaries when they are of appreciable size, and 
 include the lands that are the more readily developed. 
 
 The conditions obtaining on the South San Joaquin Irrigation Dis- 
 trict are those on land comprised within a district formed A^ithin the 
 past decade. The areas included are more or less residual lands, 
 remaining after other projects had been organized. Here 15 per cent of 
 the gross area is unsuited to irrigation, and but three-fourths of the 
 land within the project bouudaries require an irrigation water-supply. 
 Of recent organization, this district is made up of a greater proportion 
 of unirrigable land, and the percentages found approach closely to the 
 lower limit of irrigable lands within the boundaries of projects located 
 upon California's flat valley floors. 
 
 Between the valley floor and the foothills proper are lands, the 
 character of which is represented by conditions on the Waterford 
 Irrigation District. Of this district, comprising 16,000 acres, one-third 
 is deduetable as land unsuited to irrigation. Similarly located, on the 
 transitional regions between valley floor and foothill slope, the Oakdale 
 Irrigation District, comprising 74,200 acres, has 12,000 acres, or one- 
 sixth of its gross area unfit for irrigation. These two projects, anal- 
 ogously located, mark the extremes of the per cent of these areas that 
 require accessory waters. Oakdale, with the greater proportion of good 
 land, can utilize irrigation waters on 80 per cent of the area within its 
 boundaries, while "Waterford, including more of the residual lands, 
 left after other districts had lieen formed, requires water for Init 66 
 per cent of its area. 
 
 The Nevada Irrigation District, in the foothills of Nevada County, 
 comprises lands that extend from 300 feet to 3,900 feet above sea level, 
 and includes witliin the 208,000 acres of this project, the upper margin 
 of the sloping lands that are susceptible to irrigated agriculture. In 
 this district, 37 per cent of the lands are unfit for iri-igation, and but 
 60 per cent of the entire area within the project boundaries will require 
 
72 WATER RESOURCES OF C-U^IFORNIA. 
 
 irrigation waters. The segregation of lands in this district illustrates 
 the condition obtaining on a foothill project of extensive area and 
 probably is representative of the projects located in such regions. 
 
 Considering that the projects here listed were organized to include 
 the better agricultural lands and that the remaining areas of the state 
 have a greater proportion of poor land, it may be concluded that the 
 segregations found, are more favorable to high percentages of irrigal)le 
 land than in districts formed in the future and the net area requiring 
 irrigation waters, of the gross irrigable area of Califoniia, will be less 
 than the mean of the percentages found listed in the tabulation. 
 
WATER RESOURCES OF CALIFORNIA. 73 
 
 CHAPTER VII. 
 
 ENDURABLE DEFICIENCIES IN AN IRRIGATION SUPPLY. 
 
 Many communities, dependent upon irrigation for their prosperity, 
 have successfullj' endured the shortcomings of a deficient water supply. 
 The plants grown in the farming communities that have endured 
 these deprivations, do not progress to a harvest stage of equal bearing 
 as compared to plants that have been adequately supplied with moisture. 
 Shortages of water, while inimical to the best needs of the plant through 
 retarding growth and reducing the fruits, are not conditions, the 
 consequences of which cause the plant to immediately languish and die. 
 
 There is a certain indefiniteness about the necessity, in both time 
 and amount, in the practical application of irrigation waters, and, 
 through the physical agencies at work and the resourcefulness of the 
 plant, a scarcity of soil moisture does not lead to corresponding 
 diminution of the harvest. A full irrigation supply furnishes much 
 more water to the soil than is needed for plant growth. The excess 
 water applied to the soil disappears through evaporation from the moist 
 ground surface, and through percolation to depths beyond the reach of 
 the plant roots. The division of the applied water between that used 
 by the plant, and that not directly aiding in plant growth, is circum- 
 stantial, so that a reduction in the amount of applied water does not 
 necessarily mean a corresponding reduction in the amount of water 
 obtained by the growing plants. The manner of spn^ading the appl'<?d 
 water, the time period through which the application is made, the 
 weatlier conditions, and the dryness'of the soil at the time of irrigation, 
 all affect the relative division of water applied between that im- 
 mediately supporting plant growth and that aiding indirectly by 
 supplying the water necessary for dissipation by evaporation and 
 percolation. 
 
 The manner of applying water and the time period of application, 
 can both be changed to effect a smaller proportion of losses by 
 increasing the expense of applying the water. Even the dryness of 
 the soil can be mitigated by increased expense for cultivation of 
 the soil surface. Thus by the expenditure of more money than usual, 
 the actual water reaching the growing plants may not have to be particu- 
 larly reduced, although there is an acute shortage in the total water 
 customarily applied. The avoidable losses can be much reduced 
 through more extended preparation of the land previous to irrigating, 
 and by the expenditures of adequate sums in the con.struction of pipe 
 conduits, lined ditches and channels for the conveyance of water to the 
 land, and for the distribution and application of the irrigation water to 
 the crops. 
 
 "With such conservation aided by the elastic ability of growing plants 
 to sustain life and to function imder less than the most favorable con- 
 ditions, the seriousness of partial shortages in irrigation supplies is 
 removed. Periods of drought that occur only once in several years, 
 
74 WATER RESOURCES OF CALIFORNIA. 
 
 while effective in reducing the yield, are transitory in effect and do not 
 have the destructive results in the irrigated areas, which a continued 
 shortage of water would have. 
 
 Plate II. "Average Deficiency in Irrigation Supply Endured by 
 Successful Enterprises," i)resents in graphical forin the distril)utions of 
 water that have actually lieen made, and the desiralilc proportioning of 
 a full water supply between the months of the year, and by the 
 difference obtained through comparison, the deficiencies endured on 
 several pro.jects appear. The diagram is divided into months, January 
 to December, each month having an ecfual space. In these spaces black 
 bars have been drawn upwardly from the base line to give a picture of 
 the per cent of the total yearly supply that was spread upon the land 
 in any one month. The longer lengths of these bars as they extend 
 upwardly from their common base line, represent greater per cent of 
 distribution for the monthly interval in which they are drawn. The 
 numerical per cent, corresponding to any bar, is found by following ^he 
 intercepted lines that are drawn across, above and parallel tn t'le ba.se 
 line, to the left border, where the per cent is given in figures. In a 
 like manner, the red bars joining the black, sometimes exceeding these 
 in length, sometimes falling short, represent the desirable distriliution. 
 
 The full supply to which the water used by these projects has been 
 compared, is that deduced in the foregoing chapters on the duty of 
 water and the distribution of its use througliout the year. All the 
 data that it was possible to collect, were here assembled and analyzed to 
 determine the irrigation requirements of all parts of the state. The 
 average values deduced for a full supply represent desirable practice 
 of the present day. 
 
 The upper section of Plate II, shows the average deficiency sustained 
 by the Turlock Irrigation District.* one of the oldest projects in the 
 state, and one which has never enjoyed a full season's supply, although 
 it is a growing and prosperous community. Similai'ly, the middle 
 section of Plate II. sets forth the average deficiency in supply through 
 the latter part of the season, sustained by eleven sy.stems in the San 
 Joaquin Valley which have a total irrigated area of a third of a million 
 acres. It is seen that the heavy deficiency has been succes.sfully 
 endured through the latter part- of the growing season by these projects, 
 and they are generally known to be growing and prosperous. 
 
 The average figures for three projects in the San Diego section, 
 presented on the lower part of this plate, show that shortages have been 
 successfully endured there through the entire season. Differing from 
 other projects that have had a copious supply available during the 
 early summer season, these districts have prospered with a less than 
 desirable supply during the entire year. Nevertheless, these projects 
 are located in and are a part of a region that has had a continuous 
 and greatly accelerated growth. 
 
 The distribution through the months, of the seasonal supply, as 
 practiced in the various sections of the state, is shown on Plate VII, 
 "Monthly Use of Annual Irrigation Supply." Here, as on Plate II, 
 the black bars represent average monthly supplies used, and the desir- 
 able quantity for use during the particular month is depicted in red. 
 
Plat.' II. 
 
 TURLOCK IRRIGATION DISTRICT irrigated 1921 
 
 1911-1922 10S461 AC. 
 
 
 
 
 
 1 
 
 1 
 
 
 
 
 
 
 
 
 
 
 1 1 
 
 1 
 
 * 
 
 
 
 
 
 
 
 
 
 1 
 
 t 
 
 1 
 
 
 
 
 
 
 
 1 
 
 4 
 
 1 
 
 1 
 
 1 
 
 
 
 
 
 ■ 
 
 Ju 
 
 X 
 
 ± 
 
 Ji 
 
 
 
 Jan. Feb. Mar. Apr. May Jun. Jul. Aug. Sep. Oct Nov. Dec. 
 
 c 
 
 
 
 
 
 
 
 
 
 
 
 
 
 c 
 
 
 Q. 
 % 1 
 
 
 11 SYSTEMS IN SYSTEM 
 SAN JOAQUIN VALLEY __,_ 
 
 IRRIGATED 1921 
 
 ACRES 
 
 
 109.4«1 
 
 1 9 1 1"1 922 "■■' °" 
 
 SOUTH SAN JOAQUIN IRRIC OIST. - . 
 
 
 
 
 
 
 
 BEAROSUEYCANA 
 EASTSIDE CANAL 
 FARMERS CANAL 
 KERN ISLAND CAN 
 
 
 7.M1 
 
 "Si 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 *'■ 
 
 
 c 
 
 STINE 
 TO 
 
 A CANAL AND IRRIG. CO. - . . 
 
 10.663 
 
 1 
 
 
 
 
 
 
 
 
 
 
 TAL 
 
 »t.»3 
 
 
 
 
 
 1 
 
 1 
 
 ■ 
 
 
 
 
 
 
 Q. 
 
 a 
 
 3 
 10 
 
 >l 
 
 X 
 
 
 
 
 ■ 
 
 1 
 
 t 
 
 li 
 
 
 
 
 
 
 
 
 
 1 
 
 i 
 
 1 
 
 
 
 
 
 
 
 I 
 
 1 
 
 * 
 
 4 
 
 1 
 
 
 
 
 
 
 5 
 
 ■ 
 
 ^ 
 
 1 
 
 A 
 
 JL 
 
 . 
 
 ^ 
 
 Jan. Feb. Mar. Apr. May Jun. Jul. Aug. Sep. Oct Nov. Dec. 
 
 
 3 SYSTEMS IN 
 SAN DIEGO SECTION 
 
 
 SYSTEM 
 
 IRRIGATED 1920 
 ACRES 
 
 
 
 1911-1921 fi'JjHj^rT**™"^" : : : : : 
 
 
 
 
 
 
 — : — 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ■ 
 
 i 
 
 [| 
 
 It 
 
 ■ 
 
 ■ 
 
 
 
 
 , 
 
 
 B 
 
 ± 
 
 [L 
 
 X 
 
 
 _ 
 
 Jan. Feb. Mar. Apr. May Jun. Jul. Aug. Sep. Oct Nov. Dec. 
 
 AVERAGE DEFICIENCY IN IRRIGATION SUPPLY 
 ENDURED BY SUCCESSFUL ENTERPRISES 
 
 AVERAGE MONTHLY SUPPLY USED 
 DESIRABLE MONTHLY SUPPLY 
 
 State Department of PuBLrc Works 
 
 DIVISION OF ENGINEERING AND IRRIGATION 
 
 California Water Resources Investigation 
 
 CHAPTER iW-lSI' STATUTES 
 
.][ -.tHl'l 
 
 isera3TA9m9( 
 
 .3A ro»eoi 
 
 TDWXaia MOITAOIfJFII XOOJRUT 
 
 sset-rrer 
 
 I . I 
 
 k 
 
 H 
 
 I 
 
 am -^ A Mk Ju... jm iiji 
 
 !, 
 
 J 
 
 ^90 .voM JoO .q98 -CljA Jul .nul ysM .iqA ibM xf»^ nsL 
 
 (£flr mTAnmni m^tpy^ 
 
 HI aM3TaYa rr 
 
 Y3JJAV MIUOAOL HAa 
 
 sspr- rrer 
 
 (MM 
 
 . . - 03 *1W«<h«» 
 
 
 1 
 
 
 
 
 
 
 
 
 
 
 
 ^ 
 
 1 ■ 
 
 
 
 S 
 
 ■fi. 
 
 
 o 
 
 .3>a .voM jjv^ 
 
 .euA .luL .nuL yeM .iqA .ibM del .nsL 
 
 Ofi«ro3TA&inni 
 
 err 
 
 M3T3Ya 
 
 HI aMBTave e 
 
 MOiTDaa oo3ia has 
 
 rser-fter 
 
 . 
 
 B*i: 
 
 - . WTOT 
 
 
 
 
 1 r ; 
 
 
 .J. 1 
 
 1 1 ;! ii \^ . ^ 
 
 •J 
 
 k. .^ . 
 
 .3»0 .vobi JoO 4o£ suA .Uit .nuL yaM .nqA .isM ^s'l .nsL 
 
 YJq<=!Ua MOITAOIHSII HI YDM3iDn3a aOA513VA 
 
 a3ews5R3TH3 ju^ae3DDue va a3fluaM3 
 
 ■■■ aaeu Yjqqua yjhthom 3£»ar3va 
 
 ■ YJSHUe YJHTHOM aJSAflieSQ 
 
 
WATER RESOURCES OF CALIFORNIA. 75 
 
 As this plate shows, the supply has been deficient in nearly every section 
 of the state during the latter part of the summer. In many of the sec- 
 tions experiencing these detieieneies, a large amount of water was 
 applied to the land during the fore part of the summer when there was 
 ample flow in the streams, apparently in an endeavor to store soil 
 moisture for the anticipated shortage of the latter portion of the season. 
 Not only have there been shortages during the latter part of the 
 season in many of the large projects, but, during the years of 
 extreme drought and consequently reduced stream flow, many 
 of the districts have been extremely short in total seasonal supply. 
 During the shortage of 1920 in the Sacramento Valley, when there 
 were 215,000 acres under irrigation from the main channel of 
 the Sacramento River, much of this in rice, the amount of water was 
 decreased twenty-four per cent compared to previous seasons, during the 
 critical portion of the summer, without any damage to the crops.' In 
 other sections of the Sacramento Valley, where the 1920 shoi'tage was 
 more acute, the use was decreased more than fifty per cent, without 
 damage to fruits and cultivated crops and with little permanent 
 damage to alfalfa. Such facts are conclusive that the supplies, deducted 
 for the various sections of the state in Chapter V, provide a more favor- 
 able supply, more advantageously distributed through the season, than 
 these districts at present enjoy. Such full supplies would furnish 
 irrigation water in more ample quantities than many of the most 
 prosperous irrigated sections of the state have ever had, and such 
 supplies for every season, including years of greater drought, would 
 afit'ord more advantageous conditions than those under which all but 
 the most favored of communities in the state have lived and prospered. 
 
 'Report of water master of Emergency Water Conservation Conference on file in 
 the office of Division of Engineering and Irrigation. 
 
76 
 
 WATER RESOURCES OF CALIFORNIA. 
 
 TABLE 4. PRECIPITATION DATA USED IN CONSTRUCTING 
 ISOHYETOSE MAP 
 
 Stations listed in order of numbers on map, Plate IV. 
 For alphabetical list see Table 5. 
 
 Station 
 on map. 
 
 Precipitation station. 
 
 Elevation 
 
 above 
 sea level. 
 
 Length 
 of record. 
 
 Period 
 of record. 
 
 Mean of 
 seasonal 
 precipita- 
 tion 
 record. 
 
 Fifty year 
 
 mean 
 seasonal 
 precipita- 
 tion 
 
 Number. 
 1 
 
 FortBidwell 
 
 Feet. 
 
 4,640 
 
 4,675 
 
 4,460 
 
 5,270 
 
 4,533 
 
 3,600 
 
 3,381 
 
 4,258 
 
 2,154 
 
 2,450 
 
 2,625 
 
 2,955 
 
 3,555 
 
 3,555 
 
 3,270 
 
 2,285 
 
 2,798 
 
 2,570 
 
 2.570 
 
 1.132 
 
 3.300 
 
 520 
 
 397 
 
 3,420 
 
 50 
 
 3,000 
 
 64 
 
 50* 
 
 75 
 
 400 
 
 244 
 
 200 
 
 250 
 
 1,700 
 
 2,960 
 
 2,925 
 
 2.300 
 
 1200 
 
 600 
 
 1.440 
 
 2.162 
 
 2,860 
 
 220 
 
 215 
 
 307 
 
 865 
 
 432 
 
 550 
 
 1,049 
 
 565 
 
 552 
 
 730 
 
 1,138 
 
 2.500 
 
 3,300 
 
 5,500 
 
 4,300 
 
 4.020 
 
 4,570 
 
 4,304 
 
 4,550 
 
 3,600 
 
 4,195 
 
 4,000 
 
 4,400 
 
 Years. 
 
 36 
 
 27 
 
 15 
 
 13 
 
 2 
 
 2 
 
 12 
 
 8 
 
 28 
 
 30 
 
 40 
 
 22 
 
 32 
 
 2 
 
 10 
 
 32 
 
 18 
 
 33 
 
 34 
 
 6 
 
 5 
 
 18 
 
 25 
 
 5 
 
 30 
 
 2 
 
 34 
 
 7 
 
 19 
 
 1 
 
 33 
 
 9 
 
 4 
 
 11 
 
 5 
 
 9 
 
 6 
 
 1 
 
 12 
 
 7 
 
 31 
 
 2 
 
 44 
 
 2 
 
 44 
 
 10 
 
 4 
 
 6 
 
 17 
 
 4 
 
 46 
 
 14 
 
 39 
 
 11 
 
 8 
 
 12 
 
 4 
 
 7 
 
 6 
 
 2 
 
 11 
 
 20 
 
 28 
 
 3 
 
 4 
 
 1867-1921t 
 
 1894-1921 
 
 1904-1919 
 
 1908-1921 
 
 1907-1909 
 
 1908-1910 
 
 1857-1809 
 
 1907-1915 
 
 1888-1916 
 
 1888-192lt 
 
 1872-1921t 
 
 1888-1915t 
 
 1889-1921 
 
 1881-1883 
 
 1911-1921 
 
 1889-1921 
 
 1871-1889 
 
 1859-1892 
 
 1853-1892t 
 
 1915-1921 
 
 1910-1915 
 
 1903-1921 
 
 1861-I891t 
 
 1905-1910 
 
 1885-1921 t 
 
 1884-1886 
 
 1887-1921 
 
 1859-1866 
 
 1901-1920 
 
 1883-1884 
 
 lS87-1921t 
 
 1912-1921 
 
 1907-1911 
 
 1905-1916 
 
 1901-1906 
 
 1912-1921 
 
 1915-1921 
 
 1914-1915 
 
 1909-1921 
 
 1914-1921 
 
 1871-1921t 
 
 1908-1910 
 
 1872-1916 
 
 1910-1912 
 
 1877-1921 
 
 1894-1904 
 
 Broken 
 1915-1921 
 1895-1912 
 1889-1893 
 1875-1921 
 1907-1921 
 1882-1921 
 1908-1919 
 1910-1918 
 1909-1921 
 1917-1921 
 1903-1910 
 1915-1921 
 1911-1913 
 1910-1921 
 1894-1914 
 1889-I918t 
 1917-1920 
 1909-1913 
 
 Inches. 
 
 18.31 
 13,13 
 
 12 34 
 14.60 
 13,54 
 18,60 
 22,83 
 
 13 96 
 
 14 74 
 12 26 
 17-57 
 20.34 
 36,56 
 
 28 76 
 46 72 
 
 53 82 
 
 24 58 
 
 25 24 
 25,32 
 41,64 
 53.24 
 50 00 
 50,45 
 
 109 08 
 75,95 
 78 92 
 42,52 
 33.57 
 42 86 
 34.06 
 85 04 
 51.86 
 
 54 63 
 67,37 
 78,63 
 49 15 
 
 29 21 
 51.53 
 45,92 
 35 06 
 37.81 
 57.90 
 20,53 
 16.74 
 25,19 
 26 94 
 33.61 
 26 22 
 
 53 80 
 70 88 
 38 52 
 63 35 
 63 93 
 
 54 08 
 26 41 
 77.62 
 40,54 
 53,74 
 35 05 
 23 98 
 29 06 
 43,66 
 20 70 
 
 8 98 
 10,97 
 
 Inches. 
 17 20 
 
 2 
 
 
 
 3 
 
 
 
 4 
 
 
 
 S 
 
 Clear Lake (Modoc County) 
 
 15 38 
 
 6 
 
 Pittvillc 
 
 20 68 
 
 7 
 
 Fort Crook 
 
 90 74 
 
 8 
 
 
 13 10 
 
 9 
 
 Hornbrook 
 
 13 60 
 
 10 
 
 
 11 60 
 
 11 
 
 Yreka 
 
 18 10 
 
 12 
 
 
 19 14 
 
 13 
 
 Sisson 
 
 35 20 
 
 14 
 
 
 38 34 
 
 15 
 
 McCloud 
 
 SO 00 
 
 16 
 
 
 51 80 
 
 17 
 
 Scott Valley 
 
 27 81 
 
 18 
 
 
 23 70 
 
 19 
 
 WaUa Walla Creek . . 
 
 30 60 
 
 20 
 
 Happy Camp 
 
 45 77 
 
 21 
 
 Giita . ::. 
 
 47 90 
 
 22 
 
 
 46 80 
 
 23 
 
 
 50 27 
 
 24 
 
 Monumental 
 
 108 70 
 
 25 
 
 
 75.70 
 
 26 
 
 Christmas Prairie 
 
 77 35 
 
 27 
 
 
 43.37 
 
 28 
 
 Fort Humboldt 
 
 32 33 
 
 ' 29 
 
 
 43,85 
 
 30 
 
 Hvdesville 
 
 45.40 
 
 31 
 
 
 86 11 
 
 32 
 
 Shively 
 
 54.04 
 
 33 
 
 
 58.15 
 
 34 
 
 Blocksburg 
 
 63.10 
 
 35 
 
 Zeoia 
 
 64 60 
 
 36 
 
 Ruth 
 
 51,20 
 
 37 
 
 Hayfork 
 
 .32.11 
 
 38 
 
 Hyampom ... 
 
 44,79 
 
 39 
 
 China Flat 
 
 46.50 
 
 40 
 
 Big Bar 
 
 37.12 
 
 41 
 
 
 39.20 
 
 42 
 
 
 50.58 
 
 43 
 
 Tehama 
 
 20.30 
 
 44 
 
 LosMohnOB.' ... 
 
 19,57 
 
 45 
 
 Red Bluff , 
 
 24 70 
 
 46 
 
 Rosewood ... 
 
 25.26 
 
 47 
 
 
 37.79 
 
 48 
 
 
 31 41 
 
 49 
 
 Shasta 
 
 51 20 
 
 50 
 
 
 61.90 
 
 51 
 
 
 37.70 
 
 52 
 
 
 66 30 
 
 53 
 
 Delta 
 
 64 00 
 
 54 
 
 Montgomery Creek 
 
 54 60 
 
 55 
 
 
 27.28 
 
 56 
 
 Round Valley 
 
 88 08 
 
 57 
 
 
 54.55 
 
 58 
 
 Butt Vallev 
 
 45,41 
 
 S9 
 
 
 43.92 
 
 60 
 
 Nevia 
 
 35,26 
 
 61 
 
 Chester 
 
 33 25 
 
 62 
 
 Greenville 
 
 39.70 
 
 63 
 
 Susanville ... 
 
 21 90 
 
 64 
 
 Standish 
 
 14.49 
 
 65 
 
 
 13.06 
 
 
 
 
 ♦Estimated, 
 t Records broken. 
 
WATER RESOURCES OP CALIFORNIA. 
 
 77 
 
 TABLE 4— (Continued). PRECIPITATION DATA USED IN 
 CONSTRUCTING ISOHYETOSE MAP. 
 
 Stations listed in order of numbers on map. Plate IV. 
 For alphabetical list see Table 5. 
 
 Station 
 on map. 
 
 Precipitation station. 
 
 Elevation 
 
 above 
 sea level. 
 
 Length 
 of record. 
 
 Period 
 of record. 
 
 Mean of 
 seasonal 
 precipita- 
 tion 
 record. 
 
 Fifty year 
 
 mean 
 seasonal 
 precipita- 
 tion. 
 
 Number. 
 66 
 
 Beckwith 
 
 Feet. 
 
 5.005 
 
 4,900 
 
 5,000 
 
 5,900 
 
 5,531 
 
 5,819 
 
 7,017 
 
 6,230 
 
 6,225 
 
 2,421 
 
 2,825 
 
 2,825 
 
 3,222 
 
 3,704 
 
 3,704 
 
 4.695 
 
 4.563 
 
 3.700 
 
 3,200 
 
 3,200 
 
 5.230 
 
 5,939 
 
 6.500 
 
 4.600 
 
 3,150 
 
 5,500 
 
 5,000 
 
 3,400 
 
 4.750 
 
 4,750 
 
 4,975 
 
 3,216 
 
 3.525 
 
 2.500 
 
 2.321 
 
 2,140 
 
 560 
 
 1.200 
 
 1,227 
 
 490 
 
 250 
 
 213 
 
 629 
 
 3.250 
 
 3.500 
 
 1,500 
 
 1,650 
 
 2,1.30 
 
 700 
 
 1,3011* 
 
 2.580 
 
 2,090 
 
 600 
 
 84 
 
 67 
 
 100 
 
 97 
 
 98 
 
 160 
 
 160 
 
 189 
 
 277 
 
 254 
 
 143 
 
 Years. 
 
 1 
 
 6 
 12 
 
 6 
 44 
 50 
 50 
 11 
 
 5 
 51 
 31 
 23 
 20 
 30 
 13 
 22 
 
 5 
 14 
 43 
 
 2 
 41 
 46 
 27 
 27 
 13 
 39 
 25 
 26 
 13 
 19 
 14 
 14 
 14 
 17 
 13 
 15 
 
 
 
 6 
 13 
 
 G 
 36 
 23 
 
 I 
 
 4 
 14 
 14 
 17 
 
 6 
 12 
 14 
 57 
 46 
 
 9 
 29 
 50 
 
 4 
 10 
 17 
 
 1 
 24 
 50 
 34 
 38 
 
 1 
 
 1908-1909 
 
 1915-1921 
 
 1909-1921 
 
 1909-1915 
 
 1870-19161 
 
 1870-1921 
 
 1871-1921 
 
 1910-1921 
 
 1910-1915 
 
 1S70-192I 
 
 1879-1910 
 
 1879-1902 
 
 1899-1919 
 
 1885-1920t 
 
 1871-1884 
 
 1899-1921 
 
 1916-1921 
 
 1907-1921 
 
 I870-1921t 
 
 188B-1896t 
 
 1870-1921 t 
 
 1870-1916 
 
 1894-1921 
 
 1894-1921 
 
 1908-1921 
 
 187I-1915t 
 
 lS94-1921t 
 
 1895-1921 
 
 1892-1905 
 
 1876-1902i 
 
 1907-1921 
 
 1907-1921 
 
 1903-1917t 
 
 1904-1921 
 
 1904-1917 
 
 1903-1920t 
 
 1915-1921 
 
 1873-1879 
 
 1871-1884 
 
 1915-1921 
 
 1885-1921 
 
 1891-1914 
 
 1920-1921 
 
 1905-1909 
 
 1907-1921 
 
 1907-1921 
 
 1904-1921 
 
 1896-1902 
 
 1907-1921t 
 
 1907-1921 
 
 1864-1921 
 
 1873-1921t 
 
 1871-1880 
 
 1887-1916 
 
 1871-1921 
 
 1880-1914 
 
 1907-1917 
 
 1899-1916 
 
 1920-1921 
 
 1895-1919 
 
 1871-1921 
 
 lS80-1916t 
 
 188.3-1921 
 
 1920-1921 
 
 Inches. 
 
 28.05 
 13.06 
 23.12 
 25.65 
 21.05 
 26,13 
 46.38 
 31.11 
 37.06 
 47.81 
 52.63 
 51.08 
 51.09 
 57.36 
 44.86 
 66.17 
 49.31 
 68.07 
 53.98 
 59-94 
 52.91 
 50 57 
 68.43 
 70.25 
 63.55 
 74.38 
 76.62 
 42.14 
 73.28 
 71.64 
 80.08 
 72.35 
 75.85 
 67.37 
 85.24 
 67.66 
 40 78 
 60.32 
 42.37 
 38.22 
 28.03 
 23.98 
 39 96 
 93 95 
 68.17 
 54 23 
 43.76 
 48-86 
 42 77 
 54.27 
 53-89 
 53.00 
 33.12 
 22 21 
 19-71 
 14 17 
 22 31 
 22-20 
 24 61 
 24-96 
 23-78 
 20 59 
 18 02 
 24-59 
 
 Inches. 
 20 62 
 
 67 
 
 Portola 
 
 17 12 
 
 68 
 
 
 26 20 
 
 69 
 
 Hobart Mills 
 
 24 70 
 
 70 
 
 
 21.10 
 
 71 
 
 Truckee 
 
 26 30 
 
 72 
 
 
 46.38 
 
 73 
 
 Tahoe 
 
 32 41 
 
 74 
 
 
 35.80 
 
 
 Colfax 
 
 48 20 
 
 76 
 
 Iowa Hill 
 
 50.10 
 
 77 
 
 Strawberry Fiat .... 
 
 50 55 
 
 78 
 
 Gold Run 
 
 49 30 
 
 79 
 
 Towle .... .... 
 
 56 40 
 
 80 
 
 Alta 
 
 45.63 
 
 81 
 
 
 64.60 
 
 82 
 
 Dnim Frirph^ty 
 
 57.75 
 
 83 
 
 Deer Creek 
 
 73.90 
 
 84 
 
 North Bloomfield ... 
 
 54.60 
 
 85 
 
 
 60.53 
 
 86 
 
 
 54 50 
 
 87 
 
 Cisco 
 
 50.90 
 
 88 
 
 
 67.80 
 
 89 
 
 Lake Spauiding 
 
 69.60 
 
 90 
 
 
 67.80 
 
 91 
 
 Rnwman^ Ti%Tr\ 
 
 73 00 
 
 92 
 
 La For te 
 
 77.50 
 
 9.3 
 
 Quincy 
 
 42.00 
 
 94 
 
 
 66.50 
 
 95 
 
 MumfordHill 
 
 68-37 
 
 96 
 
 
 88-50 
 
 97 
 
 
 80-00 
 
 98 
 
 Stirling City 
 
 70,50 
 
 99 
 
 DeSabla 
 
 69.20 
 
 100 
 
 
 81 50 
 
 101 
 
 
 65.10 
 
 102 
 
 
 51.15 
 
 lO.'i 
 
 
 65.18 
 
 104 
 
 Cherokee 
 
 43.22 
 
 105 
 
 
 47.91 
 
 106 
 
 OroviUe 
 
 27.70 
 
 107 
 
 
 22,00 
 
 108 
 
 .'^erritetre . 
 
 38 04 
 
 109 
 
 Wuodleaf 
 
 76.35 
 
 110 
 
 
 74.00 
 
 111 
 
 
 58.80 
 
 112 
 
 
 44.70 
 
 113 
 
 
 51.86 
 
 114 
 
 Colgate 
 
 45.00 
 
 115 
 
 Chute Carap 
 
 58.76 
 
 116 
 
 
 52,21 
 
 117 
 
 Grass Valley 
 
 52.80 
 
 118 
 
 
 32.41 
 
 119 
 
 
 21.30 
 
 120 
 
 
 19,71 
 
 121 
 
 
 17.89 
 
 122 
 
 
 21.90 
 
 123 
 
 Biges 
 
 20.00 
 
 124 
 
 
 18 50 
 
 125 
 
 
 24,00 
 
 126 
 
 Chico 
 
 23,78 
 
 127 
 
 
 19 90 
 
 128 
 
 Orland 
 
 17.50 
 
 129 
 
 
 18.48 
 
 
 
 
 •Estimated 
 
 t Records broken. 
 
78 
 
 TABLE 
 
 Station 
 on map- 
 
 Number. 
 
 130 
 
 131 
 
 132 
 
 133 
 
 134 
 
 135 
 
 136 
 
 137 ■ 
 
 133 
 
 139 
 
 140 
 
 141 
 
 142 
 
 143 
 
 144 
 
 145 
 
 146 
 
 147 
 
 148 
 
 149 
 
 150 
 
 151 
 
 152 
 
 153 
 
 154 
 
 155 
 
 156 
 
 157 
 
 158 
 
 159 
 
 160 
 
 161 
 
 162 
 
 163 
 
 164 
 
 165 
 
 166 
 
 167 
 
 168 
 
 169 
 
 170 
 
 171 
 
 172 
 
 173 
 
 174 
 
 175 
 
 176 
 
 177 
 
 178 
 
 179 
 
 180 
 
 181 
 
 182 
 
 183 
 
 184 
 
 185 
 
 186 
 
 187 
 
 188 
 
 189 
 
 190 
 
 191 
 
 WATER RESOURCES OF CALIFORNIA. 
 
 4- (Continued). PRECIPITATION DATA USED IN 
 CONSTRUCTING ISOHYETOSE MAP. 
 
 Stations listed in order of numbers on map. Plate IV. 
 For alphabetical list see Table 5. 
 
 Precipitation station. 
 
 Jacinto 
 
 Willows 
 
 Princeton 
 
 Colusa 
 
 Williams 
 
 Fruto 
 
 Little Stony 
 
 East Park 
 
 Fouts Springs 
 
 Kono Tayee (Lakeport) 
 
 Lakeport ■ ■ 
 
 Upper Lake (Lake County) 
 
 HuUville 
 
 Covelo Ranger Station 
 
 Camp Wright 
 
 Hearst 
 
 Willits 
 
 Ukiah 
 
 Mendocino 
 
 Fort Bragg 
 
 West port 
 
 Branscombe 
 
 Laytonville 
 
 Point Arena 
 
 Clovcrdale 
 
 Fort Rcss 
 
 Point Reyes 
 
 Farallones Light House 
 
 South East Farallon 
 
 Peachland 
 
 Hoaldsburg 
 
 Highland Springs 
 
 Twin \'alley 
 
 Sulphur Banks 
 
 Middlctown 
 
 Helen Mine 
 
 St. Helena Mt 
 
 Calistoga 
 
 Santa Rosa 
 
 Petaluma 
 
 South Vallejo 
 
 Benicia 
 
 Martinez 
 
 Fairfield (Suisun) 
 
 Okell 
 
 Imola 
 
 Napa City 
 
 Sonoma 
 
 Oakville 
 
 St. Helena 
 
 Knoxville 
 
 Rumsey 
 
 Guinda 
 
 Dunnigan 
 
 Nicolaus 
 
 Knights Landing 
 
 Woodland 
 
 Davis 
 
 Winters .• - ■ 
 
 Vacaville 
 
 Rio Vista 
 
 Benson's Ferry 
 
 Elevation ^ ^^ 
 
 ^b"^", of record, 
 sea level. 
 
 Feet. 
 
 110 
 
 136 
 80 
 60 
 89 
 
 624 
 
 1,200 
 1,650 
 1,325 
 1,.325 
 1,350 
 2,250 
 1,550 
 
 Period 
 of record. 
 
 1,800 
 
 1,364 
 620 
 50* 
 74 
 50* 
 
 2.000 
 
 1,600 
 
 50* 
 
 340 
 
 100 
 
 490 
 
 50* 
 
 10 
 
 190 
 
 52 
 
 2,200 
 
 1,350 
 
 1,300 
 
 2,750 
 
 2,300 
 
 363 
 
 181 
 
 10 
 
 12 
 
 55 
 
 27 
 
 15 
 
 275 
 
 60 
 
 20 
 
 30 
 
 153 
 
 255 
 
 2,629 
 350 
 65 
 33 
 45 
 63 
 51 
 132 
 175 
 35 
 40* 
 
 42 
 11 
 40 
 8 
 22 
 1 
 10 
 9 
 20 
 21 
 28 
 14 
 16 
 11 
 5 
 29 
 44 
 13 
 21 
 1 
 21 
 7 
 9 
 21 
 45 
 38 
 1 
 19 
 25 
 44 
 3 
 
 11 
 
 21 
 
 10 
 
 48 
 
 33 
 
 29 
 
 12 
 
 30 
 7 
 
 13 
 
 36 
 
 41 
 
 41 
 
 17 
 
 7 
 
 13 
 
 I 
 
 5 
 
 20 
 
 39 
 
 1 
 
 25 
 
 48 
 
 49 
 
 1 
 
 37 
 
 24 
 
 Mean of 
 
 precipita- 
 tion 
 record. 
 
 Inches. 
 
 1892-1900 
 
 1879-1921 
 
 1873-1884 
 
 1871-1921t 
 
 1876-1884 
 
 1889-1911 
 
 1885-1886 
 
 1911-1921 
 
 1874-19041 
 
 1870-1921t 
 
 1886-1914 
 
 1907-1921 
 
 1881-1918t 
 
 J864-1875 
 
 1910-1915 
 
 1878-1907 
 
 1877-1921 
 
 1871-1884 
 
 1861-I921t 
 
 1885-1886 
 
 1900-1921 
 
 1904-1911 
 
 1875-1884 
 
 1893-1921t 
 
 1875-1921t 
 
 Broken 
 1885-1886 
 1894-1913 
 189G-1921 
 1877-1921 
 18S3-1886 
 1915-1921 
 1911-1919 
 1879-1896t 
 1900-1921t 
 1901-1911 
 1873-1921 
 1888-1921 
 1874-1921t 
 1872-1884 
 
 Broken 
 1877-1884 
 1871-1884 
 1884-1920 
 1877-192lt 
 1877-I921t 
 1886-19071 
 1907-1914 
 1908-1921 
 1883-1884 
 1888-1893 
 1896-1916 
 1877-1916 
 1920-1921 
 1878-1903 
 1873-1921 
 1872-1921 
 1885-1886 
 1880-1917 
 1893-1921t 
 1918-1921 
 
 Fifty year 
 mean 
 
 precipita- 
 tion. 
 
 Inches. 
 
 19.57 
 
 18.69 
 
 16.65 
 
 16.60 
 
 14.94 
 
 16 40 
 
 16.12 
 
 16 40 
 
 12.17 
 
 14 15 
 
 21.67 
 
 19 60 
 
 26.82 
 
 21-44 
 
 16.98 
 
 17 .30 
 
 36 16 
 
 35.72 
 
 23.16 
 
 24 40 
 
 22.77 
 
 23-60 
 
 28-25 
 
 26 80 
 
 51-23 
 
 52 30 
 
 35-69 
 
 40-40 
 
 44-01 
 
 40 82 
 
 51.93 
 
 52.35 
 
 55,91 
 
 54 90 
 
 36.82 
 
 36 40 
 
 50-69 
 
 51 20 
 
 38.66 
 
 41-67 
 
 52.07 
 
 35,20 
 
 85 25 
 
 82 40 
 
 62 46 
 
 57 50 
 
 30-49 
 
 30-32 
 
 41.73 
 
 39 60 
 
 53 87. 
 
 53 20 
 
 20 98 
 
 20-60 
 
 26 15 
 
 20 24 
 
 18 03 
 
 19-18 
 
 41.11 
 
 41 40 
 
 41-84 
 
 41 40 
 
 33-43 
 
 36 06 
 
 42 28 
 
 47.32 
 
 22-99 
 
 23-43 
 
 48 04 
 
 49-31 
 
 87-67 
 
 83 00 
 
 63 87 
 
 57 40 
 
 36 50 
 
 36-50 
 
 30 38 
 
 29-40 
 
 23 93 
 
 24-20 
 
 14-55 
 
 15-33 
 
 14-87 
 
 14 41 
 
 17 91 
 
 18 06 
 
 19 70 
 
 20-28 
 
 30-36 
 
 30 12 
 
 23-66 
 
 23-40 
 
 23-66 
 
 23 40 
 
 28,46 
 
 26-60 
 
 33.29 
 
 34-19 
 
 35.42 
 
 37 00 
 
 34 53 
 
 32-29 
 
 31.90 
 
 27-36 
 
 21-92 
 
 21 00 
 
 20 27 
 
 19-70 
 
 19-53 
 
 17-75 
 
 18 36 
 
 18-30 
 
 17-49 
 
 17.50 
 
 17 04 
 
 17.10 
 
 -25 40 
 
 19.85 
 
 27 04 
 
 26-37 
 
 17 87 
 
 17-30 
 
 14-19 
 
 15-47 
 
 •Estimated. 
 fRecords broken. 
 
WATER RESOURCES OF CALIFORNIA. 
 
 79 
 
 TABLE 4— (Continued). PRECIPITATION DATA USED IN 
 CONSTRUCTING ISOHYETOSE MAP. 
 
 Stations listed in order of numbers on map, Plate IV. 
 For alphabetical list see Table 5. 
 
 Station 
 on map. 
 
 Precipitation station. 
 
 Elevation 
 
 above 
 sea level. 
 
 Length 
 of record. 
 
 Period 
 of record. 
 
 Mean of 
 seasonal 
 precipita- 
 tion 
 record. 
 
 Fifty year 
 
 mean 
 seasonal 
 precipita- 
 tion. 
 
 Number. 
 192 
 
 Lodi 
 
 Feet. 
 
 35 
 
 150 
 
 49 
 
 42 
 
 71 
 
 252 
 
 305 
 
 249 
 
 970 
 
 1,360 
 
 565 
 
 2.650 
 
 4,000 
 
 4,300 
 
 1,875 
 
 1,609 
 
 1,415 
 
 1,510 
 
 790 
 
 287 
 
 1,900 
 
 1,500 
 
 2,450 
 
 725 
 
 1,550 
 
 445 
 
 673 
 
 300 
 
 381 
 
 1,5.35 
 
 775 
 
 2,500 
 
 3,750 
 
 4,100 
 
 2,300 
 
 ■ 2,800 
 2,326 
 3,850 
 5,800 
 5,680 
 6,400 
 6,230 
 5,525 
 8,030 
 5,300* 
 6,500 
 8.248 
 7.765 
 4.113 
 4.450 
 8.600 
 9,100 
 9,700 
 4.070 
 4.460 
 5.040 
 5,550 
 6,190 
 9,060 
 7,000 
 4.900 
 4.250 
 2,000 
 
 Years. 
 
 24 
 
 10 
 
 42 
 
 7 
 
 72 
 
 50 
 
 28 
 
 48 
 
 14 
 
 50 
 
 8 
 
 46 
 
 20 
 
 2 
 
 43 
 
 13 
 
 35 
 
 10 
 
 12 
 
 43 
 
 10 
 
 29 
 
 14 
 
 17 
 
 36 
 
 44 
 
 26 
 
 14 
 
 33 
 
 7 
 
 14 
 
 7 
 
 3 
 
 I 
 
 1 
 
 4 
 
 1 
 
 24 
 
 1888-1912 
 
 1911-1921 
 
 1878-1921t 
 
 1877-1884 
 
 1849-1921 
 
 1871-1921 
 
 1893-1921 
 
 1871-1921t 
 
 1892-1910t 
 
 1871-1921 
 
 1894-1902 
 
 187.3-I921t 
 
 1894-1914 
 
 Inches. 
 
 19.46 
 
 17 64 
 
 18 26 
 16 95 
 18 72 
 24.37 
 25.95 
 22 01 
 
 34 27 
 33 72 
 
 35 09 
 57.92 
 69.21 
 
 Inches. 
 17 90 
 
 193 
 194 
 
 Bellota 
 
 Gait 
 
 20 07 
 13 10 
 
 195 
 
 
 14 79 
 
 196 
 
 
 18 60 
 
 197 
 
 
 24 40 
 
 198 
 
 
 25.44 
 
 199 
 
 Rocklin 
 
 22 40 
 
 200 
 
 
 29.70 
 
 201 
 
 Auburn 
 
 33 70 
 
 202 
 
 
 34,22 
 
 203 
 
 Georgetown 
 
 57 30 
 
 204 
 
 Pilot Creek 
 
 65 90 
 
 205 
 
 Mundy's 
 
 63 10 
 
 206 
 207 
 
 Placerville 
 
 1874-192It 
 
 1889-1902 
 
 1888-I912t 
 
 1892-1902 
 
 1893-190Ct 
 
 1878-1921 
 
 1893-1903 
 
 1892-1921 
 
 1907-1921 
 
 1904-1921 
 
 1882-1918 
 
 1871-1915 
 
 lS88-1915t 
 
 1907-1921 
 
 1888-1921 
 
 1908-1915 
 
 1907-1921 
 
 1909-1916 
 
 1907-1910 
 
 1909-1910 
 
 1915-1916 
 
 1916-1920 
 
 1915-1916 
 
 1894-)921t 
 
 42 65 
 36.81 
 33,72 
 
 36 22 
 29.90 
 
 20 39 
 35 16 
 32.14 
 44.42 
 32 44 
 31.93 
 42 87 
 24 37 
 18,13 
 
 21 56 
 35 80 
 
 28 25 
 
 29 91 
 
 37 31 
 43.72 
 
 47 80 
 40 23 
 44.85 
 41,85 
 55 80 
 
 48 86 
 54,38 
 37,45 
 26,31 
 15 02 
 
 49 02 
 9,64 
 
 10,82 
 14 58 
 17,92 
 4,35 
 5.43 
 14 09 
 14 48 
 18 78 
 
 7 27 
 
 8 28 
 
 9 37 
 12,07 
 17 17 
 41.40 
 30,28 
 29,48 
 20,77 
 22,71 
 
 42 50 
 .34 60 
 
 208 
 
 Shingle Springs. 
 
 34.10 
 
 209 
 
 Oleta 
 
 32 63 
 
 210 
 
 Drytown 
 
 26 70 
 
 211 
 
 
 20.20 
 
 212 
 
 Jackson 
 
 32 38 
 
 213 
 
 
 30 90 
 
 214 
 
 Mill Creek No. 1 
 
 48 00 
 
 215 
 
 Elcctra 
 
 32.70 
 
 216 
 
 
 31 00 
 
 217 
 218 
 
 San .\ndreas 
 
 42 10 
 22,50 
 
 219 
 
 
 19,65 
 
 220 
 
 Milton 
 
 20,70 
 
 221 
 
 Angels Camp 
 
 35,76 
 
 222 
 
 
 30 59 
 
 223 
 224 
 225 
 226 
 227 
 228 
 
 Penstock Camp 
 
 American Camp 
 
 Calaveras River 
 
 Mitchell HiU 
 
 30 09 
 39 82 
 44 61 
 50 84 
 49 70 
 47 70 
 
 229 
 
 
 40 20 
 
 230 
 
 Grizzly Flat 
 
 44 90 
 
 231 
 
 7 
 11 
 6 
 4 
 1 
 18 
 1 
 5 
 11 
 
 lii 
 31 
 
 12 
 12 
 1 
 2 
 2 
 2 
 2 
 2 
 6 
 6 
 4 
 3 
 
 1907-1914 
 
 1907-1918 
 
 1909-1915 
 
 1904-1914 
 
 1920-1921 
 
 I900-1921t 
 
 1920-1921 
 
 I9I2-1917 
 
 1895-1906 
 
 1919-1921 
 
 I8S3-1896 
 
 1883-19181 
 
 I911-1921t 
 
 1909-1921 
 
 1909-1921 
 
 1908-1909 
 
 1908-1910 
 
 1908-1910 
 
 1908-1910 
 
 1908-1910 
 
 1919-1921 
 
 1915-1921 
 
 1915-1921 
 
 1915-1919 
 
 1917-1921t 
 
 52 42 
 
 232 
 
 Bear River Reservoir . . - 
 
 58 79 
 
 233 
 
 
 36 10 
 
 234 
 
 Tallac . . 
 
 25.43 
 
 235 
 
 
 13,53 
 
 236 
 
 
 49,60 
 
 237 
 
 
 8.69 
 
 238 
 
 
 10 51 
 
 239 
 
 Bodie 
 
 17 30 
 
 240 
 
 
 24.06 
 
 241 
 
 Laws 
 
 5.11 
 
 242 
 
 
 5 50 
 
 243 
 
 Bishop Creek 
 
 15.30 
 
 244 
 
 
 11 56 
 
 245 
 
 
 14.99 
 
 246 
 
 
 5 01 
 
 247 
 
 
 6 18 
 
 248 
 
 Owens \'aliey No. 4 
 
 6,99 
 
 249 
 
 
 9 01 
 
 250 
 
 Owens Valley No. 6 
 
 12 82 
 
 251 
 
 Gem Lake 
 
 55,60 
 
 252 
 
 
 34 40 
 
 253 
 
 
 31 09 
 
 254 
 
 
 21 68 
 
 255 
 
 
 24.60 
 
 
 
 
 •Estimated. 
 fRecords broken. 
 
80 
 
 WATER RESOURCES OP CALIFORNIA. 
 
 TABLE 4- (Continued). PRECIPITATION DATA USED IN 
 CONSTRUCTING ISOHYETOSE MAP. 
 
 Stalions Usled in order of numbers on map, Plate IV. 
 For alphabetical list see Table 5. 
 
 Station 
 on map. 
 
 Precipitation station. 
 
 Elevation 
 
 above 
 sea level. 
 
 Length 
 of record. 
 
 Period 
 of record 
 
 Mean of 
 seasonal 
 precipita- 
 tion 
 record. 
 
 Fifty year 
 
 mean 
 seasonal 
 precipita- 
 tion. 
 
 Number. 
 256 
 
 Fort Miller 
 
 Feet. 
 
 400 
 
 1.300 
 
 2.441 
 
 3,000 
 
 2,825 
 
 3,500 
 
 000 
 
 5,000 
 
 1,932 
 
 7,297 
 
 3,945 
 
 3,665 
 
 4.700 
 
 4,452 
 
 2,714 
 
 1.400 
 
 650 
 
 1,825 
 
 1,471 
 
 1.660 
 
 293 
 
 351 
 
 173 
 
 255 
 
 Years. 
 
 4 
 
 5 
 16 
 12 
 
 2 
 18 
 
 4 
 14 
 13 
 
 1 
 15 
 11 
 11 
 13 
 18 
 
 8 
 10 
 26 
 10 
 
 4 
 36 
 11 
 49 
 21 
 
 5 
 39 
 
 4 
 
 1 
 18 
 
 1 
 
 5 
 34 
 38 
 54 
 
 6 
 14 
 26 
 44 
 32 
 47 
 
 7 
 
 9 
 25 
 
 2 
 
 30 
 24 
 38 
 47 
 40 
 8 
 8 
 8 
 3 
 2 
 
 8 
 5 
 7 
 6 
 6 
 
 41 
 6 
 7 
 
 Broken 
 1916-1921 
 1903-1919 
 1904-1921t 
 1919-1921 
 1903-1921 
 1878-1882 
 1896-1910 
 1908-1921 
 1920-1921 
 1904-19211 
 1910-1921 
 1910-1921 
 1896-1909 
 1883-1901 
 1904-1914t 
 1907-1917 
 1888-19211 
 1903-1913 
 1898-1902 
 18B8-1915t 
 1907-19211 
 1872-1921 
 1899-1921 t 
 1879-1884 
 1873-19I3t 
 1880-1884 
 1920-1921 
 1899-1 92 It 
 1920-1921 
 1881-1886 
 1881-1921t 
 1877-1915 
 1867-1921 
 1915-1921 
 1870-1884 
 lS88-1915t 
 1871-1915 
 1889-1921 
 1874-1921 
 1877-1884 
 1899-1910t 
 1891-1916 
 1918-1920 
 1885-1921 
 1897-1921 
 1881-19211 
 1874-1921 
 1S81-1921 
 1913-1921 
 191.3-1921 
 1913-1921 
 1918-1921 
 1910-1921 
 191.3-1921 
 19i:i-1921t 
 1914-1921 
 1912-1918 
 I9I2-1918 
 1912-1918 
 
 Broken 
 1912-1918 
 1899-1906 
 
 Inches. 
 
 24.51 
 23.14 
 20 82 
 35.62 
 34.84 
 52.23 
 19.79 
 55 00 
 29.79 
 29.83 
 32 08 
 33,38 
 39.57 
 54.97 
 38.53 
 43.96 
 33.90 
 33.96 
 32.67 
 19.81 
 16.46 
 15 87 
 11,02 
 12 67 
 9.28 
 7.95 
 11.70 
 12.47 
 10. ,39 
 18.82 
 15.03 
 14.27 
 16.49 
 14 08 
 10 78 
 12 26 
 10 70 
 10.66 
 10.83 
 19.90 
 21.96 
 22 95 
 49.10 
 50.66 
 33.09 
 15.39 
 16.19 
 15.11 
 30 60 
 20 99 
 18.79 
 11.96 
 13.36 
 12.82 
 22 87 
 19 25 
 17 45 
 26.09 
 27.17 
 22.55 
 25.19 
 26.63 
 16.21 
 
 Inches. 
 20 50 
 
 257 
 
 Auberry 
 
 25 95 
 
 258 
 259 
 
 S. J. L. and P. Co. Res. No. 1 
 
 North Fork 
 
 25.52 
 35 90 
 
 260 
 261 
 262 
 
 S. J. L. and P. Co. P. H. No. 3 
 
 San Joaquin L. and P. Co. (Crane Valley) . . 
 
 37.48 
 40.70 
 21 62 
 
 263 
 
 
 51 30 
 
 264 
 
 
 31.31 
 
 265 
 
 
 27 11 
 
 266 
 
 
 35.10 
 
 267 
 
 Hctch Hetchy 
 
 36.29 
 
 268 
 
 
 43 00 
 
 269 
 
 Crockers . 
 
 50 90 
 
 270 
 
 Second Garrotte 
 
 36.35 
 
 271 
 
 Groveland 
 
 38 00 
 
 272 
 
 Jacksonville 
 
 36,05 
 
 273 
 
 Sonora . . .... 
 
 32 50 
 
 274 
 
 Jamestown 
 
 31.48 
 
 275 
 
 
 18.96 
 
 276 
 
 La Grange 
 
 16.80 
 
 277 
 
 Merced Falls 
 
 16.20 
 
 278 
 
 Merced 
 
 11.10 
 
 279 
 
 
 12.00 
 
 280 
 
 Central Point 
 
 9,67 
 
 281 
 
 
 121 
 
 65 
 
 131 
 
 126 
 
 105 
 
 132 
 
 156 
 
 111 
 
 23 
 
 22 
 
 54 
 
 90 
 
 90 
 
 91 
 
 193 
 
 323 
 
 348 
 
 910 
 
 1,600 
 
 600 
 
 217 
 
 90 
 
 95 
 
 4,209 
 
 8.20 
 
 282 
 
 Hills Ferry 
 
 11.41 
 
 283 
 
 
 10.39 
 
 284 
 
 Denair 
 
 9.80 
 
 285 
 
 Turlock 
 
 15 65 
 
 286 
 
 Longworth 
 
 14.91 
 
 287 
 
 Oakdale 
 
 14.00 
 
 288 
 
 Farmington 
 
 15.90 
 
 289 
 
 
 14.18 
 
 290 
 
 Lathrop 
 
 12.43 
 
 291 
 
 
 12,93 
 
 292 
 
 Westley 
 
 10.00 
 
 293 
 
 
 10,70 
 
 294 
 
 
 10,20 
 
 295 
 
 Gilroy 
 
 19.80 
 
 296 
 
 Tennant 
 
 20.51 
 
 297 
 
 
 22.04 
 
 298 
 
 Laurel 
 
 48.20 
 
 299 
 
 Wrights 
 
 57.60 
 
 300 
 
 Los Gatoa 
 
 32.80 
 
 301 
 
 Campbell . . 
 
 16,10 
 
 302 
 
 
 15.90 
 
 303 
 
 
 15.10 
 
 304 
 
 
 30 00 
 
 305 
 
 S. V. W. Co No 1 10 fUpperArrovo Valley) 
 
 21.69 
 
 306 
 
 S. V. W. Cn. No. 109 (Upper Arroyo Valley) . 
 
 
 19,41 
 
 307 
 
 Spring Valley Water Co No. 108 
 
 
 12.36 
 
 308 
 309 
 310 
 
 Spring Valley Water Co. No. 105 A 
 
 Spring Valley Water Co. No. lOOA 
 
 1,800 " 
 
 15 01 
 15.64 
 33.61 
 
 311 
 
 Spring Valley Water Co. No. 112 
 
 
 21.40 
 
 312 
 
 S. V. W. Co. No. HI (Patterson Ranch). . . 
 
 
 18 91 ■ 
 
 313 
 
 
 2,500 
 2,650 
 2,950 
 
 600 
 3,789 
 
 244 
 
 28.10 
 
 314 
 
 
 .30.42 
 
 315 
 
 Blanch Gage 
 
 24.30 
 
 316 
 
 
 24.71 
 
 317 
 
 
 28,70 
 
 318 
 
 
 15.60 
 
 
 
 
 tRecords broken. 
 
WATER RESOURCES OP CALIFORNIA. 
 
 81 
 
 TABLE 4— (Continued). PIIECIPITATION DATA USED IN 
 CONSTRUCTING ISOHYETOSE MAP. 
 
 Staiioru listed in order of numbers on niap, Plate IV. 
 For alphabetical list see Table o. 
 
 Station 
 OD map. 
 
 Precipitation station. 
 
 Elevation 
 
 above 
 sea level. 
 
 Length 
 of record. 
 
 Period 
 of record. 
 
 Mean of 
 seasonal 
 precipita- 
 tion 
 record. 
 
 Fifty year 
 
 mean 
 seasonal 
 precipita- 
 tion. 
 
 Number. 
 
 319 
 
 320 
 
 321 
 
 322 
 
 323 
 
 324 
 
 325 
 
 326 
 
 327 
 
 328 
 
 329 
 
 330 
 
 331 
 
 332 
 
 333 
 
 334 
 
 335 
 
 336 
 
 337 
 
 338 
 
 339 
 
 340 
 
 341 
 
 342 
 
 343 
 
 344 
 
 345 
 
 346 
 
 347 
 
 348 
 
 349 
 
 350 
 
 351 
 
 352 
 
 353 
 
 354 
 
 355 
 
 356 
 
 357 
 
 358 
 
 368A 
 
 359 
 
 359.^ 
 
 360 
 
 361 
 
 362 
 
 363 
 
 364 
 
 365 
 
 366 
 
 367 
 
 368 
 
 369 
 
 370 
 
 371 
 
 372 
 
 373 
 
 374 
 
 375 
 
 376 
 
 377 
 
 378 
 
 379 
 
 380 
 
 Niles 
 
 Sunol 
 
 Pleasantfln. . . .' 
 
 Dublin 
 
 Weideman Ranch 
 
 Bishop Ranch 
 
 Spring Valley WatCT Co. No. 101 . . 
 Spring Valley Water Co. No. 102 . 
 Spring Valley Water Co. No. 103. . 
 
 Alameda riugar Co 
 
 Hagerman Ranch 
 
 Duvall Vineyard - ... - 
 
 El Mocho Mneyard 
 
 Livermore 
 
 Spring Valley Water Co. No. 104 . 
 
 Midway 
 
 Ellis 
 
 Tracy 
 
 Byron 
 
 Brentwood 
 
 Antioch 
 
 Mount Diablo 
 
 Walnut Creek 
 
 Crockett 
 
 San Pablo Lake 
 
 East Brother Ishind 
 
 San Rafael 
 
 KentficlJ 
 
 Mount Tamlapais 
 
 SausaUto 
 
 Point Bonita 
 
 Angel Island 
 
 .Mcatraz Island 
 
 Verba Buena Island 
 
 Berkeley 
 
 Lake Temescal 
 
 Lake Chabot ... - - 
 
 San Leandro 
 
 .\lameda 
 
 Mills College 
 
 San Francisco 
 
 Oakland 
 
 Fort Mason 
 
 Presidio 
 
 Fort Point 
 
 Point Lobos 
 
 Lake Honda 
 
 Lake Merced 
 
 Point Montara 
 
 San Andreas Reservoir 
 
 San Mateo 
 
 Lower Crystal Springs . - 
 
 Crystal Springs Cottage 
 
 Upper Crystal Springs 
 
 Pila-citas 
 
 Woodside 
 
 Menlo Park 
 
 Portola Woods 
 
 Mountain View 
 
 Pigeon Point 
 
 .Ano Nueve Island 
 
 Boulder Creek 
 
 BenLomond 
 
 Glenwood 
 
 Feet. 
 
 250 
 361 
 367 
 1.500 
 425 
 
 700 
 
 346 
 350 
 4,000 
 550 
 485 
 
 354 
 74 
 64 
 33 
 77 
 46 
 3,848 
 75 
 100 
 200* 
 245 
 2,300 
 65 
 2,375 
 5 
 283 
 762 
 130 
 343 
 320 
 425 
 235 
 48 
 19 
 200 
 207 
 36 
 100 
 150 
 186 
 250 
 400 
 19 
 25 
 445 
 22 
 300 
 300 
 300 
 695 
 428 
 64 
 370 
 95 
 
 
 470 
 300 
 885 
 
 Years. 
 
 42 
 17 
 
 7 
 
 40 
 
 5 
 
 5 
 42 
 
 2 
 20 
 
 3 
 
 5 
 
 9 
 10 
 33 
 22 
 10 
 
 9 
 17 
 2'^ 
 
 'i 
 
 34 
 13 
 44 
 14 
 
 2 
 
 21 
 72 
 47 
 13 
 33 
 
 4 
 21 
 
 1 
 20 
 
 9 
 13 
 47 
 28 
 24 
 43 
 47 
 2 
 35 
 
 14 
 
 18 
 9 
 9 
 
 28 
 
 16 
 9 
 
 1871-1919t 
 
 1898-1915 
 
 1877-1884 
 
 1909-1918 
 
 1910-1913t 
 
 1907-1911 
 
 1912-1921 
 
 1912-1921 
 
 1912-1921t 
 
 1903-I9I1 
 
 1906-1914 
 
 1904-1911 
 
 1902-1911 
 
 1871-1921 
 
 1912-1921t 
 
 1877-1879 
 
 1871-1879 
 
 lS79-192It 
 
 1879-1884 
 
 1879-1884 
 
 1879-1921 
 
 1875-1877 
 
 1887-19211 
 
 1918-1921 
 
 1916-1921 
 
 1875-1884 
 
 1874-1884 
 
 1888-1921 
 
 1898-1920 
 
 1904-1914 
 
 1875-1884 
 
 1867-1884 
 
 1861- t 
 
 187.5-1884 
 
 1887-1921 
 
 1908-1921 
 
 1877-1921 
 
 1895-1911t 
 
 1909-1911 
 
 1893-1916t 
 
 1849-1921 
 
 1870-1884 
 
 1849-1884t 
 
 1865-1869 
 
 1893-1914 
 
 1920-1921 
 
 1870-1921t 
 
 1875-1884 
 
 1871-1884 
 
 1874-1921 
 
 Broken 
 1894-1918 
 1875-1918 
 1871-1918 
 1905-1907 
 1878-1913 
 1892-1906 
 1886-1910t 
 1875-1884 
 1875-1884 
 1888-1916 
 1899-1916t 
 
 Broken 
 
 Inches. 
 
 19.05 
 22.56 
 18.94 
 19 51 
 21 79 
 22,26 
 15 82 
 15 35 
 13.39 
 19.02 
 15.55 
 18 65 
 15.82 
 15,30 
 11,94 
 
 6,60 
 
 9,41 
 10 13 
 12 90 
 1110 
 12 52 
 21 01 
 19.82 
 15.64 
 17 44 
 
 7.54 
 39-58 
 48.25 
 26.80 
 25 48 
 25.43 
 21 82 
 17.99 
 
 17.78 
 25.72 
 
 21 65 
 22.48 
 23.77 
 13.40 
 26.41 
 22.49 
 23 84 
 16.24 
 19.79 
 22.88 
 18.21 
 25 52 
 
 22 64 
 22.73 
 48.73 
 20.61 
 30.29 
 30 09 
 34.51 
 48.96 
 37 77 
 16.88 
 31.12 
 15 55 
 18.44 
 22.48 
 55.59 
 55-55 
 44.18 
 
 Inches. 
 
 18 70 
 21.57 
 19,07 
 21,04 
 25 19 
 21.71 
 17.23 
 16 73 
 15 30 
 16.85 
 
 15 58 
 
 16 36 
 14.21 
 15 30 
 12.94 
 
 5.35 
 9.11 
 9.80 
 13.22 
 11.38 
 12.40 
 24.16 
 19.26 
 17.43 
 21.80 
 7.82 
 41 27 
 46.70 
 26.80 
 24 10 
 25.82 
 20.61 
 16.78 
 16.31 
 25.60 
 22.91 
 22 18 
 22.70 
 12 52 
 24 80 
 22.50 
 23.80 
 15.50 
 18.90 
 17.84 
 18.96 
 26.05 
 22.75 
 23.54 
 51.41 
 20.60 
 29.29 
 29.42 
 33.98 
 48.61 
 28.60 
 16 60 
 28.52 
 14 02 
 18 24 
 22 23 
 53 00 
 54,40 
 45 18 
 
 •Estimated. 
 
 t Records broken. 
 
 6-20273 
 
82 
 
 WATER RESOURCES OF CALIFORNIA. 
 
 TABLE 4— (Continued). PRECIPITATION DATA USED IN 
 CONSTRUCTING ISOHYETOSE MAP. 
 
 Stations listed in order of numbers on map, Plate IV. 
 For alphabetical list see Table 5. 
 
 Station 
 on map. 
 
 Number. 
 
 381 
 
 382 
 
 383 
 
 384 
 
 385 
 
 386 
 
 387 
 
 388 
 
 389 
 
 390 
 
 391 
 
 392 
 
 393 
 
 394 
 
 395 
 
 396 
 
 397 
 
 398 
 
 399 
 
 400 
 
 401 
 
 402 
 
 403 
 
 404 
 
 405 
 
 406 
 
 407 
 
 408 
 
 409 
 
 410 
 
 411 
 
 412 
 
 413 
 
 414 
 
 415 
 
 416 
 
 417 
 
 418 
 
 419 
 
 420 
 
 421 
 
 422 
 
 423 
 
 424 
 
 425 
 
 426 
 
 427 
 
 428 
 
 429 
 
 430 
 
 431 
 
 432 
 
 433 
 
 434 
 
 435 
 
 436 
 
 437 
 
 438 
 
 439 
 
 440 
 
 441 
 
 442 
 
 Precipitation station. 
 
 Felton 
 
 Santa Cniz 
 
 Aptos. 
 
 WatsonviUe 
 
 Pajaro 
 
 HoUister 
 
 Salinas 
 
 Spreckcls 
 
 Del Monte 
 
 Monterey 
 
 Chualar 
 
 BigSur 
 
 Gonzales 
 
 Soledad 
 
 Abbotts 
 
 San Ardo 
 
 King City 
 
 Priest Valley 
 
 Coalinga 
 
 New Idria 
 
 Idria (New Idria) 
 
 Panoche 
 
 Mendota 
 
 Firebaugh 
 
 Storey 
 
 Borden 
 
 Friant 
 
 Hamptonville 
 
 Big Dry Creek 
 
 Ciovis 
 
 Fresno 
 
 Lemoore 
 
 Hanford 
 
 Tulare 
 
 Porterville 
 
 Lindsay 
 
 Vlsalia 
 
 Goshen 
 
 Traver 
 
 Kingsburg 
 
 Selma 
 
 Dinuba 
 
 Reedley 
 
 Sa^ge^ 
 
 Kings River 
 
 Piedra 
 
 Dunlap 
 
 Lemon Cove 
 
 Three Rivers 
 
 Lewis Valley 
 
 Milo...; 
 
 Spring\ille 
 
 Tule River 
 
 Owens Valley No. 16- 
 Owens Valley No. 15. . 
 Owens Valley No. 14. , 
 Owena Valley No. 13.. 
 Owens Valley No. 12. . 
 Owens Valley No. II,. 
 Owens Valley No. 10 
 Owens Valley No. 9 . 
 Owens Valley No. 8. . 
 
 Elevation 
 
 above 
 sea level. 
 
 Feet. 
 
 275 
 
 20 
 
 102 
 
 23 
 
 22 
 
 284 
 
 40 
 
 43 
 
 25 
 
 15 
 
 101 
 
 300 
 
 127 
 
 188 
 
 1.050 
 
 452 
 
 333 
 
 2.240 
 
 663 
 
 2,500 
 
 2.500 
 
 1,265 
 
 177 
 
 153 
 
 296 
 
 275 
 
 345 
 
 400 
 
 293 
 
 226 
 
 249 
 
 289 
 
 484 
 
 500* 
 
 334 
 
 300* 
 
 311 
 333 
 347 
 371 
 
 2,800 
 600 
 870 
 600 
 1,600 
 4,000 
 2,500 
 6,100 
 5,500 
 5.000 
 4.500 
 4,100 
 6,120 
 5,590 
 5,030 
 4.800* 
 
 Length 
 of record. 
 
 Years. 
 
 26 
 
 43 
 
 30 
 
 31 
 
 11 
 
 47 
 
 47 
 
 16 
 
 10 
 
 41 
 
 3 
 
 7 
 
 16 
 
 45 
 
 6 
 
 16 
 
 32 
 
 19 
 
 9 
 
 3 
 
 1 
 
 5 
 
 13 
 
 27 
 
 21 
 
 9 
 
 21 
 
 2 
 
 8 
 
 4 
 
 40 
 
 6 
 
 20 
 
 44 
 
 32 
 
 6 
 
 41 
 
 7 
 
 1 
 
 6 
 
 29 
 
 12 
 
 20 
 
 25 
 
 6 
 
 1 
 
 4 
 
 21 
 
 11 
 
 6 
 
 20 
 
 14 
 
 8 
 
 2 
 
 2 
 
 2 
 
 2 
 
 2 
 
 2 
 
 Period 
 of record. 
 
 1889-1921 t 
 
 I878-J921 
 
 1885-1915 
 
 1881-1921! 
 
 1873-1884 
 
 1874-1921 
 
 187.3-19211 
 
 1905-1921 
 
 1911-1921 
 
 1847-I915t 
 
 1881-1884 
 
 1914-1921 
 
 1899-1915 
 
 1874-1921t 
 
 1915-1921 
 
 1886-1902 
 
 1887-19211 
 
 1898-1921 t 
 
 1912-1921 
 
 1881-1884 
 
 1920-1921 
 
 1914-1919 
 
 1894-1 908t 
 
 Broken 
 1899-1921t 
 1875-1884 
 
 Broken 
 1878-1880 
 1871-1879 
 1917-1921 
 1881-1921 
 1878-1884 
 1899-1921 t 
 1876-1921t 
 1889-1921 
 1915-1921 
 1877-19211 
 
 Broken 
 1880-1887 
 1878-1884 
 1880-1915 
 1909-1921 
 19)1-1921 
 1889-19151 
 1878-1884 
 1920-1921 
 1912-1916 
 1899-1921t 
 1910-1921 
 1878-1884 
 1898- 192 It 
 1907-1921 
 1913-1921 
 1908-1910 
 1908-1910 
 1908-1910 
 1908-1910 
 1908-1910 
 1908-1910 
 1908-1910 
 1908-1910 
 1908-1910 
 
 Mean of 
 seasonal 
 precipita- 
 tion 
 record. 
 
 Inches, 
 
 46 88 
 27 23 
 28,12 
 21 71 
 18 23 
 
 13 
 14 
 13 
 14 
 16 
 12 
 38 
 12 
 
 9 
 20 
 10 
 11 
 21 
 
 7 
 19 
 13 
 
 8,45 
 
 6 54 
 
 8 00 
 
 9 63 
 
 8 60 
 13 81 
 16,48 
 16 28 
 11 05 
 
 9 78 
 
 7 91 
 
 8 49 
 
 8 39 
 10 13 
 
 10 33 
 
 9 89 
 6 91 
 8 51 
 
 8 80 
 
 9 11 
 
 11 95 
 11 65 
 10 66 
 16 35 
 13.65 
 29.33 
 14 66 
 19 16 
 11,15 
 22,85 
 35.14 
 37 8t 
 10 58 
 
 8 72 
 6,45 
 4 82 
 3.92 
 15,05 
 10.50 
 8,49 
 7,26 
 
 •Estimated. 
 tRecorda broken. 
 
WATER RESOURCES OF CALIFORNIA. 
 
 83 
 
 TABLE 
 
 4— (Continued). PRECIPITATION DATA USED IN 
 CONSTRUCTING ISOHYETOSE MAP. 
 
 Stations listed in order of numbers on map, Plate IV. 
 For alphabetical list see Table 5. 
 
 Station 
 on map. 
 
 Precipitation station. 
 
 Elevation 
 
 above 
 sea level. 
 
 Length 
 of record. 
 
 Period 
 of record. 
 
 Mean of 
 seasonal 
 precipita- 
 tion 
 record 
 
 Fifty year 
 
 mean 
 seasonal 
 precipita- 
 tion. 
 
 Number. 
 
 443 
 444 
 
 Owens Valley No. 7 
 
 Feet. 
 
 3,940 
 3,925 
 3,728 
 3,620 
 178 
 1,623 
 3,300 
 2,700 
 2,600 
 5.500 
 2.500 
 2.500 
 2.500 
 2.640 
 2.751 
 3.964 
 1.500 
 4.400 
 2,721 
 1,290 
 2,500 
 550 
 500* 
 400* 
 634 
 
 Years. 
 
 2 
 
 12 
 16 
 24 
 
 9 
 
 1 
 10 
 
 4 
 27 
 12 
 13 
 10 
 15 
 
 2 
 37 
 37 
 19 
 13 
 
 7 
 39 
 16 
 
 4 
 
 1908^1910 
 
 1871-1877 
 
 1904-1920 
 
 1885-1909 
 
 1912-1921 
 
 1920-1921 
 
 1907-1917 
 
 1900-1906f 
 
 1894-1921 
 
 1909-1921 
 
 1896-1909 
 
 1904-1915t 
 
 1901-19201 
 
 1900-1902 
 
 1877-1914 
 
 1877-19I4t 
 
 1909-1921 
 
 190(M915t 
 
 1877-1884 
 
 1876-1915 
 
 1904-1921t 
 
 1878-1882 
 
 Inches. 
 
 5.75 
 4.47 
 5,70 
 
 3 01 
 1,71 
 4,99 
 
 25 65 
 9,63 
 10 30 
 20 96 
 
 10 62 
 
 12 12 
 
 11 48 
 9 46 
 
 4 93 
 10 69 
 10 52 
 
 20 02 
 13,79 
 10 94 
 11,21 
 
 7,53 
 
 5 60 
 
 5 10 
 
 6 96 
 
 10 06 
 6 22 
 6,51 
 6,38 
 6,25 
 6 43 
 6 42 
 
 5 58 
 
 6 08 
 5 04 
 
 5 40 
 9 62 
 
 6 20 
 6,31 
 6 80 
 9 .36 
 
 17 64 
 
 11 84 
 
 18 09 
 
 16 35 
 
 17 49 
 28 32 
 
 21 27 
 14.16 
 
 15 12 
 U 73 
 11,78 
 
 13 40 
 
 17 29 
 
 19 92 
 
 16 34 
 27 95 
 
 18 54 
 15,94 
 
 Inches. 
 
 4,29 
 4 33 
 
 445 
 
 
 4 30 
 
 446 
 
 
 3 20 
 
 447 
 
 Greenland Ranch 
 
 1,68 
 
 448 
 
 Trona 
 
 4 34 
 
 449 
 
 
 23.50 
 
 450 
 
 
 7 65 
 
 451 
 
 
 10 00 
 
 452 
 
 
 21 20 
 
 453 
 
 
 10 30 
 
 454 
 
 Borel 
 
 10 67 
 
 455 
 
 
 10,50 
 
 456 
 
 
 8,76 
 
 457 
 
 
 4 80 
 
 458 
 
 
 10 40 
 
 459 
 
 
 9,78 
 
 460 
 
 
 16 00 
 
 461 
 
 Keene 
 
 13,27 
 
 462 
 
 
 10 80 
 
 463 
 
 
 9 40 
 
 464 
 
 Rio Bravo Ranch 
 
 8 84 
 
 
 
 5 51 
 
 466 
 467 
 
 Sumner 
 
 Oil Center 
 
 10 
 
 6 
 
 6 
 
 2 
 
 15 
 
 32 
 
 19 
 
 18 
 
 7 
 
 31 
 
 19 
 
 3 
 
 19 
 
 19 
 
 10 
 
 10 
 
 9 
 
 9 
 
 11 
 
 28 
 
 37 
 
 34 
 
 5 
 
 27 
 
 52 
 
 30 
 
 8 
 
 3 
 
 8 
 
 23 
 
 12 
 
 10 
 
 7 
 
 17 
 
 54 
 
 35 
 
 1874-1884 
 
 1914-1920 
 
 1914-1920 
 
 19I0-1913t 
 
 1899-192It 
 
 1876-1908 
 
 1901-1920 
 
 1899-19211 
 
 1913-1920 
 
 1889-1921t 
 
 1901-1920 
 
 1879-1882 
 
 1901-1920 
 
 1901-1920 
 
 1911-1921 
 
 1911-1921 
 
 1912-1921 
 
 1912-1921 
 
 1908-19211 
 
 1887-1915 
 
 1882-19211 
 
 1887-1921 
 
 191G-1921 
 
 1889-1916 
 
 1869-1921 
 
 1885-192It 
 
 1913-1921 
 
 1918-1921 
 
 1876-1884 
 
 1894-1921t 
 
 1909-1921 
 
 1904-1914 
 
 Broken 
 1898-1916t 
 1867-1921 
 1873-1909t 
 
 6 06 
 6,84 
 
 468 
 
 
 9,88 
 
 469 
 
 
 
 8,29 
 
 470 
 471 
 
 Angiola 
 
 Delano 
 
 208 
 319 
 
 6 20 
 6,60 
 
 472 
 
 
 5 44 
 
 473 
 
 
 336 
 
 373 
 
 394 
 
 360* 
 
 300* 
 
 320* 
 
 5.40 
 
 474 
 
 
 5 42 
 
 475 
 
 Bakersfield . 
 
 5.20 
 
 476 
 
 
 5 29 
 
 477 
 
 McClung Ranch 
 
 6 86 
 
 478 
 
 LaVMirlp Ran/*h 
 
 4,70 
 
 479 
 
 
 8,38 
 
 480 
 
 
 640 
 
 803 
 
 595 
 
 1,205 
 
 2,800 
 
 616 
 
 960 
 
 800 
 
 837 
 
 996 
 
 201 
 
 220 
 
 150 
 
 95 
 
 100* 
 
 500 
 
 569 
 
 600 
 
 2,393 
 
 1.000 
 
 1.30 
 
 50 
 
 5 58 
 
 481 
 
 Middlewater 
 
 5,68 
 
 482 
 
 Dudley 
 
 5,96 
 
 483 
 
 Antelope Valley 
 
 9,56 
 
 484 
 
 Parkfield 
 
 16 80 
 
 485 
 
 San Miguel 
 
 11 60 
 
 486 
 487 
 
 Jolon 
 
 Paso Robles 
 
 17 70 
 16 30 
 
 488 
 
 Atascadero 
 
 18,21 
 
 489 
 
 
 27.40 
 
 490 
 
 
 21.62 
 
 491 
 
 
 14.20 
 
 492 
 
 
 14 49 
 
 493 
 
 
 14.42 
 
 494 
 
 
 11 99 
 
 495 
 
 
 13 50 
 
 496 
 
 
 15,31 
 
 497 
 
 
 17,60 
 
 498 
 
 
 15 55 
 
 499 
 
 
 25.30 
 
 500 
 
 
 18.82 
 
 501 
 
 
 16.50 
 
 
 
 
 •Estimated. 
 tRecords broken. 
 
84 
 
 WATER RESOURCES OP CALIFORNIA. 
 
 TABLE 4— (Continued). PRECIPITATION DATA USED IN 
 CONSTRUCTING ISOHYETOSE MAP. 
 
 Slalions listed in order of numbers on map, Plate IV. 
 For alphabetical list see Table 5. 
 
 Station 
 on map. 
 
 Precipitation station. 
 
 Elevation 
 
 above 
 sea level. 
 
 Length 
 of record. 
 
 Period 
 of record. 
 
 Mean of 
 seasonal 
 precipita- 
 tion 
 record. 
 
 Fifty year 
 mean 
 seasonal 
 precipita- 
 tion. 
 
 Number. 
 502 
 
 
 Feet. 
 
 8 
 
 150 
 
 286 
 
 900 
 
 1,200 
 
 1,250* 
 
 3.680 
 
 3,750 
 
 4,850 
 
 1,350 
 
 7,200 
 
 3,174 
 
 3,500* 
 
 3,170 
 
 2,800 
 
 4,500 
 
 3,047 
 
 3,000 
 
 3,000 
 
 2,468 
 
 486 
 
 2,820 
 
 1.200* 
 
 1,268 
 
 1,066 
 
 110 
 
 361 
 
 827 
 
 2,069 
 
 1,400 
 
 1,650 
 
 2,400 
 
 1.800* 
 
 2.000 
 
 1,800* 
 
 3,299 
 
 3,500 
 
 4,016 
 
 2.000 
 
 6.081 
 
 3,875 
 
 3,420 
 
 5,850 
 
 1,500* 
 
 > 1.400 
 
 900* 
 
 400* 
 
 540 
 
 740 
 
 750 
 
 1.000* 
 
 1.000* 
 
 1,000* 
 
 1,200* 
 
 1,200* 
 
 1.800 
 
 4.000* 
 
 3,700* 
 
 3.200* 
 
 3,000* 
 
 4,150 
 
 2,300 
 
 2,750* 
 
 1,200 
 
 1,350 
 
 861 
 
 711 
 
 714 
 
 Years. 
 
 11 
 19 
 18 
 16 
 
 1873-1884 
 1893-1916t 
 
 Broken 
 1905-1921 
 
 Inches. 
 
 14,59 
 14.72 
 15 87 
 23 87 
 19,15 
 34,24 
 17 10 
 10,59 
 13,99 
 
 28 25 
 19.77 
 
 13 91 
 6,93 
 5, 35 
 7,57 
 
 17 87 
 13,36 
 
 6,25 
 
 10,33 
 
 11 28 
 
 . 9,78 
 
 14 15 
 16,98 
 17.87 
 14 16 
 14,99 
 15.60 
 18.62 
 21 49 
 23.39 
 
 20 31 
 28.82 
 
 21 33 
 24.87 
 
 29 27 
 6 90 
 
 18.28 
 23.09 
 19.26 
 
 21 83 
 20.88 
 27.50 
 33 30 
 37.92 
 24.22 
 23.72 
 18.10 
 19.63 
 23.66 
 27.90 
 20.76 
 19.21 
 27.22 
 22.95 
 23.23 
 
 22 55 
 
 30 60 
 11 35 
 
 6,46 
 17,06 
 28,68 
 21 60 
 25,17 
 
 18 10 
 17,38 
 
 19 43 
 12,51 
 15.71 
 
 Inches. 
 14 99 
 
 503 
 
 West Saticoy..,, 
 
 15 10 
 
 504 
 
 
 
 505 
 
 Ojai Valley 
 
 20 60 
 
 606 
 
 
 23 06 
 
 507 
 
 
 13 
 
 15 
 
 6 
 
 9 
 
 28 
 
 2 
 
 8 
 
 2 
 
 1 
 
 9 
 
 13 
 
 8 
 
 1 
 
 I 
 
 5 
 
 1 
 
 1 
 
 3 
 
 38 
 
 26 
 
 36 
 
 44 
 
 22 
 
 3 
 
 1 
 
 2 
 
 3 
 
 1 
 
 3 
 
 2 
 
 6 
 
 3 
 
 3 
 
 3 
 
 3 
 
 3 
 
 21 
 
 17 
 
 1 
 
 24 
 
 3 
 
 14 
 
 22 
 
 11 
 
 4 
 
 3 
 
 4 
 
 1 
 
 1 
 
 3 
 
 3 
 
 2 
 
 10 
 
 3 
 
 1 
 
 3 
 
 3 
 
 2 
 
 30 
 
 3 
 
 8 
 
 10 
 22 
 
 1901-1914 
 
 1904-1921t 
 
 1915-1921 
 
 1893-1902 
 
 1886-1914 
 
 189.5-1897 
 
 Broken 
 1899-1901 
 1898-1899 
 1894-1903 
 1899-1912 
 
 Broken 
 1917-1918 
 1920-1921 
 1879-1884 
 1919-1920 
 1899-1900 
 1909-1912 
 1877-1915 
 1877-1921 t 
 1885-1921 
 1877-1921 
 1892-192It 
 1918-1921 
 1920-1921 
 1919-1921 
 1918-1921 
 1920-1921 
 1918-1921 
 1919-1921 
 1896-1902 
 1918-1921 
 1918-1921 
 1918-1921 
 1899-I919t 
 1899-1902 
 1896-1919f 
 1904-1921 
 1920-1921 
 1897-1921 
 1918-1921 
 1905-1919 
 1898-1920 
 1892-1911t 
 1880-1884 
 1918-1921 
 1900-1921t 
 1920-1921 
 1920-1921 
 1918-1921 
 1896-1899 
 1919-1921 
 191I-I921 
 1918-1921 
 1920-1921 
 1918-1921 
 19IS-1921 
 1919-1921 
 1891-1921 
 1918-1921 
 191.3-1921 
 1874-1884 
 1893-1915 
 
 29.28 
 
 508 
 
 
 15 80 
 
 509 
 
 Pattiway 
 
 6 90 
 
 510 
 
 Mutah Flat 
 
 20 05 
 
 511 
 
 
 26 80 
 
 512 
 
 
 22 99 
 
 513 
 
 Fort Tejon 
 
 14 67 
 
 514 
 
 
 9 62 
 
 515 
 
 
 10 48 
 
 516 
 
 
 9.73 
 
 517 
 
 
 18 00 
 
 518 
 
 
 14.66 
 
 519 
 
 
 7 53 
 
 520 
 
 Little Rook Creek 
 
 10,23 
 
 521 
 
 
 9.10 
 
 522 
 
 
 9.88 
 
 523 
 
 Magic Hill 
 
 24 40 
 
 524 
 
 Pincliot 
 
 15.20 
 
 525 
 
 Newhall ... 
 
 17 50 
 
 526 
 
 
 13.91 
 
 527 
 
 
 14.40 
 
 528 
 
 
 15.20 
 
 529 
 
 
 19 08 
 
 530 
 
 
 24.70 
 
 631 
 
 
 23.15 
 
 532 
 
 
 20.31 
 
 533 
 
 
 33.12 
 
 534 
 
 
 21.12 
 
 535 
 
 
 28.60 
 
 536 
 
 
 29,27 
 
 537 
 
 Palmdale 
 
 9.79 
 
 538 
 
 Alder Creek 
 
 21.02 
 
 539 
 
 
 26.53 
 
 540 
 
 
 22.13 
 
 541 
 
 Sister Elsie Peak 
 
 21.50 
 
 542 
 
 
 20.72 
 
 643 
 
 
 28 90 
 
 644 
 
 
 31.80 
 
 645 
 546 
 
 Santa .\nita Forest Station 
 
 37.65 
 25.70 
 
 547 
 
 
 27.26 
 
 548 
 
 
 17.45 
 
 649 
 
 
 20,40 
 
 650 
 
 
 23.20 
 
 651 
 
 
 23.03 
 
 652 
 
 
 23.87 
 
 553 
 
 
 20.65 
 
 554 
 
 
 26.96 
 
 655 
 
 Two Canyon Ranch 
 
 24.69 
 
 556 
 
 San Gabriel Intake 
 
 26.72 
 
 557 
 
 Follows Camp 
 
 36.42 
 
 558 
 
 
 30.60 
 
 559 
 
 
 11,65 
 
 660 
 
 
 7.43 
 
 661 
 
 Voltaire 
 
 16.89 
 
 562 
 
 
 32,98 
 
 563 
 
 
 24,81 
 
 564 
 
 
 25 17 
 
 565 
 
 
 19 30 
 
 566 
 
 
 19,96 
 
 567 
 
 
 18,70 
 
 568 
 
 
 11.65 
 
 569 
 
 
 16.30 
 
 
 
 
 •E3timated. 
 jRecorda broken. 
 
WATER RESOURCES OF CALIFORNIA. 
 
 85 
 
 TABLE 4— (Continued). PRECIPITATION DATA USED IN 
 
 CONSTRUCTING ISOHYETOSE \L\P. 
 
 Stations listed in order of numbers on map, Plate IV. 
 
 For alphabetical list see Table 5. 
 
 Station 
 on map. 
 
 Precipitation station. 
 
 Elevation 
 
 above 
 sea levcL 
 
 Length 
 of record. 
 
 Period 
 of record. 
 
 Mean of 
 seasonal 
 precipita- 
 tion 
 record. 
 
 Fiftj' year 
 
 mean 
 seasonal 
 precipita- 
 tion. 
 
 Number. 
 570 
 
 
 Feet. 
 
 1,750 
 1,320 
 1,000 
 1,325 
 978 
 1,054 
 1,352 
 1,759 
 5.280 
 2.950 
 2,850 
 2,000 
 5.350 
 5.200 
 6.500 
 2.000 
 2.250 
 3.256 
 3.256* 
 3.300 
 3.000 
 2.105 
 2,006 
 
 Years. 
 
 20 
 
 14 
 
 1 
 
 6 
 
 8 
 
 51 
 
 32 
 
 17 
 
 10 
 
 18 
 
 17 
 
 7 
 
 5 
 
 5 
 
 22 
 
 3 
 
 16 
 
 16 
 
 9 
 11 
 
 2 
 
 24 
 
 1 
 
 1 
 
 7 
 
 3 
 
 2 
 
 10 
 
 2 
 
 3 
 
 8 
 
 1 
 
 3 
 
 3 
 
 2 
 
 18 
 
 1 
 
 2 
 
 29 
 
 9 
 
 43 
 
 18 
 
 16 
 
 43 
 
 1 
 
 26 
 
 11 
 
 2 
 8 
 16 
 10 
 8 
 28 
 10 
 7 
 13 
 7 
 4 
 4 
 3 
 4 
 15 
 
 1891-1911 
 1904-1918 
 1882-1883 
 1915-1921 
 1876-1884 
 1870-1921 
 1889-1921 
 1892-1909 
 
 Broken 
 1903-1921 
 1904-1921 
 1909-19191 
 1893-1898 
 1893-1898 
 1892-1918t 
 1912-1915 
 1905-1921 
 1900-1916 
 1919-1921 
 
 Broken 
 1915-1917 
 
 Broken 
 I8S3-1S84 
 1868-1869 
 1909-1916 
 1895-1898 
 1919-1921 
 1911-1921 
 1915-1917 
 1918-1921 
 1874-1882 
 1920-1921 
 1919-1921 
 1918-1921 
 1919-1921 
 1903-1921 
 1883-1884 
 1916-1919t 
 1892-1921 
 
 Broken 
 1878-1921 
 1889-1907 
 1905-1921 
 1878-1921 
 1920-1921 
 1889-1915 
 1919-1920 
 1920-1921 
 1920-1921 
 1920-1921 
 1898-1909 
 1877-1884 
 1920-1921 
 1919-1921 
 1899-1921 
 1888-1921t 
 1911-1921 
 1875-1888t 
 1893-1921 
 1901-1911 
 1911-1918 
 1908-1921 
 
 Broken 
 1911-1915 
 1911-1915 
 1912-1915 
 1911-1915 
 1906-1921 
 
 Inches. 
 
 21 00 
 21 00 
 16 11 
 17.90 
 9.77 
 
 16 11 
 14 64 
 14.10 
 40 05 
 24.36 
 29 73 
 24 30 
 43.74 
 24.61 
 35.96 
 25.68 
 38 40 
 35 40 
 37 58 
 
 5.89 
 4.65 
 4.26 
 3 98 
 3.87 
 19 72 
 
 13 63 
 21.78 
 28.26 
 32.19 
 28 75 
 22.49 
 17.41 
 
 11 37 
 8.71 
 
 13.72 
 
 2 17 
 7.47 
 8 39 
 4.28 
 4.34 
 2.32 
 2.66 
 
 3 22 
 2.91 
 4.07 
 4.50 
 6.84 
 5 70 
 
 23.44 
 10.93 
 11.60 
 5.21 
 9.57 
 21 49 
 
 14 63 
 19.22 
 23.34 
 22.67 
 
 12 98 
 27 80 
 16.99 
 
 13 76 
 
 17 01 
 21 63 
 22.08 
 17.79 
 17 94 
 17 67 
 
 Inches- 
 23.10 
 
 571 
 
 
 19 40 
 
 572 
 
 
 29 85 
 
 573 
 
 
 17.90 
 
 574 
 
 
 9.97 
 
 575 
 
 
 16 15 
 
 576 
 
 Redlands 
 
 14.70 
 
 577 
 
 
 14.90 
 
 578 
 
 
 41.34 
 
 579 
 580 
 581 
 
 Mill Creek No. 2...... 
 
 Santa Ana River 
 
 23.00 
 27.48 
 22.70 
 
 582 
 
 
 51 40 
 
 583 
 
 Deep Creek 
 
 28.90 
 
 584 
 
 Bear Valley Dam . . 
 
 36 40 
 
 585 
 
 Devils Canon 
 
 22.72 
 
 586 
 
 L>1le Creek 
 
 36 00 
 
 587 
 
 Glen Ranch . . 
 
 32 90 
 
 588 
 
 
 36.82 
 
 589 
 
 Dobie Ranch 
 
 4.91 
 
 590 
 
 
 4.64 
 
 591 
 
 
 3.90 
 
 592 
 
 Daggett . . . 
 
 2.15 
 
 593 
 
 Camp Cady 
 
 3 01 
 
 594 
 
 
 7,800 
 5,220 
 6,800* 
 5.000 
 6.000 
 6.500 
 4.300 
 2.855 
 2.350 
 2.500 
 6,867 
 784 
 2,091 
 2,700 
 477 
 268 
 255 
 263 
 185 
 20 
 1,000 
 584 
 1.500* 
 1.200* 
 3.500 
 2,500 
 1.779 
 1.123 
 1.300 
 3.500 
 2,330 
 2.558 
 3.045 
 2.560 
 1.550 
 5.250 
 3.600 
 1.986 
 2,751 
 3.200 
 4.200 
 6.200 
 4.500 
 3.165 
 
 18 00 
 
 595 
 
 Holcomb Creek 
 
 1780 
 
 596 
 
 
 21 35 
 
 597 
 
 Seven Oaks 
 
 27.60 
 
 598 
 
 
 27.16 
 
 599 
 
 Raywood Flat 
 
 29.75 
 
 600 
 
 
 25.40 
 
 601 
 
 
 18.72 
 
 602 
 
 
 10.88 
 
 603 
 
 
 8 33 
 
 604 
 
 
 13 13 
 
 605 
 
 Bagdad 
 
 1 90 
 
 606 
 
 
 4 04 
 
 607 
 
 Goffs 
 
 9.76 
 
 608 
 
 
 4.40 
 
 609 
 
 BIythe 
 
 3 70 
 
 610 
 
 Sterling ... . 
 
 2 30 
 
 611 
 
 Salton 
 
 2 90 
 
 612 
 
 Mecca 
 
 2 80 
 
 613 
 
 
 2 90 
 
 614 
 
 
 3 54 
 
 615 
 
 
 4 60 
 
 616 
 
 
 5 90 
 
 617 
 
 
 6 13 
 
 618 
 
 MiUard Forks 
 
 25 21 
 
 619 
 
 Milliard Canyon 
 
 11 75 
 
 620 
 
 
 12.00 
 
 621 
 
 
 4 76 
 
 622 
 
 
 10.29 
 
 623 
 
 Hurlev FUt 
 
 20 56 
 
 624 
 
 
 16.40 
 
 625 
 
 
 18 50 
 
 626 
 
 
 22 80 
 
 627 
 
 
 26 70 
 
 628 
 
 
 13.40 
 
 629 
 
 IdyllwUd 
 
 26 10 
 
 630 
 
 Cahuilla 
 
 16.20 
 
 631 
 
 
 13 80 
 
 632 
 
 
 17 36 
 
 633 
 
 
 21.63 
 
 634 
 
 
 21.60 
 
 635 
 636 
 
 Hot Springs Mountain _ 
 
 Easier Nest 
 
 16.83 
 17 55 
 
 637 
 
 
 17.70 
 
 
 
 
 •Intimated. 
 tRecords broken. 
 
86 
 
 WATER RESOURCES OF CALIFORNIA. 
 
 TABLE 4— (Continued). PRECIPITATION DATA USED IN 
 CONSTRUCTING ISOHYETOSE MAP. 
 
 Stations listed in order of numbers on map. Plate IV. 
 For alphabetical list see Table 6. 
 
 Station 
 on map. 
 
 Precipitation station. 
 
 Elevation 
 
 above 
 sea level. 
 
 Length 
 of record. 
 
 Period 
 of record. 
 
 Mean of 
 seasonal 
 precipita- 
 tion 
 record. 
 
 Fifty year 
 
 mean 
 seasonal 
 precipita- 
 tion. 
 
 Number. 
 638 
 
 
 Feet. 
 
 2,772 
 
 2,894 
 
 2,805 
 
 2,702 
 
 2,810 
 
 2,725 
 
 3,350 
 
 3,200 
 
 3,600 
 
 3,200 
 
 4,800 
 
 3,000 
 
 2,983 
 
 2,800 
 
 4,500 
 
 4,550 
 
 4,100 
 
 2,300 
 
 1,440 
 
 1,400 
 
 430 
 
 975 
 
 1,050 
 
 1,900 
 
 2,500 
 
 1,986 
 
 2,800 
 
 2,975 
 
 4,500 
 
 5,350 
 
 1,360 
 
 650 
 
 1,000 
 
 60 
 
 700 
 
 1,234 
 
 851 
 
 615 
 
 200 
 
 133 
 
 176 
 
 405 
 
 134 
 
 32 
 
 19 
 
 60 
 
 30 
 
 55 
 
 460 
 
 660 
 
 500 
 
 350 
 
 87 
 
 302 
 
 90 
 
 60 
 
 310 
 
 300 
 
 640 
 
 482 
 
 670 
 
 400 
 
 710 
 
 490 
 
 600 
 
 800 
 
 Years. 
 
 13 
 
 15 
 
 6 
 
 22 
 
 3 
 
 2 
 
 4 
 
 19 
 
 1 
 
 22 
 
 1 
 
 I 
 
 I 
 
 15 
 
 7 
 
 3 
 
 4 
 
 13 
 
 42 
 
 24 
 
 11 
 
 10 
 
 27 
 
 22 
 
 40 
 
 12 
 
 44 
 
 11 
 
 3 
 
 8 
 
 29 
 
 7 
 
 8 
 
 I 
 
 9 
 
 4 
 
 24 
 
 14 
 
 3 
 
 2 
 
 71 
 
 17 
 
 22 
 
 27 
 
 1 
 
 16 
 
 22 
 
 7 
 
 2 
 
 15 
 
 13 
 
 6 
 
 2 
 
 1911-1915 
 
 19I1-I9I5 
 
 19I1-19I5 
 
 19I1-19I5 
 
 1911-1915 
 
 1911-1915 
 
 1908-1921 
 
 1911-1915 
 
 1911-1915 
 
 1912-1915 
 
 1911-1915 
 
 1900-1915 
 
 1911-1915 
 
 1909-1915 
 
 1880-1921t 
 
 1912-1915 
 
 1913-1915 
 
 I9I1-1915 
 
 1896-1915 
 
 1914-1915 
 
 1893-1915 
 
 1914-1915 
 
 1911-1913 
 
 1914-1915 
 
 1911-1912 
 
 1896-1915t 
 
 Broken 
 1912-1915 
 1911-1915 
 1901-1920t 
 1872-1912t 
 1897-1921 
 1875-1886 
 1909-1919 
 1876-1903 
 1887-1921t 
 1881-1921 
 19D8-1921t 
 1877-1921 
 1889-1921 t 
 1883-1886 
 1913-1921 
 1878-1909t 
 1863-1870 
 1 888-1921 t 
 1917-1918 
 
 liroken 
 1911-1915 
 1879-1909t 
 1901-1915 
 1912-1915 
 1914-1915 
 1850-1921 
 1904-1921 
 1908-1915 
 1899-1921 
 1888-1915 
 1914-1915 
 1899-1915 
 1899-1921 
 1908-1915 
 1909-1911 
 1900-1915 
 1901-1915t 
 1902-1908 
 1912-1915t 
 
 Inches. 
 
 18 33 
 18.95 
 18.57 
 
 30 34 
 15.03 
 32 74 
 30.39 
 24 01 
 24.00 
 
 31 53 
 36 36 
 24 68 
 27.39 
 27.19 
 
 32 85 
 
 27 91 
 42 88 
 23.26 
 17.25 
 
 28 42 
 13 04 
 
 28 18 
 16.21 
 37.37 
 
 19 81 
 30 92 
 23 03 
 
 29 20 
 
 33 46 
 48 38 
 19.74 
 
 16 00 
 15.47 
 
 12 87 
 
 17 27 
 
 13 16 
 
 10 89 
 13 06 
 
 13 13 
 12 98 
 15 78 
 
 14 81 
 
 11 80 
 9.88 
 9 73 
 
 13.62 
 
 12 74 
 
 10 61 
 
 13 96 
 14.15 
 14.25 
 19 30 
 
 9 66 
 
 11 20 
 11.07 
 10 60 
 
 10 88 
 17 13 
 13.69 
 13.75 
 
 11 72 
 
 12 06 
 
 13 63 
 
 15 87 
 16.03 
 16.77 
 
 Inches. 
 
 639 
 
 
 
 640 
 
 Warner Summer Road 
 
 18 17 
 
 641 
 
 
 
 642 
 
 Monkey Hill 
 
 14 70 
 
 643 
 
 
 
 644 
 
 Mesa Grande 
 
 30 40 
 
 645 
 
 
 
 646 
 
 
 23 48 
 
 647 
 
 
 
 648 
 
 
 35 58 
 
 649 
 
 Santa Ysabei Ranch 
 
 24 02 
 
 650 
 
 
 26 08 
 
 651 
 
 Witch Creek 
 
 26 98 
 
 652 
 
 
 32 10 
 
 653 
 
 Schilling 
 
 26 40 
 
 654 
 
 Pine Hills Hotel 
 
 34 15 
 
 655 
 
 Rose Glen 
 
 22 75 
 
 656 
 
 
 17 75 
 
 657 
 
 Santa Maria Damsite 
 
 19 21 
 
 658 
 
 
 13 61 
 
 659 
 
 Pamo Camp 
 
 19 03 
 
 660 
 
 
 20 52 
 
 661 
 
 Sutherland Dam 
 
 25 23 
 
 662 
 
 
 21 53 
 
 663 
 
 
 21 98 
 
 664 
 
 
 27 90 
 
 665 
 
 
 27 61 
 
 666 
 
 
 32 72 
 
 667 
 
 NeUie 
 
 45 40 
 
 668 
 
 Valley Center 
 
 19 40 
 
 669 
 
 
 16 60 
 
 670 
 
 Twin Oaks 
 
 14 88 
 
 671 
 
 Oceanside 
 
 12 80 
 
 672 
 
 Fallbrook 
 
 17 20 
 
 673 
 
 Elsinore 
 
 13 50 
 
 674 
 
 
 10.70 
 
 675 
 
 Corona 
 
 13 00 
 
 676 
 
 
 13.00 
 
 677 
 
 Santa Ana 
 
 12 60 
 
 678 
 
 
 11 34 
 
 679 
 
 Yorba Linda 
 
 13 51 
 
 680 
 
 
 12.00 
 
 681 
 
 Drumm Barracks 
 
 10 62 
 
 682 
 
 San Pedro 
 
 10 80 
 
 683 
 
 Venice 
 
 11.63 
 
 684 
 
 
 12.67 
 
 685 
 
 Santa Fe Ranch 
 
 9.64 
 
 686 
 
 
 13.90 
 
 687 
 
 Miraraar 
 
 13.71 
 
 688 
 
 
 13 48 
 
 689 
 
 Chollas Heights 
 
 13.04 
 
 690 
 
 
 9.94 
 
 691 
 
 Point T,nTn!\ 
 
 10 70 
 
 692 
 
 Otay 
 
 10 83 
 
 693 
 
 
 10 60 
 
 694 
 
 
 10.78 
 
 695 
 
 
 11 57 
 
 696 
 
 
 13.58 
 
 697 
 
 
 13.70 
 
 698 
 
 EI Cajon Valley . 
 
 11 46 
 
 699 
 
 
 12.30 
 
 700 
 
 
 13.32 
 
 701 
 
 Los Padres Ranch 
 
 15 26 
 
 702 
 
 
 14,79 
 
 703 
 
 Jamul Ranch 
 
 15.67 
 
 
 
 
 tRecords broken. 
 
WATER RESOURCES OF CALIFORNIA. 
 
 87 
 
 TABLE 4— (Concluded). PRECIPITATION DATA USED IN 
 CONSTRUCTING ISOHYETOSE MAP. 
 
 Slalions listed in order of numbers on map, Plate IV. 
 For alphabetical list see Table 5. 
 
 Station 
 on map. 
 
 Number. 
 
 704 
 705 
 706 
 707 
 708 
 709 
 710 
 711 
 712 
 713 
 714 
 715 
 716 
 717 
 718 
 719 
 720 
 721 
 722 
 723 
 724 
 725 
 726 
 
 Precipitation station. 
 
 Lower Otay Reservoir 
 
 Dulzura 
 
 Tecate 
 
 Potrero 
 
 Campo 
 
 Morena Dam 
 
 Skye Valley 
 
 Barrett Dam 
 
 Lyon Peak 
 
 Lyon Valley 
 
 Lawson Valley 
 
 Jatapul 
 
 Chocolate Creek 
 
 Diverting Dam 
 
 Cayamaca 
 
 East Cuyamaca 
 
 Descango 
 
 Laguna 
 
 Brawley 
 
 Imperial 
 
 Heber 
 
 Cale.^ico 
 
 Fort Yuma 
 
 
 
 
 Mean of 
 
 Fifty year 
 
 Elevation 
 
 above 
 sea level. 
 
 Length 
 of record. 
 
 Period 
 of record. 
 
 seasonal 
 precipita- 
 tion 
 
 mean 
 seasonal 
 precipita- 
 
 
 
 
 record. 
 
 tion. 
 
 Feet. 
 
 Years. 
 
 
 Inches. 
 
 Inches. 
 
 486 
 
 9 
 
 1906-1915 
 
 11,80 
 
 11,60 
 
 1.075 
 
 1 
 
 1914-1915 
 
 24.03 
 
 16 24 
 
 1,775 
 
 1 
 
 19H-1915 
 
 23.75 
 
 16 05 
 
 2.390 
 
 1 
 
 1914-1915 
 
 27 34 
 
 18.47 
 
 2,543 
 
 31 
 
 1877-1921t 
 
 20 50 
 
 20 -.-iO 
 
 3,000 
 
 8 
 
 1907-1915 
 
 21,79 
 
 21,79 
 
 2,550 
 
 1 
 
 1913-1914 
 
 19 45 
 
 18 88 
 
 1,600 
 
 4 
 
 1917-1921 
 
 17 34 
 
 20 59 
 
 3,755 
 
 1 
 
 1914-1915 
 
 55 63 
 
 37 60 
 
 2.200 
 
 1 
 
 1914-1915 
 
 35 59 
 
 24 03 
 
 2,100 
 
 1 
 
 1914-1915 
 
 30 02 
 
 20-29 
 
 2,725 
 
 1 
 
 1914-1915 
 
 28 88 
 
 19 50 
 
 760 
 
 16 
 
 1899-1915 
 
 17.07 
 
 16 95 
 
 820 
 
 16 
 
 1899-1915 
 
 16 99 
 
 16,86 
 
 4.667 
 
 33 
 
 1888-1921 
 
 38,95 
 
 38 80 
 
 4,600 
 
 3 
 
 1912-1915 
 
 21 93 
 
 20.75 
 
 3,400 
 
 12 
 
 1896-1915t 
 
 22 72 
 
 25 40 
 
 5,440 
 
 10 
 
 1894-1904 
 
 18 59 
 
 22 32 
 
 105 
 
 9 
 
 1912-1921 
 
 2 38 
 
 2.11 
 
 65 
 
 4 
 
 1902-1906 
 
 4 58 
 
 4 36 
 
 65 
 
 9 
 
 1905-1914 
 
 2 16 
 
 1 88 
 
 
 
 16 
 
 1905-1921 
 
 2,94 
 
 2 50 
 
 100 
 
 12 
 
 1871-1883 
 
 3.25 
 
 3.12 
 
 jRecords broken. 
 
WATER RESOURCES OP CALIFORNIA. 
 
 TABLE 5. PRECIPITATION STATIONS USED IN 
 CONSTRUCTING ISOHYETOSE MAP. 
 
 Stations listed in alphabetical order. 
 For list in order of numbers on Plate IV see Table 4. 
 
 Precipitation station 
 
 on map. 
 
 Precipitation station on 
 
 map. 
 
 Precipitation station 
 
 on map. 
 
 Abbotts 
 
 Number. 
 
 305 
 
 522 
 
 (i.il 
 
 357 
 
 328 
 
 .351 
 
 538 
 
 551 
 
 80 
 
 3 
 
 664 
 
 220 
 
 680 
 
 47 
 
 614 
 
 221 
 
 350 
 
 470 
 
 377 
 
 483 
 
 339 
 
 383 
 
 581 
 
 540 
 
 Burkhart Ranch 
 
 Burney 
 
 Number. 
 .... 548 
 55 
 
 Divide 
 
 Number. 
 
 Acton 
 
 
 112 
 
 Aguanga 
 
 Butt Valley 
 
 58 
 
 Dobie Ranch 
 
 Dodgeland 
 
 589 
 
 Alameda 
 
 Byron 
 
 Cabezon 
 
 Calaveras 
 
 Calaveras River 
 
 CahuiUa 
 
 .... 337 
 .... 620 
 .... 316 
 .... 227 
 630 
 
 124 
 
 Alameda Sugar Co 
 
 Alcatraz Island 
 
 Downieville 
 
 90 
 
 82 
 
 Alder Greek 
 
 Alosta 
 
 Drumm Barracks 
 
 Drytown 
 
 DuWin 
 
 681 
 
 210 
 
 ... . 322 
 
 Alta 
 
 Calexico 
 
 Caliente 
 
 Calistoga 
 
 Campbell 
 
 Camp Cady 
 
 Camp Independence 
 
 Campo 
 
 Camptonville 
 
 Camp Wright 
 
 Canyon Dam 
 
 .... 725 
 .... 462 
 .... 167 
 .... 301 
 .... 593 
 .... 444 
 .... 708 
 .... 110 
 .... 144 
 59 
 
 Alturas 
 
 Amago 
 
 American Camp 
 
 Anaheim 
 
 Anderson 
 
 Andreas Canyon 
 
 Dudley 
 
 Dulzura 
 
 Dunlap 
 
 Dunnigan 
 
 Dunsmuir 
 
 482 
 
 705 
 
 427 
 
 183 
 
 16 
 
 . . 125 
 
 Angels Camp 
 
 Angel Island 
 
 Angiola 
 
 Duvall Vineyard 
 
 Dyervilie 
 
 Eagles Nest 
 
 East Brother Island 
 
 East Cuyamaca 
 
 East Park, . 
 
 330 
 
 33 
 
 636 
 
 Ano Nuevo Island 
 
 Antelope Valley 
 
 Cascada 
 
 Cedarville .... 
 
 .... 253 
 
 9 
 
 344 
 
 719 
 
 Antioch 
 
 Aptos 
 
 Centerville 
 
 Central Point 
 
 Cherokee, 
 
 .... 105 
 .... 280 
 .... 104 
 103 
 
 137 
 
 539 
 
 Arrowhead Springs 
 
 Arroyo Seco 
 
 Edgewood 
 
 12 
 
 Atascadero 
 
 488 
 
 257 
 
 201 
 
 084 
 
 Chester 
 
 Chico 
 
 Chihuahua Mountain. . . . 
 
 .... 61 
 
 .... 125 
 
 634 
 
 Edison Kern River 
 
 455 
 
 94 
 
 Auburn 
 
 El Caion 
 
 El Cajon Valley 
 
 697 
 
 Avalon 
 
 China Flat 
 
 39 
 
 
 Azusa 
 
 549 
 
 005 
 
 475 
 
 624 
 
 711 
 
 Chino 
 
 509 
 
 El D.irado 
 
 207 
 
 Bagdad 
 
 
 .... 716 
 
 Electra 
 
 ... 215 
 
 BakersSeld 
 
 Chollas Heights 
 
 Christmas Prairie 
 
 .... 689 
 20 
 
 Ellis 
 
 335 
 
 Banning 
 
 El Mocho Vineyard 
 
 Elsinore ^.. 
 
 Emigrant Gap 
 
 331 
 
 Barrett Dam 
 
 Chualar 
 
 391 
 
 673 
 
 Barstow 
 
 591 
 
 231 
 
 232 
 
 460 
 
 584 
 
 625 
 
 626 
 
 66 
 
 Churn Creek 
 
 Chute Camp 
 
 .... 48 
 . 115 
 
 .... 86 
 
 Bear River 
 
 End of Flume . . . 
 
 696 
 
 Bear River Reservoir 
 
 Cisco 
 
 87 
 
 Escondido 
 
 Eureka 
 
 669 
 
 Bear Valley 
 
 Cla-emont 
 
 Clear Lake (Modoc County) 
 
 Cloverdale 
 
 Clovis 
 
 Coahnga 
 
 Colby Camp 
 
 Colfax 
 
 Colgate 
 
 Colton 
 
 .... 565 
 .... 5 
 .... 154 
 .... 410 
 .... 399 
 .... 542 
 .... 75 
 .... 114 
 574 
 
 27 
 
 Bear Valley Dam 
 
 Beaumont 
 
 Beckwith 
 
 Fairfield 
 
 Fairmont 
 
 Fallen Leaf 
 
 Fallbrook 
 
 Farallones Light House . . 
 
 Farmingtcn 
 
 Felton 
 
 Fenner 
 
 Fircbaugh 
 
 Fish Canyon 
 
 Follows Camp 
 
 Folsom 
 
 Fontana 
 
 Fordvce Dam 
 
 Fort Bidwell 
 
 173 
 
 518 
 
 233 
 
 672 
 
 Bellota 
 
 193 
 
 157 
 
 Benicia 
 
 171 
 
 288 
 
 Ben Lomond 
 
 379 
 
 191 
 
 381 
 
 606 
 
 Berry vale (Sisson) 
 
 14 
 
 
 ... 133 
 
 404 
 
 Berkeley 
 
 333 
 
 Converse Nursery 
 
 Corning 
 
 Corona 
 
 Covelo Ranger Station 
 
 .... 598 
 .... 127 
 .... 076 
 .... 143 
 .... 275 
 
 552 
 
 Bettera\ia 
 
 Big Bar 
 
 492 
 
 40 
 
 557 
 
 197 
 
 Big Bear Tavern 
 
 Big Dry Creek 
 
 596 
 
 409 
 
 123 
 
 392 
 
 573 
 
 88 
 
 Biggs 
 
 Craftonville 
 
 .... 577 
 25 
 
 I 
 
 BigSur 
 
 Fort Bragg 
 
 Fort Crook 
 
 149 
 
 Bishop 
 
 242 
 
 243 
 
 324 
 
 315 
 
 34 
 
 81 
 
 Crockett 
 
 Crockers 
 
 Crystal Springs Cottage. . . . 
 
 Cuyamaca 
 
 Daggett 
 
 Damron's 
 
 Davis 
 
 Deadmans Hole 
 
 Deep Creek 
 
 Deer Creek 
 
 .... 342 
 .... 269 
 .... 369 
 .... 718 
 .... 592 
 .... 643 
 .... 187 
 .... 633 
 .... 583 
 83 
 
 7 
 
 Bishop Creek 
 
 Bishop Ranch 
 
 Fort Gaston 
 
 Fort Humboldt 
 
 23 
 
 28 
 
 Blanch Gage 
 
 
 18 
 
 Blocksburg 
 
 Blue Canyon 
 
 Fort Mason 
 
 Fnrt Miller 
 
 Fort Point 
 
 Fort Ross 
 
 Fort Tejon 
 
 Fort Yuma 
 
 Fonts Springs 
 
 Frazier Mine 
 
 Fresno 
 
 3B9A 
 
 . 256 
 
 BIythe 
 
 Boca 
 
 009 
 
 70 
 
 361 
 
 155 
 
 Bodie 
 
 2.39 
 
 693 
 
 513 
 
 . 726 
 
 Borden 
 
 Borel 
 
 406 
 
 454 
 
 378 
 
 91 
 
 151 
 
 722 
 338 
 
 Delano 
 
 Del Monte 
 
 Delta 
 
 .... 471 
 
 .... 389 
 
 53 
 
 138 
 
 512 
 
 411 
 
 Bowmans Dam 
 
 DeSabIa 
 
 99 
 
 Friant 
 
 Fruto 
 
 Gait 
 
 .. 407 
 
 Branscombe 
 
 Brawley 
 
 Dehesa 
 
 Denair 
 
 Descanso 
 
 Devils Canyon 
 
 Devore Ranch 
 
 Dinuba 
 
 Diverting Dam 
 
 .... 702 
 .... 284 
 .... 720 
 .... 585 
 .... 688 
 .... 422 
 .... 717 
 
 135 
 
 194 
 
 251 
 
 Bridgeport 
 
 Brighton 
 
 Bryant's Ranch 
 
 Buchanan 
 
 238 
 
 195 
 
 534 
 
 262 
 
 Georgetown 
 
 Gilroy 
 
 Gilta 
 
 Glacier Point 
 
 203 
 
 295 
 
 21 
 
 265 
 
WATER RESOURCES OF CALIFORNIA. 
 
 89 
 
 TABLE 5— (Continued). PRECIPITATION STATIONS USED IN 
 CONSTRUCTING ISOHYETOSE MAP. 
 
 Stations listed in alphabetical order. 
 For list in order of numbers on Plate IV see Table 4- 
 
 Precipitation station on map. 
 
 Precipitation station on map. 
 
 I 
 
 Precipitation station on map. 
 
 Number. 
 
 Glendora 550 
 
 Glen Ranch 587 
 
 Glennvilie 452 
 
 Glenwood 380 
 
 Goffs 607 
 
 Gold Run 78 
 
 Gonzales 393 
 
 Goshen 418 
 
 Grass Valley 117 
 
 Gray Mountain 590 
 
 Grayson 291 
 
 Greenland Ranch 447 
 
 Greenville 62 
 
 Gridley 122 
 
 Groveland 271 
 
 Grizzly Flat 230 
 
 Guinda 182 
 
 Hagcrman Ranch 329 
 
 Haines Canyon 533 
 
 Hamptonville 408 
 
 Hanford 413 
 
 Hansen Ranch 536 
 
 Happy Camp 20 
 
 Hayfork 37 
 
 Head Dam Ill 
 
 Head of Escondido Ditch 663 
 
 Healdsburg 160 
 
 Hearst f5 
 
 Heber 724 
 
 Helen Mine 165 
 
 HetchHetchy 267 
 
 Highland Springs 161 
 
 Hills Ferry 282 
 
 Hillside Reservoir 245 
 
 Hobart Mills 69 
 
 Hoicomb 594 
 
 Holcomb Creek 595 
 
 HoUister 386 
 
 Hornbrook 9 
 
 Hot Springs 449 
 
 Hot Springs Mountain 635 
 
 Hueneme 502 
 
 Hullville 142 
 
 Humbug Valley 57 
 
 Hurley Flat 623 
 
 Huntington Lake 252 
 
 Hyampom 38 
 
 Hydesville 30 
 
 Idria (new Idria) 401 
 
 Idyllwild 629 
 
 Imola 1 75 
 
 Imperial 723 
 
 Indio 613 
 
 Inskip 96 
 
 lone 211 
 
 Iowa Hill 76 
 
 Isabella 453 
 
 Jacinto 130 
 
 Jackson 212 
 
 Jacksonville 272 
 
 Jamestown 274 
 
 Jamul Ranch 703 
 
 Japatul 715 
 
 Jenny Lind 219 
 
 Jolon 486 
 
 Julian 652 
 
 Keeler 446 
 
 Keene ._ 461 
 
 Kennedy Mine 213 
 
 Kennett 52 
 
 Kentfield 346 
 
 Kernviile 451 
 
 King City 397 
 
 Kingsburg 420 
 
 Number. 
 
 Kings River 425 
 
 Knights Landing 185 
 
 Knob 42 
 
 Knoxville 180 
 
 Kono Tayee (Lakeport) 139 
 
 La Crescenta 530 
 
 La Grange 276 
 
 Laguna 721 
 
 Lake Chabot 355 
 
 Lake Eleanor 268 
 
 Lake Honda 363 
 
 Lake Merced 364 
 
 Lakeport 140 
 
 Lakeside 699 
 
 l^akeside Ranch 478 
 
 Lake Sebrina 244 
 
 Lake Spaulding 89 
 
 Lake Temescal 354 
 
 La Libre 515 
 
 La Mesa Dam 688 
 
 Lancaster 519 
 
 La Porte 92 
 
 La Presa 695 
 
 Las Plumas 102 
 
 Lathrop 290 
 
 Laurel 298 
 
 Laws 241 
 
 Lawson Valley 714 
 
 Laytonville 152 
 
 Le Grand 279 
 
 Lemon Cove 428 
 
 Lemoore 412 
 
 Lewis Valley 430 
 
 Lick Observatory 304 
 
 Lindsay 416 
 
 Little Rock Creek 520 
 
 Little Stony 136 
 
 Live Oak Canyon 566 
 
 Livermore 332 
 
 Livingston 283 
 
 Llano 560 
 
 Lodi 192 
 
 Lompoc 493 
 
 Lone Pine 445 
 
 Long Camp 226 
 
 Long Valley 65 
 
 Longwo-th 286 
 
 Lordsburg 571 
 
 Los Alamos 496 
 
 Los Angeles 528 
 
 LosBanos 281 
 
 Los Coches Creek 700 
 
 Los Gatos 300 
 
 Los Molinos 44 
 
 Los Padres Ranch 701 
 
 Lower Crystal Springs 368 
 
 Lower Haines 535 
 
 Lower Otay Reservoir 704 
 
 Lundy Reservoir 240 
 
 Lyon Peak 712 
 
 Lyon Valley 713 
 
 Lytle Creek 586 
 
 Macdoei 8 
 
 Madeline 4 
 
 Magalia 100 
 
 Magic Hill 523 
 
 Magundcn Sub 465 
 
 Malakoff Mine 85 
 
 Man3ana 516 
 
 Maricopa 480 
 
 Mariposa 264 
 
 Markleeville 235 
 
 Martinez 1 72 
 
 Marysvillc 120 
 
 Number. 
 
 Matagul (i45 
 
 May Canyon 532 
 
 McCloud 15 
 
 McClung Ranch 477 
 
 McKinney 74 
 
 Mecca 612 
 
 Melones 222 
 
 Mendenhall 666 
 
 Mendocino 148 
 
 Mendota 403 
 
 Menio Park 373 
 
 Merced 278 
 
 Merced Falls 277 
 
 Mesa Grande 644 
 
 Middletown 164 
 
 Middlewater 481 
 
 Midway 334 
 
 Millard Canyon 619 
 
 Millard Forks 618 
 
 Mill Creek No. 1 214 
 
 Mill Creek No. 2 579 
 
 Mills College 358 
 
 Milo 431 
 
 Milton 220 
 
 Miramar 687 
 
 Mission Valley 602 
 
 Mitchell Mill 228 
 
 Modesto 293 
 
 Mojave 457 
 
 Mokelumne Hill 216 
 
 Monkey Hill 642 
 
 Mono Ranch 507 
 
 Monrovia Canyon 547 
 
 Montague 10 
 
 Monterey 390 
 
 Monterio 517 
 
 Montgomery Creek 64 
 
 Monumental 24 
 
 Morongo Valley 603 
 
 Morena Dam 709 
 
 Morgan Hill 297 
 
 Morse's House 582 
 
 Mountain Springs 564 
 
 Mountain View 375 
 
 Mount Dav 317 
 
 Mount Diablo 340 
 
 Mt. Lowe Observatory 543 
 
 Mount Tamalpais 347 
 
 Mount Wilson 544 
 
 Mouth, San .A.ntonio 563 
 
 MumfordHill 95 
 
 Mutah Flat 510 
 
 Mundy's 205 
 
 Napa City 176 
 
 Needles 608 
 
 Nellie 667 
 
 Nevada City 116 
 
 Nevis 60 
 
 Newcastle 200 
 
 Newhall 525 
 
 Now Idria 400 
 
 Newman 294 
 
 Nicolaus 184 
 
 Niles 319 
 
 NordhofF 506 
 
 North Bloomfield 84 
 
 North Fork 259 
 
 North San Juan 113 
 
 Oakdale 287 
 
 Oakgrove 632 
 
 Oakland 359 
 
 Oakville 178 
 
 Occanside 671 
 
 Ogiers 314 
 
90 
 
 WATER RESOURCES OF CALIFORNIA. 
 
 TABLE 5— (Continued). PRECIPITATION STATIONS USED IN 
 CONSTRUCTING ISOHYETOSE MAP. 
 
 Stations listed in alphabetical order. 
 For list in order of numbers on Plate IV see Table 4- 
 
 Precipitation station on map. 
 
 Precipitation station on map. 
 
 Precipitation station on map. 
 
 
 Number. 
 
 Number. 
 
 
 
 Number. 
 
 Oil Center 
 
 467 
 
 Priest Valley 
 
 .. 398 
 
 Santa Ana River 
 
 
 
 580 
 
 Ojai Valley 
 
 505 
 
 Princeton 
 
 .. 132 
 
 Santa Anita Forest Station . 
 
 
 645 
 
 OkeU 
 
 174 
 
 Puerta La Cruz 
 
 .. 638 
 
 Santa Barbara 
 
 
 
 son 
 
 Oleta 
 
 209 
 
 654 
 
 Quincy 
 
 Ramona 
 
 .. 93 
 .. 656 
 
 
 
 
 in? 
 
 O'Melveny Camp 
 
 Santa Cruz 
 
 
 
 38i! 
 
 Orange 
 
 678 
 
 Rancho Del Jurupa 
 
 .. 572 
 
 Santa Fe Ranch 
 
 
 
 68Ji 
 
 OrUnd 
 
 128 
 
 Ravenna 
 
 .. 521 
 
 Santa Margarita 
 
 
 
 489 
 
 Orleans 
 
 22 
 
 Raywood Flat 
 
 .. 699 
 
 Santa Maria 
 
 
 
 491 
 
 Oroviile 
 
 106 
 
 692 
 
 Red Bluff 
 
 45 
 
 Santa Maria Damsite. . 
 Santa Monica 
 
 
 
 M7 
 
 Otay 
 
 Redding 
 
 .. 51 
 
 an 
 
 Owens Valley No. 2 
 
 246 
 
 Red Dome 
 
 .. 601 
 
 Santa Paula 
 
 
 
 .504 
 
 Owens Valley No. 3 
 
 247 
 
 Redlands 
 
 .. 676 
 
 Santa Rosa 
 
 
 
 IfW 
 
 Owens Valley No. 4 
 
 248 
 
 Recdlcy 
 
 .. 423 
 
 Santa \ sabel Ranch . . . 
 
 
 
 649 
 
 Owens Valley No. 5 . . . . 
 
 249 
 
 Repressa 
 
 .. 198 
 
 Santa Ysabel Stream . . 
 
 
 
 e.'io 
 
 Owens Valley No. 6 
 
 250 
 
 Rincon or Warner's 
 
 .. 665 
 
 Sausalito 
 
 
 
 348 
 
 Owens Valley No. 7 
 
 44.3 
 
 Rings Station 
 
 .. 600 
 
 Schilling 
 
 
 
 66,1 
 
 Owens Valley No. 8 
 
 442 
 
 441 
 
 Rio Bravo Ranch 
 
 Rio Vista 
 
 .. 464 
 .. 190 
 
 Scott Valley 
 
 
 
 17 
 
 Owens Valley No. 9 
 
 Second Garrotte 
 
 
 
 270 
 
 Owens Valley No. 10... 
 
 440 
 
 Riverside 
 
 .. 674 
 
 Selma 
 
 
 
 421 
 
 Owens Valley No. 11.... 
 
 439 
 
 Rocklin 
 
 .. 199 
 
 Serriterre 
 
 
 
 108 
 
 Owens Valley No. 12.... 
 
 438 
 
 Rockwood Ranch 
 
 .. 658 
 
 Seven Oaks 
 
 
 
 597 
 
 Owens Valley No. 13.... 
 
 437 
 
 Rohnerville 
 
 .. 29 
 
 Shasta 
 
 
 
 4» 
 
 Owens Valley No. 14.. . 
 
 436 
 
 Rosedale Ranch 
 
 .. 474 
 
 Shield's Ranch 
 
 
 
 237 
 
 Owens Valley No. 15 . . . 
 
 435 
 
 Rose Glen 
 
 .. 655 
 
 Shingle Springs 
 
 
 
 208 
 
 Owens Valley No. 16.... 
 
 434 
 
 Rosewood 
 
 .. 46 
 
 Shively 
 
 
 
 32 
 
 Ozena.. 
 
 608 
 
 Rose Mine 
 
 .. 604 
 
 Sierra Madre 
 
 
 
 .546 
 
 Pajaro 
 
 385 
 
 Round Valley 
 
 .. 56 
 
 SierraviUe 
 
 
 
 08 
 
 Palermo 
 
 107 
 
 Rumsey 
 
 .. 181 
 
 Sims 
 
 
 
 50 
 
 Palmdale 
 
 637 
 
 Ruth 
 
 .. 36 
 
 Sisquoc Ranch 
 
 
 
 497 
 
 Palm Springs 
 
 615 
 
 Sacramento 
 
 .. 196 
 
 Sisson 
 
 
 
 13 
 
 Pamo 
 
 660 
 
 St. Helena 
 
 .. 179 
 
 Sister Ebic Peak 
 
 
 
 541 
 
 Pamo Camp 
 
 659 
 
 St. Helena Mountain 
 
 .. 166 
 
 Skye Valley 
 
 
 
 710 
 
 
 402 
 
 484 
 
 Saint John 
 
 Salinas 
 
 .. 129 
 .. 387 
 
 
 
 
 1IR 
 
 Parkfield 
 
 Smith's Ranch 
 
 
 
 514 
 
 
 529 
 
 487 
 
 Salton 
 
 .. 611 
 .. 313 
 
 
 
 
 «?? 
 
 Paso Robles 
 
 Sam Parks 
 
 Soledad 
 
 
 
 394 
 
 Pattiway 
 
 509 
 
 San Andreas 
 
 .. 217 
 
 Sonoma 
 
 
 
 177 
 
 Peachland 
 
 159 
 
 San Andreas Reservoir 
 
 .. 366 
 
 Sonora 
 
 
 
 273 
 
 Penstock Camp 
 
 224 
 
 San Ardo 
 
 .. 396 
 
 South East Farallon 
 
 
 
 168 
 
 Petalxima 
 
 169 
 
 San Antonio Canyon 
 
 .. 562 
 
 South Vallejo 
 
 
 
 170 
 
 Phoenix Dam 
 
 223 
 
 San Bernardino 
 
 .. 575 
 
 Spadra 
 
 
 
 668 
 
 Piedra 
 
 426 
 
 San Diego 
 
 .. 690 
 
 Spreckels 
 
 
 
 388 
 
 Pigeon Point 
 
 376 
 
 San Emidio. 
 
 .. 479 
 
 Spring Valley Water Co. No. 
 
 101 
 
 326 
 
 Pilarcitas 
 
 371 
 
 San Fohpe 
 
 .. 646 
 
 Spring Valley Water Co. 
 
 No. 
 
 102 
 
 326 
 
 Pilot Creek 
 
 204 
 
 San Fernando 
 
 .. 526 
 
 Spring Valley Water Co. No. 
 
 103 
 
 327 
 
 Pmchot 
 
 524 
 
 San Francisco 
 
 ,368A 
 
 Spring Valley Water Co. 
 
 No. 
 
 104 
 
 333 
 
 Pine Crest 
 
 499 
 
 San Gabriel Intake 
 
 .. 656 
 
 Spring Valley Water Co. 
 
 No. 
 
 105A308 
 
 Pine Hills Hotel 
 
 654 
 
 San Gabriel Power House 
 
 .. 553 
 
 Spring Vallev Water Co. 
 
 No. 
 
 106A 309 
 
 Pine Mountain 
 
 662 
 
 Sanger 
 
 .. 424 
 
 Spring Valley Water Co. 
 
 No. 
 
 107 
 
 310 
 
 PittviUe.... 
 
 6 
 
 San Gorgonio Pass 
 
 . . 627 
 
 Spring Valley Water Co. 
 
 No 
 
 lOS 
 
 307 
 
 riacerville 
 
 206 
 
 San Jacinto 
 
 .. 628 
 
 Spring Valley Water Co 
 
 No 
 
 lOi 
 
 
 
 321 
 
 San Joaquin Light and Power 
 Co. (Crane Vallev) 
 
 
 (Upper Arroyo Valley) 
 Spring Valley Water Co 
 
 
 
 'ina 
 
 Point Arena 
 
 153 
 
 .. 261 
 
 No 
 
 110 
 
 
 Point Bonita 
 
 349 
 
 San Joaquin Light and Power 
 
 
 (Upper Arroyo Vallev) 
 
 
 
 305 
 
 Point Conception 
 
 494 
 
 Co. (Power House No.3).. .. 
 
 .. 260 
 
 Spring Valley Water Co 
 
 No 
 
 ii: 
 
 
 Point Lobos 
 
 362 
 
 San Joaquin Light and Power 
 
 
 (Patterson Ranch) 
 
 
 
 312 
 
 Point Loma 
 
 691 
 
 Co. (Res. No. I) 
 
 .. 258 
 
 Spring Valley Water Co. No. 112. . 
 
 311 
 
 Point Montara 
 
 365 
 
 .San Jose 
 
 .. 303 
 
 Springville 
 
 
 
 432 
 
 Point Reyes 
 
 156 
 
 San Leandro 
 
 .. 356 
 
 Squirrel Inn 
 
 
 
 578 
 
 Pomona 
 
 667 
 
 San Luia Obispo 
 
 .. 490 
 
 Standish 
 
 
 
 64 
 
 Porterville 
 
 415 
 
 San Mateo 
 
 . . 367 
 
 Stanley Miller Mine. . . . 
 
 
 
 658 
 
 Portola 
 
 67 
 
 San Miguel 
 
 .. 485 
 
 Stanwood 
 
 
 
 lUl 
 
 Portola Woods 
 
 374 
 
 San Miguel Island 
 
 . . 495 
 
 Sterling 
 
 
 
 610 
 
 Poso Ranch 
 
 472 
 
 San Pablo Lake 
 
 .. 343 
 
 Stevenson Creek 
 
 
 
 2,54 
 
 
 707 
 
 San Pedro 
 
 682 
 
 Stirling City 
 
 
 
 98 
 
 Poway 
 
 686 
 
 San Rafael 
 
 .. 345 
 
 Stookdale 
 
 
 
 476 
 
 Presidio 
 
 360 
 
 Santa Ana 
 
 .. 677 
 
 Stockton 
 
 
 
 289 
 
WATEK RESOURCEvS OF CALIFORNIA. 
 
 91 
 
 TABLE 5— (Concluded). PRECIPITATION STATIONS USED IN 
 CONSTRUCTING ISOHYETOSE MAP. 
 
 Stations listed in alphabetical order. 
 For list in order of nunibers on Plate IV see Table 4- 
 
 Precipitation station on map. 
 
 Precipitation station on map. 
 
 Precipitation station on map. 
 
 
 Number. 
 
 
 Number. 
 
 
 Number. 
 
 Storey 
 
 405 
 
 Tulare 
 
 414 
 
 Wasioja 
 
 498 
 
 Strawberry Flat 
 
 77 
 
 Tule River 
 
 433 
 
 
 384 
 
 Suisun 
 
 173 
 
 Turlock 
 
 285 
 
 Weaverville 
 
 41 
 
 Sulphur Banks 
 
 163 
 
 Tustin (near) 
 
 676 
 
 Weideman Ranch 
 
 323 
 
 Summerdale 
 
 263 
 
 Twin Oaks 
 
 670 
 
 Weldon 
 
 450 
 
 Summit 
 
 72 
 
 Twin Valley 
 
 162 
 
 West Branch 
 
 97 
 
 Sumner 
 
 466 
 
 Two Canyon Ranch 
 
 555 
 
 West Butte 
 
 121 
 
 Sunol 
 
 320 
 
 Ukiah 
 
 147 
 
 Westlcy 
 
 292 
 
 
 63 
 
 Upland 
 
 570 
 
 
 229 
 
 Sutherland Dam 
 
 661 
 
 Upper Crystal Spings 
 
 370 
 
 Westport 
 
 150 
 
 
 694 
 
 
 5)1 
 
 WestSaticoy 
 
 603 
 
 Tahoe 
 
 73 
 
 Upper Lake (Lake County) . 
 
 141 
 
 Wheatland 
 
 119 
 
 Tallac 
 
 234 
 
 
 31 
 
 Whitewater 
 
 621 
 
 Tamarack 
 
 236 
 
 Vacaville 
 
 189 
 
 Whitewater Canyon . . . . 
 
 616 
 
 Taylor's Ranch 
 
 456 
 
 Valley Center 
 
 ..... 668 
 
 Whitewater Ranch 
 
 617 
 
 Tecate 
 
 706 
 
 Valley .Springs 
 
 218 
 
 Williams 
 
 134 
 
 Tehachapi 
 
 458 
 
 Valyermo 
 
 559 
 
 WiUits 
 
 146 
 
 
 43 
 
 V'enice 
 
 683 
 
 Willows 
 
 131 
 
 Tejon Ranch 
 
 459 
 
 V'entura 
 
 501 
 
 Winters 
 
 188 
 
 
 296 
 
 Vestal 
 
 469 
 
 
 202 
 
 Tequisquita Ranch 
 
 318 
 
 Visalia 
 
 417 
 
 Witch Creek 
 
 651 
 
 Thermal Heights 
 
 468 
 
 Volcan Mountain . 
 
 648 
 
 Woodland 
 
 186 
 
 Three Rivers 
 
 429 
 
 Voltaire 
 
 561 
 
 Woodleaf 
 
 109 
 
 ToU House 
 
 255 
 
 Walla Walla Creek 
 
 19 
 
 Woodaide 
 
 372 
 
 Towle 
 
 79 
 
 336 
 
 Walnut Creek . . 
 
 341 
 
 Wrights 
 
 Verba Buena Island — 
 
 299 
 
 Tracy 
 
 Warner Damsite 
 
 641 
 
 352 
 
 Traver 
 
 419 
 
 Warner Ranch House 
 
 639 
 
 Yorba Linda 
 
 679 
 
 Trona 
 
 448 
 
 Warner's Springs 
 
 637 
 
 Yosemite 
 
 266 
 
 Truckee 
 
 71 
 
 Warner Summer Road 
 
 640 
 
 Yrcka 
 
 11 
 
 Tujunga 
 
 531 
 
 Wasco 
 
 473 
 
 Zenia 
 
 35 
 
92 
 Z 
 
 o 
 
 Q 
 
 00 
 
 3 
 
 Q 
 U 
 
 H 
 
 u 
 
 H 
 
 z5 
 o 
 
 H 
 X 
 
 Q 
 Z 
 
 l-H 
 < 
 
 u 
 
 hH 
 
 H 
 W 
 
 
 WATER RESOTTRCKS OF CAMFORNIA. 
 TABLE 6. 
 
 CO CO I ■-* ira c"! -* to 
 
 c-joo'* d 
 
 o 
 
 ; K M X K X 
 
 X !-; X > 
 
 X X !-t X 
 
 : X M M X M M M » 
 
 : X X X X X K 
 
 ■ '*■ a 
 
 
 OF, I 
 
 
 QQ 
 c c 
 .S.2 
 
 la "rt 
 
 
 e8 o 
 
 eg c3 
 
 09 a> 
 
 II 
 
 U s.SP.S 
 
 sa-s-g] 
 
 C. O 
 
 BO 
 
 
 jss:3:2 a £-a 
 
 e3s3rtrto3c3rtt3 
 
 ooooooco 
 
 moaio^oW>;*fflBOTQooooSoWh^^-^s]::poo 
 
 C0O6h^I>^CQS^ 
 
 ^ I— 
 
 r~ r- -H ^ -H 
 
 to lO t- OS r- ^ 
 
 •*• o — « to ^ 
 
 s 
 
 z 
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 W XXXXXKXX XWXXXK 
 
 Qa 
 
 y 
 
 &&& 
 
 ri c ^ o ° o 
 
 Sft^gt 
 
 la 
 
 .£ a 
 
 o;0 
 
 . - o oi -^ ji o 
 
 2 a q 
 
 fe rt 
 -^1*- 
 
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 .£f S t^'"' c c c - 
 
 3 3 
 
 2 3 '^ '^ ^^ ^ 
 
 C C '^ " 
 
 §-1 
 
 st 
 
 o 5 
 
 h ^ ' 
 
 ^ 5 ^l 
 2 =s s 
 
 cfl ca S 
 
 as 
 
 00 to'-J 
 
 pq 
 
 r' < ■< -t: < < < -< -- 
 
 _-aaS^" 
 
 
 
 D. 
 
 s 
 
 ■ o 
 
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 rt >. J o 
 
 5 a C^ 
 a> o m 
 
 .^' C pj be 
 
 o^ o a 
 
 CQCQCQffl 
 
 
 CD .-H .-. C^ 
 
WATER RESOURCES OP CALIFORNIA. 
 TABLE 6. 
 
 93 
 
 00 
 
 u 
 
 H 
 
 Z 
 
 Q 
 u 
 H 
 fi 
 
 J 
 
 u 
 
 H 
 Z 
 
 o 
 
 < a: 
 ow 
 
 ofe 
 
 2 
 z 
 o 
 
 
 B 
 o 
 
 <i>T 
 
 •«5 
 
 OS >» 
 
 c: c 
 O gj 
 
 s J c a a^ a a 
 
 ££2§§'S&§' 
 oooooooo 
 
 = la a 
 
 g S-gS a g 
 r*^ a c o g^-J 
 
 C g 
 
 &E C O 
 1^ C t. 
 
 QQ 
 
 « QQQQ 
 
 " fc a gg:^ t t 
 •g O-O =, O^ = C 
 
 o.;: a33 g-g-g 
 
 rt TO rt 03 rt ■ — ' ^— ^— -— — — 
 
 o e 
 
 ,_ o 
 
 xJ2 
 
 
 r- ui i-H ^- rl (M W ^C-3«-li?0 
 
 ft. ft. a. R 
 
 PQ >;. ta S >;•[=]« pa CQO' 
 
 Z z 
 
 « o 
 
 H 
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 CO 
 
 a. 
 
 3 
 C 
 
 C 
 o 
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 CO 
 
 &q3 =• 
 
 o a t£ ^ 
 
 a-S-S* S._ 
 te a a 6 a u 
 ■^ .c j: -£ O .^ 
 •3.2.2 g oQ 
 6 a S Q.i^ 
 a ^ ^ a A A 
 OOCOQO 
 
 on 
 
 ■SS'- 
 
 ^•s-Sa 
 
 O a =5 
 
 
 aj! 
 
 g gS.S.§iS.^.-&.§ a 
 
 - ^"3 c 
 
 5 a a £ 
 ^ ■^-' a S-l 
 CJ3 a atu- 1 
 
 2 aS 
 
 
 
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 ■" a 
 
 r.£.£M,o 5 
 
 
 o 
 
 o o 
 
 00 
 
 §__ tc rt ca 
 
 o_2 o G o 
 
 O g g S c 
 
 0000 
 
 0000 
 
 0.2.2 e3 n I 
 
 1 = 
 
 §111 ill i 
 
 COOOOOOui 
 
 oooooooo 
 
 R R, ft. ft. 
 
 OKSia3>-ffiS>-S.-3t£:aO:^OK.-4<S-^Z 
 
 ft. R. ^ ft. n. 
 
 C-QO OPiffil^'ScQO'q'C^i-^'^ 
 e^or^ cot— ^"'"''^^'^f^"^""'" 
 
 •§3 
 
 |i 
 11 
 
 . -a 
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94 
 
 WATER RESOURCES OP CALEPORNIA. 
 TABLE 6. 
 
 00 
 
 M 
 
 H 
 Z 
 
 Q 
 u 
 H 
 
 1— ( 
 
 u 
 H 
 
 Z 
 O 
 
 5 <: 
 
 Q z 
 
 60 
 
 o 
 
 H 
 
 z 
 
 XM MMXXMtil 
 
 a 
 
 . u u o 
 
 es.2.2 "^ 
 D,QQ S 
 
 i = = a 
 ass 
 
 O 
 
 ■o.i .. fe o 
 
 o ^-^-r'^ 5 o i o 0-3 > 
 :SgooocgSS S"3'3 
 
 'S-Si 
 
 o.g.O a'J-Ji 
 
 a^ E = c = g E 
 
 ="a 
 
 <M O 
 
 ?" 
 
 li- 
 sts 
 
 O as 
 
 la"- 
 
 
 !=a-§ jix-S 
 g" £-S.§3 
 
 
 mf^Oai 1020.0,0,0X0 
 
 cyacWMSSz 
 
 Q0f;'0,0.05 
 
 « OOW 
 
 O0eo050000",c0'-" 
 
 a. 
 
 c 
 o 
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 z 
 
 o 
 
 MMMM»«MK>< 
 
 
 ao„ 
 
 c — a 
 
 el rt 
 
 C o 
 
 o a 
 
 O-o'* .. 
 
 ilia 
 
 g B ■£ > fe lU 
 
 "go 
 
 J fl £? rt 
 
 ■0.2 
 
 -H-lOO 
 
 'a s „ ., 
 
 WKHH 
 
 ■^ 3 > X 
 
 EEaaaaaalas-. 
 
 fl §1=1-5 -s^^^l 
 ;k^^ p t p o.sp 
 
 C >- t- 
 
 •* rt <3 
 
 ca ca (a eo « ea c3 (3 ,rt cs 03 
 
 rarteacSffloSaj <i/r= 
 
 ^1^ 
 
 
 ^9^- 
 
 f- H O >- H CQ CQ 0*0: -p ^ 
 
 
 r-fcco^poeo'*<i 
 
WATER RESOURCES OF CALIFORNIA. 
 TABLE 6. 
 
 95 
 
 CO « t^tn 
 
 2 XMX y. >i K X X X >■ X XXMMKXMXMX 
 
 ea 
 
 ASh ^ X ^ X X X X ttXXXXXXXH 
 
 Q 
 
 r5x XX XXX XK XKXKXXXXXXXXMX 
 
 ■I : :f 
 
 .-3 o 
 
 Pi a_ 
 
 b c 5 o ° 
 
 - 3 c: c c 
 g-S rt O 03 
 
 
 
 
 
 
 
 
 
 
 
 ^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 cS 
 
 
 o 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 a" 
 
 
 s 
 
 
 
 
 
 
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 IV 
 
 
 
 
 
 
 rt 
 
 sJ, 
 
 
 
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 ■^ 
 
 3§ 
 
 K,ai 
 
 11 
 
 
 
 
 &■§ 
 
 es« 
 
 it 
 
 
 
 
 <3 c: 
 
 too: 
 
 c 
 
 c 
 c 
 
 ■^ 
 
 1 
 
 
 
 •a 
 
 
 o 
 c 
 
 ll 
 
 
 -&-"=;, 
 
 : tc c c = c S S S.^ c 2 
 
 -2 
 
 cS cS O O w SJ 0,_, = = ___:; t 
 
 M 5- 
 
 ;£3S'y;:£a; 
 
 
 O H 9 >; ^a ts: >; G'o: h^ ffl < < 
 
 
 XXXX XXXXXXXX X t 
 
 X X X X ; 
 
 : X XX 
 
 » 
 
 1 = 
 
 
 of 
 
 
 
 c c c = 
 
 ee c3 oJ c3 
 
 c .- " - 
 
 E '■ 
 
 CM C 
 
 6 6 6 6 6 6S S 
 c c =: c s 5 ii 
 
 g 9 e s a c.^ 
 
 1. & c £ 
 
 L C Q. i 
 
 ; £ £ £ 6 S „ 
 
 . C ^ ~ O C _- .>j 
 
 
 
 ■f ^ £ I 1 = 
 S rt i- u o__ 
 
 ■S 2t 3-3 c: (3 w M 
 
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 .:jOww^ou'- 
 
 u cj o o ^ ^ ea 
 
 (S sS (3 53 a «3>-J 
 
 
 ZSfc.c:fc.KCz:cjcacioeQ« 
 
 
 C 9 
 
96 
 
 WATEE RESOURCES OF CALIFORNIA. 
 TABLE 6. 
 
 
 
 z 
 
 < 
 
 (A 
 Ui 
 
 < 
 
 Q 
 
 a 
 
 H 
 
 !j 
 
 M 
 H 
 1/3 
 >^ 
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 z 
 
 o 
 
 H 
 < 
 
 s 
 
 o 
 
 a 
 
 u 
 
 H 
 
 O 
 w 
 
 9 z 
 
 z.o 
 
 < 
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 H 
 
 < 
 
 
 n.s 
 
 
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 oo&ii 
 
 S cQ S a:> u 
 
 ■= = a.=» fc 
 
 ,spaj § 3,3= = 
 
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 ills 
 
 
 
 R I 
 
 
 c o ^ H = 
 
 K (Ti yj c!:: c_ -^ o "3 o.a ^ 
 -, ,. - . '^ "^ "^ "^ -r? •tr' -^ '-" 
 
 o c o a^jsjn c 
 ■ 5.5.H 2 'I' Si5 
 
 hJi-]^ 
 
 DCOOOOOOOO 
 
 
 
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 SSSSSBSSSSSSSSS 
 
 
 n. ci. o, ft. n. a. R. 
 
 
 00 CO cc as 
 
 X K X X M 
 
 Z 
 
 o 
 
 c 
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 &S.a4 
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 CO K o.i 
 
 ■^ i_ 2 CQ- 
 
 „ o c c ■" 
 
 
 
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 5. a a 
 OQcS 
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 .£.2 "c 
 
 «.?. a 
 
 :.2 to-j 
 
 t^^*'' sa = 
 
 O =3 ea aj o 
 
 
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 c c c c n c £ 
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 ft. ft. n. ft. 
 
 
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WATER RESOURCES OF CALIFORNU. 
 TABLE 6. 
 
 97 
 
 s 
 
 S 
 
 s 
 
 ^ 
 
 KXXX XXX XX 
 
 X X K X X 
 
 z 
 
 .. .. 
 
 X M XXXXXM XXX 
 
 XXX XX 
 
 o 
 
 X >< X 
 
 XX X X XXX 
 
 X X 
 
 
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 Z ZZ2Z 
 
 - o o 
 £; c3 ea 
 
 o ".5 
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 is o- 
 
 S ■- 
 
 i; _t; _c. 2 JH ~ ^ ■ 
 
 eS e3 a a t;-S £ i 
 OOCOCCCC 
 
 
 DOC 
 
 5i\ 
 
 DOC 
 
 5i 
 
 so 
 
 ■a& 
 
 : P S 
 
 
 I- Olio to lO 
 
 ii aonao 
 
 7—20273 
 
 xxxx xxxx 
 
 ; X X X X X > 
 
 ■§§ 
 
 ■21 = s 
 
 C3 «K 
 
 
 QQ 
 
 S3 >..e 
 
 ■I 15.^' = - 
 
 aa 
 
 pj «9 a c^ c 
 
 ^.2.sd =.' 
 
 
 e3 S ID u a 1 
 
 ssss: 
 
 :,r;.2.£ oooc oooooococ 
 
 ;sssssss sssssssss 
 
 o o o 
 
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 -<»' r~ t^ »!• ^j- -.^ - 
 
 
 ;Sa><:-<!o 
 
 : S3 s*.£ . 
 
 w C as . 
 
 : c BiS^ 
 
 rt ca rt :J sS « " 
 
 
 c o 
 
 c « 
 
98 
 
 CO 
 
 u 
 
 H 
 Z 
 
 Q 
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 tt) 
 
 H 
 
 Z 
 
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 fy < 
 
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 8 z 
 |o 
 
 <: 
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 I 
 
 C 
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 T 
 
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 32 
 
 WATER RESOURCES OP CALIFORNIA. 
 TABLE 6. 
 
 a ! 
 
 Oxxxx XX XX X xxxxxxx 
 
 SSI" 
 
 gcOQ 
 
 £ 
 
 all's 
 
 gg-gcS-s-a 
 
 M 
 
 
 
 S S d 
 
 — ■■ ■■ ^ 
 
 o p o ' 
 
 c "c c 1 
 
 JS o 
 
 ao &^ c-s 
 
 .-.i o o o 3 
 
 o o 
 
 c c £ c Z 
 
 a ala.> s a a a 
 
 d ^ ^ c3 ^^ ^ (A d ^ 
 
 a a cj 
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 o o o~ = .2.2*H rt 
 
 3:S 
 
 CO CO OI' CO »!■ ' 
 
 9 fQ dS ^ ^ CI? : 
 
 mo 
 
 Pi. B. a, R. 
 
 H CO ffi iz; ffi cyccym o cyp <i ^ [i. 
 
 CO W M 
 
 PI, c;. B. a. 
 
 j:DDZSrao:r:ScycQ 
 
 X X X > 
 
 M K K Xf K M ! 
 
 XXMMMMXKXM9 
 
 a 
 
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 o-g 
 
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 ^ m rt rt o 
 
 &^ a a c^Q 
 
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 g 9-Sa 
 
 Sdc-S"- 
 
 art ^ ci cfl »5^ to c 
 
 fc J a a s_o 2 s 
 
 « « eS rt rt rt fl e 
 PhOhPhPhQhO-iP-iP 
 
 L. *j *J 3 O O £ ■ 
 
 5S n rt ?3 oj o o.; 
 
 L, &, a, fi, Ph CL, Ch c 
 
 , rt o t 
 
 u cx; ci; pi; t; 
 
 
 .-- a « 
 
 9 5^1 
 -o.aa-s 
 
 Pi 
 
 r- c c c c 3 «-'S'T3i^-= 
 
 ^ a a a a ac-.e s £ a 
 
 ■J- -J" -i" ■J' -i 
 
 Pi. fa. 
 
 oome-cQf-<q 
 
 
WATER RESOURCES OF CALIFORNIA. 
 TABLE 6. 
 
 99 
 
 Q 
 Z 
 
 < 
 
 03 
 
 s 
 
 
 
 
 
 
 
 
 
 
 
 
 i23 ; 
 
 
 
 
 
 (O ■ 
 
 
 
 
 sr- 1 ^^i»-H oo 
 
 w 
 u 
 
 H 
 Z 
 
 Q 
 u 
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 J 
 t/3 
 
 H 
 W 
 >H 
 
 Z 
 
 o 
 
 IS 
 
 u 3 
 
 9 z 
 a o 
 
 < 
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 H 
 
 vi v: X X x X X 
 
 O 
 
 a. 
 
 T3 
 
 C 
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 T 
 
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 DQ 
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 ago >."S.2 b 
 
 ■^ is Q, _ _ S- 
 
 L B- C 
 
 
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 2tr a « rt 
 
 
 
 ^^-C 
 
 lsll.-i^-= 
 
 ^j3.Si,5 nooooooooooooc 
 
 a 
 
 MMg 3 =J o 
 
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 T3.S 
 
 5 c„- 2 C:-^ 
 
 D. O c O. 
 
 a >>.2 a 
 
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 fe a t «3 
 
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 n'mnujrs^rn^j 
 
 D 3 3 
 
 :ii;33pD33 
 
 
 
 r- r— t— f 
 
 • X X X x 
 
 K M M X »< X 
 
 M X X X M X 
 
 
 O 3 rt rt t 
 
 c3 ci 
 
 
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 WATER RESOURCES OF CALIFORNIA. 
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WATER RESOURCES OF CALIFORNIA. 
 TABLE 7. 
 
 105 
 
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 WATER RESOURCES OP CALIFORNIA. 
 TABLE 7. 
 
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 WATER RESOURCES OF CALIFORNIA. 
 TABLE 7. 
 
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Water resources of California. 
 
 TABLE 7. 
 
 109 
 
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 TABLE 7. 
 
 T3 
 
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 TABLE 7. 
 
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 TABLE 7. 
 
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 WATER RESOURCES OF CALIFORNIA. 
 TABLE 7. 
 
 113 
 
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 WATER RESOURCES OF CALIFORNIA. 
 TABLE 7 
 
 Oil .to 
 
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 a h 
 
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 3 e) o 
 
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 Ezoocoo 
 
WATER RESOURCES OF CAUFORNIA. 
 TABLE 7. 
 
 115 
 
 G9 
 09 
 
 c 
 
 o 
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 Q 
 u 
 H 
 
 !3 
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 H 
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 > 
 
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116 
 
 WATER RESOURCES OF CALIFORNIA. 
 TABLE 7. 
 
WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
 Z Ift. 
 
 W3 10 ^ OC^ 
 
 «00<M 
 
 HOOOOOCRCCO 
 
 HOOCOOOOtDO 
 
 00 r- c*3 1>. c^i cc lO 
 
 HOO"Ot~-COC3iM 
 
 H 0^3I-:£>T^ - 
 
 O (M ^) ^ — If; -** 
 
 o a 
 
 O ■ c-^ ir4 T)- ;3 1— 
 
 — -lOT^ 00 ^; -H 
 
 O O lO 
 
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 <.!=1 
 
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 «- 3 
 
 a «:: a 
 
 .S" & ^ 
 
 ^ S 3 -3 
 
 « S: i 
 
 s s 
 
 < «< < < 
 
 117 
 
 ll 
 
 
 So 
 
 5a 
 
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 .- C3 
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 &" 
 
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 ^ a 
 
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 to gij 
 
 SIS 
 
 K 
 
 O H 
 
118 
 
 WATER KESOT'RCES OP CALIFORNIA. 
 TABLE 8. 
 
 
 
 ■ 
 
 
 
 
 
 t^oo 
 
 
 <NO 
 
 H 
 
 
 
 
 
 
 
 
 
 
 
 
 H 
 
 
 
 
 
 
 
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 t^ 00 CO CO 
 
 oic3 
 
 
 
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 CQ 
 
 
 Q 
 
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 H 
 
 
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WATER EESOUKCES OP CALIFORNU. 
 TABLE 8. 
 
 119 
 
 
 jj 
 
 ^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 roco t-cr. 
 
 
 S-i3 
 
 
 Q 
 
 CU 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ■^dd — 
 
 
 
 5Sl 
 
 o 
 
 ti 
 
 
 
 
 
 
 
 
 
 
 
 H 
 
 i^for-o 
 
 (NiOiO W 
 
 
 1 2 
 
 
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 ■ c 
 
 
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 HO 
 
 
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 CO to oi 
 
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 a eoS 
 
 
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 HO 
 
 
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 15" 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 c 
 
 
 
 to (N 
 
 2 
 
 
 
 
 
 
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 C^ 
 
 
 
 
 
 
 L. ^ • 
 
 tr. 
 
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 cu 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 ^ 
 
 
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 c 
 
 
 
 
 
 
 
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120 
 
 WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 U 
 H 
 
 1/3 
 
 >< 
 <fi 
 
 Cfl 
 
 D 
 O 
 
 2 
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 z 
 
 o 
 
 
 a; 
 
 < 
 
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 M 
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 1^ 
 
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 c 
 
 
 
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 "3 
 
 i i 
 
 - J! 
 
 a ** 
 
 1 
 
 
 0^ 
 
 
 
 
 
 
 
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 2.9 
 2.0 
 2.7 
 15,2 
 
 
 
 
 
 
 
 
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 CU 
 
 " 
 
 
 
 
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 O H 
 
 
 
 
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 N 
 
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 loe'OtooOi 
 
 
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 H 
 
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 lOOOOOt- »o 
 — -^ t- t- OO 
 
 
 H 
 
 O H 
 
 b 
 
 
 
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 H 
 
 H 
 
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 O-^ — -US— ; 
 
 
 H 
 
 O H 
 
 CO 
 
 
 a 
 
 a- 
 
 H 
 
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 ■^ O OiC-1 1^ 
 
 
 H 
 
 O H 
 00 
 
 
 s 
 
 Q-i 
 
 H 
 
 « 
 
 H 
 
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 H 
 
 O H 
 
 00 
 
 
 a. 
 
 cu 
 
 H 
 
 H 
 
 
 
 W 
 
 Cl 
 
 o 
 
 b 
 
 o 
 
 
 
 
 
 
 
 
 
 0^ 
 
 H 
 
 
 
 H 
 
 
 OO 
 
 
 
 
 
 
 
 
 
 
 1 
 
 a. 
 
 H 
 
 
 
 
 " 
 
 
 CI ■ 
 
 
 
 
 
 
 
 
 
 
 § 
 
 •-9 
 
 Q-i 
 
 H « • 
 
 
 
 
 
 b-^oo 
 
 
 
 
 
 
 
 
 o o 
 
 ° s 
 
 ■5 1 
 
 ■ S 
 
 .2 
 
 o 
 Qh 
 
 
 O o 
 
 »o OCO 
 Oi OO- 
 
 00 tooo 
 
 
 
 
 o 
 
 o 
 o 
 
 
 O 
 
 1 
 
 OO 
 
 OU3 
 
 com 
 
 c 
 
 o 
 
 Q-i 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 O O 
 
 O C) 
 
 
 
 
 
 o 
 
 b 
 
 o 
 
 
 O OCI 
 
 b b=o 
 o r-t^ 
 
 ^^ 
 
 Om 
 
 
 O 
 
 to 
 
 
 
 OO 
 
 §2 
 
 
 
 
 
 
 
 
 
 
 00 
 
 
 CVOT S ■ O^ 0«S 0;S ? 
 
 ^■O^t^ CO 00 OiOi Oi O500 
 ■31050505 Oi 0> 010> 05 0501 
 
 Loss of 
 
 di- 
 verted 
 water 
 tn con- 
 vey- 
 ance. 
 
 Ph 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 g c B 
 
 ss 
 
 •*• o -^ ^ -»■ 
 
 1 "" - - " 
 
 re 0:0 OOOOO O CI Of- tO OOCl 
 t^ OQO iO'J=OiOO ro ^ 0">J. CO 0(» 
 
 -H O^ OOOOi-H « « W5« CO — « 
 
 o 
 
 u 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 OO O — . O OO OiO lOOOOO O O (MO o oo 
 OO CJ 1— O OOO i^r^ l^CIO"t>»0 O O i—iO O OO 
 
 g OO ^ ro »o CO -r '* r^ CI r^ -J- CI CI -^ ■>»■ ^ i* ^_ 
 
 1 
 -a' 
 
 3 
 
 1 
 
 c 
 
 1 
 
 t 
 
 J 
 
 rt 
 
 3 
 
 & 
 
 rt 
 
 o 
 "^ "a 
 
 i = 
 
 s s 
 
 1 -^ 
 
 % 1 
 II 
 
 o 
 O 
 
 is 
 
 rt 
 rt 
 
 o 
 
 : (3 
 
 ■ 1 
 
 o 
 
 1 -13 
 
 a 
 
 1 Ss 
 
 5 
 
 6 
 
 a; 
 
 m 
 
 3 
 
 1 
 
 d 
 O 
 
 |. 
 
 -a . 
 S ■ 
 
 |g 
 
 3 1 
 ^ 1 S 
 
 S So 
 
 ^ i 1 
 1 II 
 
 1 1 1 
 
 6 Pi S 
 
 
 5I^ 
 
 
 Q 
 
 
 Q 
 
 9 ^ 
 
 w 
 
 
 H 
 
 Ci:^ 
 
 
 
 
 w 
 
 b 
 
 bn 
 
 
 b:. 
 
 fa 
 
 
 
 „ ■§ p> 
 
WATER RESOURCKS OP 
 TABLE 8. 
 
 CALIFORNIA. 
 
 121 
 
 i 
 
 II 
 
 c 
 c 
 
 1 
 
 CU 
 
 
 lO aD ro «o ws o 00 c^ 
 O-hO-hcO-^O"* 
 
 
 
 
 
 
 
 
 
 
 
 
 
 = 
 
 -"CO-^OOO 
 CMdd^iO 
 
 
 o 
 
 C^ 
 
 
 Oi ^ O) 00 W5 ^ t^ t^ 
 CO W5 CO ^H to to ^ Ti" 
 
 
 
 
 -: 
 
 
 00 
 CO 
 
 "* - 
 
 
 ddd-a-dd 
 
 o 
 
 PL, 
 
 o oinoi^ooow-i- 
 d « CM CO — ' d ss c^i cq 
 
 
 
 =- 
 
 ■fJ-tO 
 
 c^d 
 
 CD 
 
 OO -if m CO CO ^H :o 
 
 us — -HO5C5C0O3 
 
 c. w 
 
 CO 00 QO 00 ^ CM ■<»■ -f CO 
 d O-S-t^OCMOOCCO 
 
 
 
 CO-- 
 
 dd 
 
 C^l 
 
 00 CI c-j oi 00 ai o 
 
 d cocoodod 
 
 3 
 < 
 
 oi 
 
 CO CO -V ca CM CO OO lO t^ 
 
 d t-^j^co-^r^»odd 
 
 
 
 OiO 
 
 >od 
 
 dd 
 
 d 
 
 OO ,- OO — I^ "«■ -H 
 
 lO QO^"!M001W5 
 
 3 
 
 
 OO ocoot^catocoio 
 
 to CO O CM OO CO to t^ l^ 
 
 —I ^^ en CM — — — — -H 
 
 
 
 »CM 
 
 —■CM 
 
 CO 
 
 QO t- 1^ O -O -f » 
 
 »o ^ ';2 2 22 ^ " 
 
 1 
 
 
 OO cooocoooc-it^to 
 d rit-icdcod^-r 
 
 
 
 03«0 
 
 Tt-CO 
 
 dt^ 
 
 d 
 
 OO ■^■^ — r-co w> 
 
 t^ d lo lO -o O O 
 
 
 c3 coiO=-i-j;d^ — C» 
 
 
 
 co»0 
 
 or- 
 
 CM 
 
 O CO^-^ cOCOCi 
 
 d ddd-t-cc d 
 
 
 fl.' 
 
 
 ■^CiC^IOCMt^iMCO 
 
 -cicM-^dcodtj-CM 
 
 
 
 CO 
 
 CO 
 
 
 
 
 
 
 
 
 « r- --0 CI -^ o 
 
 CO to X! — I-- (M 
 
 ^ 
 
 s 
 
 4^ 
 
 
 ■^c»ooco«»oot- 
 oooooo— o 
 
 
 
 
 
 
 
 
 
 
 
 
 COCO f- — ' cOiO 
 
 ddoo— o 
 
 1 
 
 
 
 to CO 
 
 do 
 
 d d CM d CM 
 
 
 
 
 
 
 
 
 
 
 
 
 
 CO — CO «0 CO 
 
 "-a 
 
 ai 
 
 
 CiCO 
 "*0 
 
 CM -H-HCOW2 
 
 OO"0"r: " 
 
 
 
 
 
 
 
 
 
 
 
 
 CM CO Ol 00 CM — 
 OOO-S'CM.C 
 
 ll 
 
 11 
 
 d 
 
 is 
 
 
 
 
 
 
 
 
 o ■ 
 
 - 
 
 
 
 
 
 
 
 
 
 o 
 
 
 
 
 
 
 
 c 
 
 o 
 
 fU 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ii 
 
 o 
 
 o 
 
 s 
 
 
 
 
 
 o ■ 
 
 CO OO o 
 
 g 11 E; 
 
 c» o 
 t^ d 
 
 o 
 
 1 
 
 coo 
 oooo 
 
 
 
 
 
 
 1 a 
 
 <3 
 
 Ch 
 
 
 
 
 
 
 
 
 
 
 
 o 
 eo 
 
 ^ o 
 
 S3 § 
 
 
 
 t-o 
 
 od 
 
 
 
 
 
 
 ^ 
 
 
 ocot-ooroo 
 
 Loss of 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 Oh 
 
 
 
 
 
 
 
 
 
 
 
 o 
 
 
 
 
 
 
 
 i-O 
 
 
 
 
 
 J. = 3 
 
 2 
 
 O OO O-J-I^OOO — O— 00 
 
 *j O c3 05 ^ m -*■ Oi c; 3s — ts 
 
 o 
 
 
 TT 00 
 
 O 
 
 CO 
 
 CMCM dooooo 
 
 i 
 
 
 
 
 
 
 
 
 
 
 a 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 rt 1 T3 
 
 fzs 
 
 t, OCO CO 
 
 o m 
 
 CO CO 
 
 OO 
 CO 
 
 .gg gggggg 
 
 a 
 
 o 
 
 6 
 O 
 
 3 I 
 
 .2 » 
 
 3 ^ 
 
 ; 1 g 
 
 '1 ^ 
 
 ? 3 ■ s 
 i 1 ; 
 
 1 
 "i 
 
 I 
 
 c 
 
 c 
 
 if 
 
 c 
 
 \ 
 
 i 
 
 V 
 
 C 
 
 J 
 
 .1 
 J 
 
 i 
 
 1 "-^ 
 
 1 
 
 III 
 
 
 1 
 
 - C 
 
 3 L 
 
 
 
 
 
 
 ; 
 
 - 
 
 
 = 
 
 
 
 a 
 
 
 
 2 
 
 
 
 = 
 
 
 
 
 
 
 
 2d 
 .gfc 
 
 Cm 
 = s 
 m a 
 
 |a 
 
 .t^ o 
 0£ 
 
 [2 > 
 So 
 
 3 ° 
 
 (So 
 
 §0 
 
 O u 
 
 
 3a 
 I a 
 
 5°^ 
 
122 
 
 WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
 UJ 
 H 
 
 w 
 
 D 
 O 
 
 2 
 > 
 
 z 
 
 o 
 
 I/) 
 
 < 
 
 OS 
 
 H 
 O 
 
 •o 
 
 I 
 
 U 
 
 G 
 o 
 U 
 
 
 3 
 
 ° 1 
 
 a. 
 
 c 
 
 Q 
 
 &- 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 oot>^ i 
 
 
 
 > 
 
 eu : 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 eoooo 
 
 QOtOfO 
 
 
 o 
 
 eu ' 
 
 H 
 
 
 
 CO 
 CO 
 
 H H CO 
 
 CO 
 
 H 
 
 
 CO 
 
 OJ - 
 
 H c^oot^ 
 
 
 Ct. 
 
 
 N 
 
 
 
 to 
 to 
 
 H H to 
 
 CO 
 
 H 
 
 
 ^ ; 
 
 01 1^0 
 
 
 < 
 
 a. 
 
 H 
 
 
 
 CO 
 
 2 
 
 H 
 
 
 
 
 H lOOOO 
 
 
 *~9 
 
 0^ 
 
 H 
 
 
 
 00 
 
 1:0 
 
 WHO 
 
 to 
 
 H 
 
 
 
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 S« W5--OtO 
 
 
 a 
 
 4 
 
 Q-i 
 
 H 
 
 
 
 00 
 CD 
 
 
 CI 
 
 H 
 
 
 to 
 CO 
 
 H lO — CC 
 
 cD-r m 
 
 
 ^ 
 s 
 
 0- 
 
 H 
 
 
 
 CO 
 
 CO 
 
 
 H 
 
 
 
 H tfSOO 
 
 co--Dr^ 
 
 
 a, 
 -t1 
 
 ai 
 
 
 
 
 
 
 ■--. H 
 
 
 
 
 
 
 
 
 
 oil-- CO 
 
 
 IS 
 
 p- 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 J3 
 
 o-i 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 cOiO 
 
 CO-H 
 
 
 c 
 
 •-5 
 
 CL 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 CD 01 00 
 
 (Ncoeo 
 
 
 ll 
 
 g I 
 
 .2 
 
 ^ 
 
 i 
 
 0^ 
 
 
 o 
 o 
 
 o 
 
 d 
 
 o 
 
 
 
 
 
 
 
 
 
 
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 CO CO 
 
 CO 
 
 to 
 
 oo 
 
 CO 
 
 
 
 
 
 
 G 
 
 'a 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 o 
 
 « o 
 o 
 
 o o 
 
 
 ro 
 
 s 
 
 
 
 
 
 
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 CO 
 
 
 
 
 
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 -<3 
 
 Oh 
 
 
 
 
 
 
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 »0 CO 
 
 t^ 
 
 
 
 
 
 
 
 
 Year. 
 
 co o- 
 
 CI en 
 
 Oi 00 OS 03 CSOO 0100 00 PO 00 CI —.C^CCOO 
 CS CI CS OiO^ Oi 0> Oi Ci 01 CJ Oi Ci Ci Oi 
 
 Loss of 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 = ^"2 
 
 c „ c 
 c s <=> 
 < 
 
 
 *; o lo o u^ lo ci 
 
 CO 000 00 
 <M 0> 00 CD IM 
 
 .-i -^ CI = '^^ — ■ 
 
 (M CO CI 'O 00 
 
 t- -0 --D .0 CO 
 
 — OO-t 
 
 5 
 
 1 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 lO C3 00 
 
 " g s s gs ss s 
 
 CI 
 
 (M to 
 
 d 
 
 OOUO 
 
 § 
 
 c 
 
 c 
 
 1 1 
 
 i 
 
 \ * 
 
 _3 
 
 : s 
 
 i 1 
 
 1 
 
 •^ J 
 i 
 
 ; i 
 
 3 
 5 = 
 
 1 ^ 
 e 
 
 W 
 
 a _; 
 : 6 
 
 J — 
 
 3 
 
 - a 
 
 : 1 
 
 1 : 
 
 J 3 
 
 M 
 
 \ i 
 
 ;: 1 
 
 • 1 J 
 
 i s- J 
 
 ! ^ 
 C 
 
 5 C 
 
 1 ^ 
 
 ! 1 
 ;; 1 
 
 3 s 
 
 -- 
 
 3 
 
 . 3 
 
 ■* c 
 
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 ? a 
 
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 £1 
 
 ! i 
 
 e 
 
 3 a. 
 
 1 
 
 I 
 
 5 
 
 c 
 
 ' <_ 
 
 c 
 
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 I 
 
 : 
 
 Ill 
 
 
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 ^ 
 
 
 ffi 
 
 S 
 
 1 a 
 
 :: 3 
 
 i 3 
 
 : ti 
 
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 3 
 
 
 
 - 
 
 
 
 
 
 
 
 
 
 IS 3! 
 
WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
 123 
 
 o 
 
 3 
 « 3 
 
 — •! 
 
 o a 
 
 a 
 
 
 p.ct. 
 8.8 
 1,4 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 OO 
 OO 
 
 
 
 
 
 
 
 
 
 
 
 
 
 d 
 
 
 t^ 
 
 
 -.o 
 
 o -*_ - 
 
 — 1 »n - 
 
 
 
 
 to 
 to 
 
 !0 - 
 
 to 
 
 CO 
 
 
 
 a. 
 
 
 e= 
 
 
 to 
 
 CO mi 
 
 
 
 
 to 
 to 
 
 !D ■ 
 
 to • 
 
 to 
 to 
 
 
 
 <1 
 
 u3 M OO 
 
 a-" '^ "■ 
 
 
 
 - 
 
 C2 "* 
 
 
 
 
 00 
 
 to 
 
 to 
 
 to 
 
 to 
 to 
 
 
 
 >> 
 
 3 
 
 
 
 
 to 
 
 C-3 40 
 
 
 
 
 00 
 
 to 
 
 OO ■ 
 
 to - 
 
 OO 
 
 to 
 
 
 
 S 
 
 3 
 
 
 OO 
 
 
 OO 
 
 O CM 
 
 
 
 
 to 
 to 
 
 OO - 
 
 to 
 
 OO 
 
 to 
 
 
 
 1 
 
 1? 2:n 
 
 00-3 
 
 OO 
 
 -.D 
 
 OO c^ 
 
 00 OS 
 
 
 
 -«; to 
 to 
 
 CO 
 
 to 
 
 to 
 
 CD 
 
 -« 
 
 < 
 
 e^ (N -;< -jd 
 
 
 
 
 
 to 
 
 
 
 
 
 
 
 
 
 
 
 
 
 rt 
 
 s 
 
 
 
 
 
 
 :; 
 
 
 
 
 
 
 
 
 
 
 
 
 
 J3 
 
 
 
 
 
 
 o 
 
 CO 
 
 
 
 
 
 
 
 
 
 
 
 
 
 -r, 
 
 
 
 
 
 
 o 
 
 CO 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ll 
 
 O o 
 
 ^"1 
 
 i 
 
 ^ 
 
 
 
 O 
 
 o 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 fti 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 OOO 
 
 ^ §i§ 
 
 cDco coo 
 
 O OO O OO OO OO o 
 
 2 §i 2 is 22 22 2 
 
 o 
 
 g 
 
 1 ^ 
 
 c^ 
 
 O OCM CO 
 
 o o CI cc 
 
 
 
 
 
 
 
 
 
 
 
 
 s 
 
 
 2 §2 2 
 
 3i 352 2 
 
 §2 §^ 2 ^2 g2 g2 §22 
 
 31 CS C^ CO ^ CO ri 013: Oi Oi 03 Ci CO 
 
 Loss of 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 Ph 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 111 
 
 S C c 
 
 z 
 
 1 : 
 
 C3 OO -T-— OO If 
 
 ?i cs?: <r:o i-o <>■ 
 « o=> '^■l-H OC-) - 
 
 _ to ot— o^o (::^— . rrt--^ 
 ■-a- CO lO'-o OO— ^-t— *f'0 0o 
 
 _4 — CM-H —CI CICJ — — — 1 
 
 " 
 
 oooos 
 
 fc — — — 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 < 
 
 Oi OO — Ci CiOOl C-IO O 
 
 O O.O OO OOO 
 O OOO C2 O OOO 
 
 ci_ CI— co^ O_eoco 
 
 1 
 
 6 
 ■ U 
 
 i 
 
 ; ■§ 
 
 O 
 
 3 1 
 
 1 1 
 
 1 1^ 
 
 ^ d 
 
 5 1 i 
 
 ^ £ ? 
 
 : ^ 1 1 
 
 ' 1 1 i 
 
 ? c 
 
 5 j 
 
 1 i 
 
 3 'Z 
 1 g 
 
 ' d 
 
 g f 
 J ■§ if 
 
 ' .§ 5 
 
 J O t? 
 
 J 
 
 i 
 "t 
 
 '■ 6 i 
 
 I I i 
 
 i 1 1 
 
 : 5 1 
 
 : c c 
 
 ; i >^ 
 
 5 s J 
 
 Section 
 and key 
 Inttnr. 
 
 
 2 
 
 ^ 
 
 ~ 
 
 ii 
 
 
 I. 
 
 i ^ 
 
 
 u 
 
 -_ 
 
 
 - 
 
 
 ~ 
 
 
 
 3 
 
 
 
 •c-2 
 
 
 dp 
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 n 
 
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 «.|3 
 
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 03^ 
 
 g a o 
 
 > .. s 
 
 .s.sa 
 
 "S3 
 .«o i 
 
 PQ 00 
 
 as . 
 
 
124 
 
 WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
 U 
 H 
 en 
 
 >^ 
 
 CO 
 
 to 
 O 
 
 > 
 Z 
 
 o 
 
 Q 
 
 
 on 
 Oi 
 
 M 
 H 
 
 CO 
 
 D 
 
 •o 
 
 (U 
 
 3 
 C 
 *^ 
 fi 
 
 o 
 O 
 
 
 XI O 
 
 11 
 1 
 
 Q 
 
 oj 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 o " 
 
 z 0. 
 
 
 
 
 
 
 
 
 
 
 
 H 
 
 
 
 
 
 
 
 
 
 
 
 
 
 o 
 
 a- 
 
 o 
 
 
 
 
 
 
 
 
 «0 H 
 
 
 
 
 
 
 
 
 O I^ 
 to CO 
 
 
 
 a. 
 
 fri 
 
 o 
 
 
 
 
 
 
 
 
 to H 
 
 CO 
 
 
 
 
 
 
 
 
 to r- 
 
 CD to 
 
 
 
 
 o 
 
 
 
 
 
 
 
 
 to H 
 
 to 
 
 
 
 
 
 
 
 
 to r- 
 
 
 
 >1 
 
 3 
 
 ■-9 
 
 p-i 
 
 o 
 
 
 
 
 
 
 
 
 00 H 
 
 
 
 
 
 
 
 
 oo Ti- 
 to t-- 
 
 
 
 C 
 3 
 •-> 
 
 O-i 
 
 o 
 
 12 
 
 
 
 
 
 
 
 
 00 H 
 CO 
 
 
 
 
 
 
 
 
 oo -^ 
 to r^ 
 
 
 
 >> 
 
 Cl^ 
 
 ^ 
 
 
 
 
 
 
 
 
 CO H 
 
 CO 
 
 
 
 
 
 
 
 
 to l^ 
 
 
 
 D^ 
 
 o 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 Cu 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 CL. 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 Ph 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 c: 
 
 'i 
 
 c^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 £3 
 
 oo ooooo ooooo oooo o 
 
 O »CO OCSOOO ooooo 0C500 o 
 Gil— ooooo ooooo oooo O 
 
 
 
 o oo o 
 
 § 11 1 
 
 _i_^ 
 
 -*;^ 
 
 a. 
 
 o 
 o 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ooo 
 
 III 
 
 
 
 
 
 
 22 g^gg^ gsggs g£gS ssss 
 
 
 Loss of 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 &- 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 — a. c 
 
 
 oo <roo;or-?<o — r^co^o— * cn-:f"-^GO csooo O cso Ci 
 *J oooo r^— .t-t~-^ i~aocoooco CCr»-iO^ ooro-^-r o ooo r- 
 
 u oo O— -oo— • OOOO-^ oooo O-ri-^Cl Tf O -H O 
 
 CD 
 
 ts 
 
 
 
 
 
 
 
 
 
 
 
 i- 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 W OtO OOOOOO ^OO'XiiOrO iO»OWS»« c-^J'l — CI uji.5 O 
 
 < 
 
 a 
 
 1 
 
 c 
 c 
 
 3 
 
 i 
 
 c 
 c 
 
 1 
 
 c 
 
 2 
 
 1 
 
 B 
 
 a 
 
 • 1 
 
 I 
 
 i 
 
 c 
 t 
 
 c 
 c 
 
 p: 
 
 f 
 
 3 
 i 
 
 1 
 
 c 
 
 c 
 
 
 111 
 
 
 ^ 
 
 
 s 
 
 
 
 
 
 p 
 
 
 
 
 
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 ^ 
 
 
 
 
 ^ 
 
 )2 
 
 
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 S-Hs 
 
u 
 
 H 
 
 > 
 
 1/3 
 10 
 
 O 
 
 < 
 
 > 
 
 z 
 
 o 
 
 < 
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 < 
 
 OS 
 U 
 H 
 
 b 
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 u 
 
 3 
 C 
 
 c 
 o 
 
 y. 
 
 1 
 
 oa 
 
 < 
 
 WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 125 
 
 
 z !t; 
 
 ■o r^ — 
 
 e! o —cj :s 
 
 «3 => p:'^'^ 
 
 3 =! '- 
 
 s i; 
 
 h QC»a 
 
 
 
 
 oc o o 
 
 5 c S 
 
 
 
 >> . - 
 
 :f £« 
 
 •g.>a 
 
 
 ^23 
 
 
 
 — — ^ oo -^ 
 
 -^ « o — 
 
 o ^ — — 
 
 
 
 O d — -s 
 
 s s. 
 
 ^ z. 
 
 ^ t i 
 
 1*1^ 
 
 o 
 
 « 2 *^ 
 
 "c == 5 
 
 « 31 w' 
 
 Z Z 2 Z 
 
 S _ as 
 
 lill 
 
 <-s-s s 
 
 Sill 
 
 c— a % 
 
 5 - = o 
 
 S * M ^ 
 
 ll-il 
 lis 
 
126 
 
 WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
 <fi 
 lA 
 
 D 
 O 
 
 5 
 > 
 
 z 
 
 o 
 
 < 
 
 a; 
 
 O 
 u 
 
 3 
 C 
 u 
 C 
 
 o 
 U 
 
 I 
 
 00 
 
 U 
 
 J 
 
 1 
 
 
 
 H 
 
 
 
 
 
 
 
 o 
 
 
 H 
 
 
 _ 
 
 ClOi 
 
 
 
 tOMO 
 
 1 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 3) 
 
 
 
 
 
 
 
 
 O 
 
 a. 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 H 
 
 
 
 oor^ 
 
 
 H 
 
 
 
 lOtOC) 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 o 
 
 
 
 fT 
 
 
 
 
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 r~ -J ira c: » Ci lo O ■ 
 
 00 (Dl^ 
 
 
 
 ^ 
 
 0. 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 CJCO<M 
 
 
 
 
 
 dOOOO 
 
 
 
 
 0-. 
 
 
 '"' 
 
 
 
 
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 '"' 
 
 
 
 
 H 
 
 1^ 
 
 H 
 
 o 
 
 ot--o 
 
 H 
 
 H 
 
 H 
 
 
 rooio 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 J;^ 
 
 
 CO 
 
 <N !0-»< 
 
 
 
 
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 n^2 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 CO 
 
 H 
 
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 H 
 
 H 
 
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 toeoio 
 
 
 
 Z3 
 
 
 
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 ■OSO-H-H-HO-HCOlft 
 
 
 
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WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 
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 re r- 'S" 00 o - 
 
 
 ^aocftOi»oi--oooaicsosos»oi-- 
 
 
 
 
 
 
 
 
 0:Oir3C^>;iMCi^l-^OC3'*"-^*1*C'JroC'J'MClC-IQO»0(Mf^;(MCJCSWQO 
 
 
 
 —t CI o^s 
 
 OOCC o 
 
 lO t^ :o - — — re 
 
 is-H»or-.»0^»'00>J303ici^x;d;ooo 
 
 
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 — ■Tf'ocrex>moo»o 
 
 OO - 0O!£> 
 
 coo 
 
 
 
 t^OC C30 — c^ 
 
 ce'^»'3cor^QOOO-^c^ee'*»oaocso-^C')re-j-oor' 
 
 = OwOOOO-— — — — — — oo«— — ■ — — •^— ■- 
 
 -=-^-^-:--ia-a-«-T3-T3-a~ 
 
 o o oo o o o 
 tei in ui ka tti la in 
 
 INCOMCCNNM 
 
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 -000000031— ■ 
 
 -ooa5^caoi^ir3 — 
 
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 127 
 
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 -^ « C 
 
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128 
 
 WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 
 
 oo to 
 
 00 lO 
 
 lO W3 
 
 — ^ w 
 
 O OO «0 CD Tj< tJ« 
 M to « CO -^ CO 
 
 Ol U3 ^ O CO CC 
 
 Ol CO CJ O CO o> 
 CO ^ CO O — o 
 
 c^ ^ c^i rococB 
 ^ Tj" CO ca ci W 
 
 CO r- O -^Oi » 
 
 *f -f CO CT — C^ 
 
 OO lO J^ OO ■* ""T 
 CO CO CnI 05 •—• C'l 
 
 lO CO t^ Oi T 
 C-1 lO (M O - 
 
 M- O O 00 — ■ 00 
 
 ira o (M o o CI 
 
 Oi O CM 
 •*»OCO 
 
 OCOO 
 W3 ffl C) 
 
 o to o 
 
 OOO o 
 
 OCM o 
 r^ M —• 
 
 O "O o 
 CM —00 
 
 Oco 
 
 CO CO 
 
 OCO o 
 C0 50 to 
 
 
 OO 
 
 00 
 
 00 
 
 Oi C5 C5 Oi CTj CI CT) 
 
 <MQO 
 
 
 OO 
 
 OO 
 
 CMCooo 
 
 oi a> oi 
 
 1.3 o >,t 
 
 ; g S 5^ = 
 
 CO"? 
 
 oocc oooo 
 
 
 
 I ^ ^ 
 
 5 
 
 gS g o I 
 
 CO M CO W3 
 
 £gai 
 
 g 
 
 "o.Sf cji 
 
 
 
 ls« 
 
 3 
 
 S.ajj 
 
 §E^^ 
 
 ca 
 
 g3^ 
 
 -a 
 
 «..£ 
 
 f'r 
 
 ■^g 
 
 
WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 3 
 
 >. * 
 
 § 1 
 
 s 
 a 
 
 Cu 
 
 
 
 
 ■* 
 ■^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 > 
 
 o 
 Z 
 
 fh 
 
 
 
 
 to 
 I>1 
 
 
 
 
 
 
 
 
 
 
 
 
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 1 
 
 
 
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 Oi 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 1^ 
 
 
 
 
 
 
 
 
 
 
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 d 
 
 
 
 
 
 
 
 
 
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 — !oo 
 
 
 
 
 
 d 
 
 
 
 
 
 
 
 
 
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 »« 
 
 ">*< 
 
 
 
 
 
 
 
 
 
 3 
 
 
 
 o 
 
 
 
 
 
 SS3 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 s 
 
 
 
 QO 
 
 
 
 
 
 •od 
 
 
 
 
 
 40 
 
 oo 
 
 
 
 
 
 
 
 
 
 
 Oh 
 
 
 
 
 •n 
 
 
 
 
 
 
 M 
 
 M 
 
 
 
 
 
 US 
 
 
 
 
 
 
 
 
 
 e9 
 
 o; 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 j6 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 "^ 
 
 
 
 
 
 
 
 
 
 
 
 -3 
 
 cu 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 m t— o o »o o 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ■g 
 
 a 
 
 CL," 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 88 
 
 00 ec 
 
 ^ OT 00 
 
 
 in 
 
 oo 
 
 oo 
 
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 O — 1— 1 o , o 
 
 
 
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 1 
 
 
 
 
 
 
 
 
 
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 -<3 
 
 CU 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 1^ 
 
 oo CO cof-oooi »o«=toao oooi os ao tot^QOOs eo -a- m ^ f;~ oo ro o 
 
 Loss of 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 P-i 
 
 
 
 
 
 
 
 
 
 a^oo 
 
 Sis 
 
 
 
 
 
 
 
 
 
 
 
 
 .Annual use 
 in depth 
 on land. 
 
 1 
 
 -fci <M lO OO — -M I^ CO "O 
 
 1 C^ ^ d-H-ci dd 
 
 oo oi— ^ eo ^eOOOO to CO <3a lO r— m c^ c-a 
 
 to CO CO •-; O <5>CT>C-»0> Oirac^uOiOiOcDO 
 d oo "^ — < — — M— c>, ^_ — — . — -H(M 
 
 5 
 
 1 
 
 
 
 
 
 
 
 
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 CO 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 Area 
 irri- 
 gated. 
 
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 < 
 
 
 
 O <0 to 03 CO -t" lO 00 to 
 00 «3 to «D CO G» O 00 Oi 
 
 I 
 
 c 
 
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 'i 
 
 1- 
 
 & 
 
 c 
 
 c 
 
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 e 
 
 s 
 
 c 
 
 c 
 
 c 
 
 J 
 J 
 
 c 
 £ 
 
 r 
 
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 i 
 
 c 
 
 i 
 
 6 
 
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 fc 
 rt 
 
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 w 
 
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 c 
 
 & 
 
 ; b 
 
 5 _c 
 s 'c 
 
 c 
 
 p: 
 
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 6 
 
 % 
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 c^ 
 
 
 
 
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 pa 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 129 
 
 S3>. 
 
 
 
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 Sag 
 
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 a-as 
 
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 « 
 
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 cr. .g g 3 
 
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130 
 
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 D 
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 3 
 C 
 
 C 
 
 
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 M 
 
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 WATER RESOURCES OP CALIPORNU. 
 TABLE 8. 
 
 o c 
 
 s s 
 
 
 
 
 ■ ■* CO O to 00 CM ^ 
 
 ■ CO -^ W5 >0 <M « C 
 
 ■-*OOtJ<iO'-K3>cDI- 
 
 lo; 
 
 
 ■co-^ioior-oocsc-i 
 
 ■'S'coooto-S'oeooco 
 
 -OOOOiCOtOCOOOO 
 
 -OCMOOOO— IN 
 
 lO M CM lO eo 
 
 00<-4«0^00 
 
 ■0-* 
 
 OOOlCOCMiO 
 C-1 Tj" OO O "^ 
 
 C5 
 
 •^3 
 
 to CC CM O Oi CT> 
 
 CO CO CO eo -^ c>i 
 
 lO ^H CM lOt^ to 
 
 =3C3 OC3 O 
 
 Oa Cb C3j Ca Cb 
 
 
 «o^-oo 03 c 
 
 oooo- -..- — 
 
 
 .2^S 
 
 
 o o ««— ■ 
 
 ■JOOiOOCOiO'- 
 
 . t-ooooo 
 
 -C)I— ^-OOOS-HiOOOOOO 
 5 CO so r- iD0q^0s_i0_«3OOOO 
 
 lo lO lo lo'fo ^oeD r-^ 
 
 ooo o o 
 
 o ooo o 
 
 to »0 wo lO 
 
 - 5100 ^ CMCIC^O* 
 
 H^CMCMCM i-T coccmcc 
 
 o 
 
 a 
 
 S 6 
 
 .•§■2 g 
 
 tasS 
 
WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
 131 
 
 u 
 
 H 
 >- 
 
 C/5 
 
 D 
 O 
 
 < 
 > 
 
 z 
 
 o 
 
 
 < 
 
 u 
 
 H 
 
 < 
 
 O 
 u 
 
 3 
 C 
 
 c 
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 u 
 
 T 
 
 00 
 
 U 
 
 .J 
 
 3 
 D 3 
 
 J 1 
 1 
 
 s 
 
 ^. -J. 00 
 
 "-ft- — 
 
 i-:o-* 
 — dro 
 
 
 
 
 10 
 
 001 »o 
 
 = 
 
 ^5C^ 10 oc M 10 
 
 M « t- 
 
 
 
 
 
 > 
 
 2 
 
 ^ TJ- 3C O) r^ -3" -^ 
 
 
 
 CsOCMt-OiaO<NC» — iM— ■ 
 
 ec r^ oi ■^i- -j^ ■*?• 00 ai cs t- t^ ■ 
 
 
 
 
 1 
 
 — := — r, OCSOOOJ 
 C- — — 
 
 
 
 ai— « :OiO"5 I— re » OC ■ 
 
 00 oooo^^-'^^DCOCl ■ 
 
 
 
 
 a. 
 
 ^ — ro — t-cviw3-roo 
 
 Q-i — — — — — — — 
 
 
 
 ■w^;cO"Wi.'5T?re--»i--f-^ir^ '■ 
 
 
 
 
 3 
 
 ^ •?■ I- Tj. — ^ (N t- 
 
 Cl, — — — — ■-. 
 
 
 
 lOOt-MOOOlC^I — — T-C-j ■ 
 
 31212 — 2'^ — — — ?— " 
 
 
 
 
 3 
 ■-5 
 
 
 
 
 rj'c^tcrocoicrC'S'io^'i" 
 
 
 
 
 C 
 3 
 
 •-3 
 
 _^ t^ u3 — r- 00 ao =0 1^ 
 
 
 
 -J- ce 10 (M lO 00 -r t-1 -^ t— c<: ■ 
 
 
 
 
 s 
 
 C-i """ '^ — — — 
 
 
 
 ■-ti « --a^ to -s* c^ w ee ^^ — ■ 
 
 
 
 
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 c^ n ^ii r— -^ »o c^ 
 w 00 r^ cs r- «:> Ti" -ji — 
 
 
 
 CH-.OOtOCMtO-OCM'-J'CC ■ 
 
 t~^cidt-t-tDrc"<t'MO— ■ 
 
 
 
 
 
 _^ cr: r- 00 e« ■^ !S cs 10 
 ^ OooTt-rosoOOO 
 
 
 
 o-ra:-^ — t-c^!£5 — CO ■ 
 ^roro- c>JO — 00 ■ 
 
 
 
 
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 !M :o re »C cc CO c^ 
 
 tJ Qoorc — -v- — eg 
 
 
 
 — oiaodooo — oes • 
 
 
 
 
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 3 j ii I-- PC cq -^ •«■ w — 1 
 
 
 
 M 10 lO lo -j> ^ 00 00 to M "- - 
 00 dc^dooo-tf-oro • 
 
 
 
 
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 1° 
 
 = s 
 
 II 
 
 c 
 
 is ch 
 
 B5 
 
 00 
 
 
 
 
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 CO 
 
 
 
 
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 ■5 
 
 
 
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 t 
 
 
 
 
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 ^^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 % 
 
 
 
 Loss of 
 
 di- 
 verted 
 water 
 in con- 
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 ance 
 
 
 
 
 
 
 — M —< 
 
 
 
 
 
 
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 ^ 
 
 .^- ^3ooSt-t212f:^ - CfJ — OCSQCCDOOOO — — ■* •« 10 to 
 
 000000000 - — — — — 0000 — — — — — — -^ 
 
 
 
 t^ 
 
 
 
 
 
 
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 "-S2 : 
 
 
 
 
 
 
 
 
 
 
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 ^ 
 
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 tag 
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 ^ * *^ 
 
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132 
 
 WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 M 
 H 
 ifi 
 
 >* 
 
 O 
 
 a; 
 
 > 
 
 z 
 
 o 
 
 <: 
 
 <; 
 
 u 
 H 
 
 O 
 
 u 
 
 D 
 
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 ■S "° 
 
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 oo 
 
 
 
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 a. 
 
 
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 oo 
 
 
 
 
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 obco 
 
 
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 - 2 
 
 
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 CD-* 
 
 
 
 
 oo 
 oJoo 
 
 
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 oo 
 
 
 
 
 
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 00 -J" 
 
 
 
 
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 o^ 
 
 
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 oo 
 
 
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 o^ 
 
 
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 oo 
 
 
 
 
 
 
 
 oo 
 — o 
 
 
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 ^ a- 
 
 
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 oioo 
 
 
 
 
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 00 oo 
 
 
 
 
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 00 
 
 
 
 
 
 
 
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 bo 
 
 
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 o 
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 TI.O 
 
 
 
 
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 oo 
 
 
 
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 it 
 
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 to 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 Loss of 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 oi 
 
 CO ;q lO 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 c = o 
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 — I r-lCO 
 
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 33 
 
 CO CM 
 
 
 
 
 
 
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 ooooooooooooo ooooooo 
 o_ o o^ o o o »o o o o — _ o o_ to_ =o -»■_ » o_^ o_ o_ 
 lo 00 oo'cc'oo'oo (-"odoo'ooooaTo -i"'tn'i— "ar-jT-TOO 
 
 1 
 
 CO 
 
 3 
 
 i 
 
 > 
 
 > 
 
 i 
 
 c 
 
 1 
 
 1 
 
 c 
 c 
 
 1 
 J 
 
 c 
 c 
 
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 OC 
 
 1 
 
 1 
 
 1 
 
 1 
 
 1 
 
 11- 
 
 
 < 
 
 
 
 
 
 
 
 
 c 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 3 3« S 
 
 Ai O Q. 
 
WATER RESOURCES OF 
 TABLE 8. 
 
 CALIFORNIA. 
 
 U 
 H 
 
 CD 
 CO 
 
 O 
 
 I 
 
 to 
 < 
 
 CO 
 
 < 
 u 
 
 H 
 
 b 
 O 
 
 CO 
 
 3 
 
 3 
 C 
 
 c 
 
 o 
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 1 
 
 ii 
 
 Q. 
 
 C 
 
 Q 
 
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 o 
 
 
 
 
 
 
 
 oc 
 
 
 
 o 
 
 CM 
 
 
 
 
 
 
 
 
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 sous 
 
 
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 to tctcio 
 
 
 > 
 
 1 
 
 
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 CO 
 
 
 
 
 
 
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 U30 
 
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 ;OCC«S<0 
 
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 cu 
 
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 ^» CO 00 00 
 
 i 
 
 
 
 
 
 
 
 
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 CRO 
 
 
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 o 
 
 
 
 
 
 
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 W5 
 
 
 
 
 
 
 
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 — .oo 
 
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 oooo CI ^ 
 
 1 
 
 
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 c-ioo 
 
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 oci 
 
 
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 oooo 
 
 s 
 
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 CO 
 
 
 
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 0<N 
 
 
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 o 
 
 
 
 
 
 
 
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 coco 
 
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 s 
 
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 o 
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 rococo 
 
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 NU5 
 
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 ooo^o 
 
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 5 
 
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 SS3 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 t3l-~0CO lO ^ Oj c- 
 
 ^..___c) oooa 
 
 C^ Oi n OT Ci C: C-. ~ 
 
 -a a-=>-£i w w o c 
 
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 Luss of 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 ti 
 
 M 
 
 
 
 
 
 
 lO '-o rQ o t-- 
 
 C^ -J" OJ O f 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 — a. == 
 
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 c^ 
 
 oo 
 
 
 
 
 
 
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 ^ 
 
 
 MMCO 
 
 1 
 
 1 
 
 
 
 
 
 lO — -^ t— -^ 
 
 I- »o ■* oo -^ 
 
 oo 
 
 
 CO 
 
 » 
 
 .«o 
 
 oo 
 
 coco 
 
 
 
 
 
 
 
 
 
 
 CJi— 'co'o oTo 
 
 !;:.c^!:;2,eiS 
 
 k 
 
 1 
 
 i 
 
 J 
 
 c 
 c 
 
 1 
 
 ■' 1 
 
 ' 3 
 
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 1 
 
 
 
 
 
 
 
 
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 5 
 
 
 
 
 
 
 
 
 133 
 
 s 
 
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 CD ^ O 
 
 m a g 
 
 
 
 III 
 
 I ° § 
 
 ^ q 
 
 crj'a 
 
 1-3 
 
134 
 
 WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
 % 
 U 
 
 H 
 
 CO 
 
 O 
 
 2 
 < 
 > 
 
 z 
 
 o 
 
 Q 
 § 
 
 I 
 
 CO 
 
 oi 
 
 H 
 
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 u 
 
 3 
 
 •o 
 
 I 
 
 
 o 
 O 
 
 T 
 
 00 
 
 s 
 
 
 
 
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 oo 
 
 
 
 
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 Q 
 
 CU 
 
 
 
 
 
 
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 oooooooooooooooooo 
 
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 OC30O00OC30 
 
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 oo r - oo oo o t- t~ r^ t- 
 
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 ^ 
 
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 ooooooooo oo ooooo oo oc 
 
 
 
 
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 ■ -O -* -co --^ •QOCCO 
 
 
 
 
 
 
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 MCO -^ lO lO 
 
 
 
 
 
 
 
 
 
 
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 Oh 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 OiOOOOOOt^ 
 
 
 
 
 
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 t^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 OlCiCiaiOiOOJOC- 
 
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 Old 
 
 
 
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 TABLE 8. 
 
 CALIFORNIA. 
 
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 WATER RESOURCES OP 
 TABLE 8. 
 
 CALIFORNIA. 
 
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WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
 137 
 
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138 
 
 WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
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WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 139 
 
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 WATER RESOURCES OF CALIFORNIA. 
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WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
 141 
 
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 p, 
 c 
 
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 loodd 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 Loss of 
 
 di- 
 verted 
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 ^ 
 
 
 
 
 
 
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142 
 
 WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 H 
 
 § 
 
 S 
 
 
 Vi 
 
 < 
 
 OS 
 
 u 
 
 H 
 
 h 
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 u 
 
 3 
 
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 Loss of 
 
 di- 
 verted 
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 in con- 
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 ance. 
 
 
 
 
 
 
 
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WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
 143 
 
 1 
 
 S n 
 
 P 1=1 
 >> « 
 
 g ^ 
 
 o 
 
 Q 
 
 CU 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 so 
 
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 000:000 
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 2 ^^22g2:s:3 
 
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 _ — — . — — — -HOl'M'MOOOOOOOOO— ^ — — — — — — — '— ' 
 
 Loss of 
 
 di- 
 verted 
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 in con- 
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 al 
 
 — -M r- 00 o -. "* 
 to — — OO C3 -x> CO 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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144 
 
 WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 U 
 H 
 
 >* 
 
 O 
 
 z 
 
 o 
 
 CO 
 
 < 
 
 < 
 
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 H 
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 P 
 
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 8 
 
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 -^ OOcO«5 
 
 
 
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 ■ COcOCD;DcD-DtD»0'0 
 
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 ■t-«DCOCO=DtOt^OOOO 
 
 t^ OlOO O 
 
 — OOSO CO 
 
 
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 ■CT)CO0000t--r-OJOiC» 
 
 rj. w^ — t^ O O 
 
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 ■Of^oooo-rr^cot— r- 
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 <rjooc^ci tN 00 
 
 — -H-H CO CO 
 
 a, 
 
 ■ tO-^ -^ CO O 
 « --i C^) »0 -M M 
 
 
 
 
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 ■tOrOfOCO— 'OOOO 
 
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 — "O'^'frOf'M'MfN 
 
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 Loss of 
 
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WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
 -^ MOO ■ O O 
 
 (M O 
 
 Ot— 03 O00>f 
 
 
 
 
 3;0-^00t— 0«raCi 
 
 a , -a 
 
 O '-S O OC r^ lO ro 
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 ooo»oo«o 
 
 ■* M lO CO CO >« 
 
 
 rior-.-^ -^cir^cacsc 
 
 f 00 O =■= — Cl 
 
 3 — «— --3 
 
 3 -J r^ ro 
 
 ci-^tOJior-cocio c» M 
 
 O^C4 30t 
 
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 o o o o o o 
 
 is SrJ =i~ 55 
 
 ao-^ -^ -H -T" 
 cs o to-^-*< 
 
 =• 'i cf :S 
 
 Ot- o — o o 
 
 ^^ ^S •-' C-H 3* -^ 
 C-1 — C-1 C] ■-< CI 
 
 o o o o o o 
 
 O Od ^ o o 
 C 3 oo o o 
 
 ■ a E £ S £ 
 
 145 
 
 lie i 
 
 £ a * 
 CJ ^ s^ » 
 
 2-||.s 
 
 
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 P a 
 
 S c ^ 
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 t; 3 O - 
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 10-M2T3 
 
146 
 
 WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 s 
 
 3 § 
 >, " 
 
 ■S = 
 
 s s 
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 ^ : 
 
 Cm : 
 
 ■ to 
 jo 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 ■il^dosodeo 
 
 
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 cu ; 
 
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 ouso ^oo ciooiftOiraM" ■ ■ 
 
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 tI"rO^ COiOiO OO — OiOOO t^O 
 
 
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 ■ coco 
 
 d oo d CI t« lo 
 
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 sot- OOOi <M-*aC00O>0 0« 
 
 ocow h~-fQO mooirat^t— CO -Hco 
 
 ^(TJ^ r-d— . ^ — — — .-hCI CI — 
 
 ■^ — cocit—r^l— to cocoOcooo-'i'Tf 
 eotoioooooxir- t— I— cjr-oor— »o 
 
 
 1 ^^ 
 
 ■5cn-< uK-ifco iraioi-co^o cooo 
 ^irj— i o^oo OiOiiooiciio wico 
 
 
 dcj t^ 
 
 o 
 
 O Tf if> ■-»< OS lO ■* oo 
 -^ OOOCftiftCCt-Ol 
 
 
 ^ 
 
 b 
 
 P-. " 
 
 30ci 
 
 
 lO 00.-« tO(0 
 
 d d«dU 
 
 •O COCS 
 
 d dd 
 
 
 d 
 
 « 
 
 
 
 
 CO 
 CO 
 
 »oo 
 ■^ci 
 
 
 
 
 
 1 ■S : 
 
 ; ■- 
 
 
 ■ dc3 
 
 
 
 ■ d 
 
 
 
 
 
 
 
 
 
 
 
 o 
 
 
 
 
 
 
 ll 
 
 a 
 
 J 
 
 "So 
 
 
 
 
 
 
 
 
 toco 
 
 
 
 
 
 
 
 
 
 5i 
 
 
 
 
 
 
 
 
 
 
 d 
 O 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ■^ : 
 
 Oh : 
 
 
 
 
 
 
 
 
 sis 
 
 
 
 
 
 
 
 
 
 S 
 
 
 
 
 
 
 00 
 
 
 
 =^3 
 
 e^ : 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 00 
 
 
 
 
 
 
 t^ 
 
 
 
 2 
 
 t^oocfto oooio ■* »o » I- 00 cs o — 1 c^ CO "<*"n «o r-- oo 2 o ^22~22S 
 
 _H^~" -H — r-. — . „™,-.™ ..c 3 -c -«; -c -c -« -«; -c -= 
 
 c 
 
 Loss of 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 0^ ■ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 c 
 
 c S o 
 
 z 
 
 tS J 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 t 
 
 (5 
 
 *jco 
 
 1- 
 
 
 
 
 eocsooi-oi- 
 ■^ ciira 00-^ >* 
 
 - Cl.-I^ ^'^^ 
 
 
 
 O — -f OO ^ CO "O 
 ■-J« CO »o O !0 <o O 
 
 
 
 
 If 
 
 
 
 
 CD C3 O O O • 
 
 : §SSg§ : 
 
 CI CI Ol C-1 C-J . 
 
 
 
 
 
 
 
 
 
 § : 
 
 ooooc oo 
 
 ggggggs 
 
 t 
 
 a 
 -g 
 
 Ma '. 
 
 S ■ 
 
 o ■ 
 
 o 
 
 3 
 O 
 
 s 
 
 O 
 
 1 
 
 1 
 
 a 
 
 c 
 
 '1 
 
 ■fc 
 
 i 
 
 s 
 
 6 
 
 •s 
 
 s 
 
 O 
 
 O 
 
 '■i 
 
 pi 
 
 
 
 C >> . 
 
 
 
 
 
 
 p^ 
 
 t^ 
 
 
 
 
 
 
 g 
 
 
 
 
 
 
 
 
 
 
 
 Pi 
 
 
 
 
 
 
 
 
 Q: 
 
 o acQ 
 
 „• = 13 
 
 a I- o 
 
 3 e9 
 
 3 S^ 
 
 '— Ota 
 
 1^ M 
 
 3 >.£ 
 
WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
 147 
 
 i 
 
 a 
 11 
 >■ ^ 
 
 c = 
 
 .5 
 
 
 a^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 OO-H 
 
 
 
 
 
 
 
 
 
 > 
 o 
 Z 
 
 ■g 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 o 
 
 cu 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 to 00 o 
 OOiO-' 
 
 
 
 
 
 
 
 
 "a 
 
 &i 
 
 H 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ware -rf 
 
 
 
 ^ 1 "^ 
 
 H 
 
 
 
 
 
 
 
 
 
 
 CJ C) O -^ GS O 
 
 00 o o c» o ri 
 
 
 OOO r~ 
 
 
 
 •-3 
 
 O CO ■ 
 
 
 
 
 iraco t^ 
 
 MO W3 
 
 lO 
 
 'tf'I^O-^O-W* en- OM .-C0!O 
 
 C 
 
 ■-3 
 
 1^ 2 •- : 
 
 g2 
 
 TTM iM«'*re^ -H — CI— . — « MC-) eo^ eo QO 
 
 2 
 
 ^ ^ hi 
 
 caoo 
 
 CO 
 
 — 'O OCOOO ccoao^OO" O-V W-rr OOO 
 
 MO eOujcOSD COOCSTj-'oo® t^«5 c^O ci-^ 
 eoio C^ffCQcs cc,-.^^^^ OJ-^ c-s-^- cc^ 
 
 
 U. 
 < 
 
 
 
 
 
 ccio oca-r 
 
 M-"r^OOC^ci OOt-^ oo "Tt-^N 
 
 s 
 
 0- " 
 
 
 
 
 
 
 
 
 — c^cn — — ::5 cic^i oo —.000 
 COIMOOOCSOO »ooo t^ci "^S—" 
 
 
 ^ CO 
 
 a-' 
 
 
 
 
 
 
 
 
 
 
 
 oeoo t-OQO oo 
 ci r- 1- >o 00 o o 
 
 
 oo 
 
 oo 
 o 
 
 
 =5 
 
 Cu 
 
 
 
 
 
 
 
 
 
 
 
 
 
 CI -^ 1- oc c» o 
 C5I^U3C50 CO 
 
 
 
 
 
 
 
 "3 1 
 
 s 
 
 o^' 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ^ 
 
 
 
 
 
 
 
 S 
 
 _; 
 ■| 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 oo 
 
 
 
 
 
 
 
 
 ^> 
 
 P^ 
 
 O 
 00 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 S3 
 
 -s 
 
 o 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 o 
 
 
 
 
 
 
 
 o 
 
 rt 
 >* 
 
 
 
 _ — _ — _ «_ ^— -H 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 fl^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 _^ 
 
 
 
 
 
 
 
 
 
 
 
 
 rf r 5 
 
 < 
 
 z 
 
 1 
 
 r^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 1 
 
 i 
 
 |S 
 
 oo taenia 
 
 
 
 
 
 
 dOOOO 
 <£> O to ^^ 
 
 -^ CI -^ M 
 
 
 
 
 
 
 --^--lo 
 
 
 O O c: = O 
 
 
 
 
 
 
 lllfl 
 
 ■**-■" o'oo'oc'oo' 
 
 
 
 
 
 I-I-OO 
 
 1 
 1 
 
 to 
 
 1 
 
 11 
 
 1 1 
 
 5 
 
 ■ w 
 
 ; J 
 i 1 
 i 1 
 
 n 
 
 ■ 
 
 ; s 1 
 
 i 1 1 
 i - 1 
 
 t 1 1^ 
 
 c 
 C 
 
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 1 c 
 
 : if 
 
 i -^ 
 
 : S 
 
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 • § t- 
 
 C 1 
 
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 ; I 
 
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 J 
 ) 
 
 ■ 
 
 i 
 
 3 
 
 
 
 P 
 ^ 
 
 i P 
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 i p5 
 
 
 3 
 
 
 ^ 
 
 :i 
 
 cc 
 
 
 
 
 V 
 
 ^ 
 
 \ 
 
 
 
 
 
 17 
 
 i 
 
 
 3 
 
 u 
 f 
 
 3 
 
 
 1 
 
 s^-gs 
 
 
 
 
 
 
 
 Ss^ 
 
 ^U 
 
 
 i <=•» 
 
 
 a.s 
 
 i"-a 
 
 
 ,^5i 
 
 .'■^■is 
 
 g^H 
 
 
 
 t/:_ 
 
 
 &-S 
 
 1a^ 
 
 
 
 
 
 ^''^^ 
 
 
 •^■3 -a 
 
 Mr°, 
 
 ss. 
 
 
 
 
 
 ■pi 
 
 ^h^ 
 
 (Ef^3 
 
 
 Hi 
 
 
 O OS S? 
 
 "8E a 
 
 
 > O 
 
148 
 
 WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 H 
 O 
 
 
 <: 
 
 0! 
 
 a 
 
 H 
 
 b 
 O 
 
 U 
 
 C3 
 
 ■^;:; 3 i 
 
 ■s ^ 
 
 1 
 
 8 
 
 a 
 
 
 
 
 
 
 i^eo«o 
 
 
 
 
 d 
 
 
 
 d 
 
 'J 
 
 
 d 
 
 
 
 g 
 
 1 
 
 Oh' ■ 
 
 
 
 
 
 
 
 
 
 OS 
 
 d 
 
 
 
 CD 
 
 
 
 
 " 
 
 o 
 
 cu : 
 
 
 
 
 
 
 
 o -• 
 
 
 OS 
 
 
 
 
 
 
 
 
 
 Cu 
 
 
 
 
 
 
 CO CO 
 
 
 - 
 
 
 
 
 . a -o 
 
 p 
 
 be 
 
 < 
 
 
 
 •o ■ 
 
 d ; 
 
 6^ CO 
 
 
 to 
 
 
 
 
 ■ CO — 
 
 
 % 
 
 ^ n 
 
 oJ 
 
 
 loco-a-oooooo OiO - 
 m 'J' o t.^ t^ CO QO lOci - 
 
 to« 
 
 odd j 
 
 
 W 
 
 '■ --jid 
 
 
 a) 
 
 a 
 
 3 
 •-a 
 
 ^ C^(0 -V O ■— CO t^ «3 O [- coo ■ 
 
 y U5M CO i«COOci(DCOOO lOCo" 
 
 ??2 2 
 
 
 to M S4 M CO 
 C^tJ" OOCO 
 
 p 
 
 & 
 
 s 
 
 « O O CO — CD f- U3 Oi -^ CO r- C3 • 
 
 toco wo 
 
 
 ■■ 
 
 D S» ^O 
 
 ■^ t-^ d 
 
 
 
 "S coco 
 
 OS CO to 00 oi •— ;s U500 
 
 ^^^Oi (M 
 
 
 
 • t-C3 
 
 
 
 "6 
 
 Oh" : 
 
 ■o 
 ■o 
 
 CO O t^ f^ t^ -^ »o couo • 
 
 moo — 
 
 
 
 
 (Deo 
 
 
 1 
 
 oi 
 
 ■M 
 
 
 ■oco 
 
 I-TJ-CO 
 
 t^ 
 
 
 
 
 
 =» 
 * 
 
 r^d 
 
 
 1 
 
 
 
 
 Oos 
 
 
 OOIQ 
 
 did 
 
 
 
 
 
 
 : 
 
 
 C^ICO 
 
 deo 
 
 
 li 
 
 a 
 
 .a 
 S 
 
 ph : 
 
 o 
 
 : i ■ 
 
 
 
 
 OS 
 
 d 
 
 
 •« 
 
 
 o 
 
 ■ d 
 o 
 
 
 
 : ^ 
 
 
 
 i: 
 
 •i 
 
 
 o 
 
 i 
 
 
 
 
 
 d 
 
 
 oo 
 
 
 
 
 
 H 
 
 
 
 
 11 
 
 Ph : 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 H 
 
 
 
 
 1 rt 
 
 &h" * 
 
 
 
 
 
 
 o 
 CO 
 
 
 ■ o 
 
 
 
 
 
 H 
 
 
 
 
 § 
 ^ 
 
 oocs OS CO "«< in t^ oo oi o oooi e. oocr. roc* ca oo^ : 2^ 
 Oioi OS OiOsososSsOiOi oioi o;cs Oi a^'^ • O: Oi 
 
 
 Loss of 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 cu : 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 1 : 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 OS 
 
 
 
 
 c5 ^ -. _ _ 
 
 
 ITS "C 1.0 C^ CD C-l --D e-O CJ CO 
 
 t- to 
 
 
 
 oo o ooocoo 
 
 - *00 -* C:~r-00 
 
 1 SS " "^5^^" 
 
 ooo oo oo o oo 
 
 f ^f oooo -f-r oo •w 
 
 '*■'?■-»• end coco '^ -vi*^ 
 
 : CCT-OCO" C-rc-f 00 co" oo S'S' 
 
 ; c'o" 
 
 
 a 
 
 3 
 c 
 
 c 
 
 • o 
 
 i e 
 
 ! 1 
 
 z -= 
 
 Q C 
 
 a j_ 
 _1 >- 
 
 "ca 
 
 a : 
 S J. 
 
 a a 
 
 > 
 1^ 
 
 j 
 
 1 
 
 i 
 
 o ■ 
 
 li 
 
 ^ : 
 
 a 
 
 cs 
 o 
 
 ■ 1 
 1 
 
 ; J. 
 
 
 ■ (S ^ 
 
 ■ = S' 
 ^ .2 ^ 
 
 ■^ Si "^ 
 = £ 
 
 i § 
 
 
 Section 
 and key 
 letter. 
 
 
 
 
 
 n in ui in m xn m 
 L li t^ ti. rl- !>. i-I. 
 
 
 t 
 
 I I 
 
 
 
 
 
 ?•!:-& 
 
WATER RESOURCES OP CALIFORNU. 
 TABLE 8. 
 
 149 
 
 
 
 
 t^ 
 
 
 o 
 
 
 
 
 
 o 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 m.g' 
 
 
 
 
 » 
 
 CO-^fO 
 
 
 
 Tl 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 (ll 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 -^^ 
 
 
 ^ 
 
 
 
 cccMc; 
 
 
 
 OO 
 
 
 
 
 
 
 O 
 
 
 
 CO 
 
 
 
 ■^ 
 
 
 
 
 
 
 
 ^•■3 
 
 
 
 
 
 
 
 
 
 
 
 
 r 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ^ 
 
 0- 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ^ 
 
 
 ca 
 
 WC-lui 
 
 
 
 
 
 
 
 
 
 
 
 
 (M 
 
 
 
 ca 
 
 
 
 "■ 
 
 
 
 
 '^H 
 
 
 » 
 
 
 « 
 
 OO^-K 
 
 
 
 
 
 
 
 
 
 
 
 
 (- 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 s-s 
 
 - 
 
 ^ 
 
 "* 
 
 "^<MCJ 
 
 
 
 lO 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ■^>5 
 
 
 a 
 
 
 r- 
 
 t»cq"<i 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 c; 
 
 ^ 
 
 PU 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 'w- 
 
 C^C^^CO 
 
 I- 
 
 ocs 
 
 •rC 
 
 
 CI COM 
 
 cct^O 
 
 CO 
 
 
 t— ifSOO 
 
 
 
 
 i5^ 
 
 
 3 
 
 
 
 W Ml 
 
 cc 
 
 
 O 
 
 
 ^.-Ht- 
 
 -•oo 
 
 
 
 
 
 
 
 
 S S 
 
 -< 
 
 Ch 
 
 
 
 
 
 
 
 '^ 
 
 
 
 
 
 
 
 ^ji 
 
 
 _^ 
 
 caot^ojo 
 
 l-TrJ-C-l 
 
 NI^O) 
 
 'i'coo 
 
 -^ojcq 
 
 coeaco 
 
 Tj«COO 
 
 OO'^IQ 
 
 
 3 g 
 
 
 u 
 
 t~<MOT^I> 
 
 PI ClI^ 
 
 OOC' 
 
 t^^kfj 
 
 r^«)(N 
 
 
 
 
 II 
 
 •=, 
 
 C-. 
 
 
 "^ 
 
 
 T-.— .— 
 
 
 
 
 
 
 ■s 
 
 -?■ <M ,= CO l- 
 
 •O =iOC 
 
 -J ^^ CS — — *0 
 
 OCiTfi 
 
 CMSOiM 
 
 om — 
 
 COCIOC 
 
 
 &. 
 
 
 
 
 
 
 CICOC- 
 
 
 WCOCN 
 
 gQ 
 
 >i 
 
 ^ 
 
 Ol (M ■>3- i« r? 
 
 — cz:^ 
 
 -i-c^-^ 
 
 t-ClO 
 
 'T--:^ 
 
 OCMtO 
 
 00 Mf 
 
 coc;t- 
 
 R^ 
 
 
 
 
 ocs'^nc; 
 
 OO-it-O 
 
 ■--00 1^ 
 
 t-l'WK- 
 
 c3r^c< 
 
 Ococ 
 
 
 
 
 B 
 
 :y 
 
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 S"- 
 
 H. 
 
 ■g 
 
 CI ;C"^ t^CC 
 
 ■rtrctn 
 
 •tf'-a'i^ 
 
 iC o « 
 
 O C^OJ 
 
 CO— .CO 
 
 — I^OC 
 
 rooc 
 
 2~ 
 
 "S.S 
 
 
 <= 
 
 c- 
 
 
 
 
 
 
 
 C^i-i" 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 rt 
 
 "o 
 
 
 
 «-!■ 
 
 
 (OtN. 
 
 
 I-iO 
 
 
 00 cq 
 
 
 
 
 
 
 coC 
 
 Tf 
 
 
 S 
 
 p- 
 
 
 
 w — 
 
 
 
 
 — 1 — 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 ■c 
 
 
 ■oa 
 
 
 
 
 
 
 
 
 
 ■9, 
 
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 •!j< ^rc>'^-^ 
 
 
 
 or 
 
 
 
 o 
 
 
 o 
 
 
 CO 
 
 
 
 
 
 c 
 
 
 
 SH 
 
 
 fc. 
 
 &* 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 rrn 
 
 c 
 
 ■s 
 
 00 r^ -a- -^ -ff 
 
 
 
 ir- 
 
 
 
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 cc 
 
 
 
 CO 
 
 
 §-& 
 
 
 
 a. 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 g 
 
 
 
 
 oo 
 
 
 M 
 
 
 O 
 
 
 c» 
 
 
 oo 
 
 
 Cl 
 
 
 o 
 
 
 ■^ 
 
 g-s 
 
 
 
 
 
 oo 
 
 
 w 
 
 
 
 
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 ■w 
 
 
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 t^ 
 
 
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 g § 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 23 
 
 —• 
 
 fc; 
 
 P^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 n 
 
 *j 
 
 
 
 oo 
 
 
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 c- 
 
 
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 t^ 
 
 
 
 
 lO 
 
 »..^ 
 
 
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 £5 
 
 3S 
 
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 U3 
 
 
 CO 
 
 o 
 
 
 
 
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 oo 
 
 ^§ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 =^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 ■tj 
 
 
 
 oo 
 
 
 
 
 
 
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 ^ 
 
 
 CI 
 
 
 ^ 
 
 
 QO 
 
 
 < — 
 
 
 
 
 
 
 
 
 ^ 
 
 
 
 
 
 
 
 
 
 
 
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 *— 
 
 -^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 5S 
 
 
 
 
 
 
 
 t^o — 
 
 r-o — 
 
 r-o — 
 
 t^o — 
 
 r^o- 
 
 03-3 
 
 
 
 
 
 
 
 
 
 
 
 
 oH 
 
 :J 
 
 
 
 
 
 C: CSS 
 
 CJiCiC- 
 
 cs — cr 
 
 ososcr 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 r- 
 
 
 
 
 
 
 
 
 
 
 
 
 l.il^^ 
 
 ! >iS 
 
 o 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 .11 
 
 11 
 
 J'S;*.: 
 
 : > a 
 
 P^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 H^ 
 
 3:5 "^ 
 
 i 
 
 1 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 3*^~ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 co!i>i> 
 
 r^-J.pr 
 
 tst^ir- 
 
 r-'iS'cr 
 
 COOC 
 
 COCiC 
 
 D.a 
 
 'c c 3 
 
 n 
 
 is 
 
 oootao 
 
 
 
 
 CMMC 
 
 «— >CJ 
 
 MMC 
 
 "*CJC 
 
 i£ 
 
 < 
 
 t. 
 
 o 
 
 (S 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 -^ -r -7 
 
 
 c^ci ;■ 
 
 ^-4"rt 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ? i"? 
 
 
 3 
 
 (©(OOO 
 
 loio^ 
 
 cc cc r' 
 
 
 
 
 
 
 
 
 
 
 • -3! 
 
 fpS 
 
 
 oooo 
 
 
 t-t^r^ 
 
 
 
 
 
 
 
 
 
 cococ 
 
 <--a 
 
 
 < 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 >< 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 '« 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 31" 
 
 
 
 od 
 
 d 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ^ 
 
 O 
 
 ^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 fl"^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 J*; 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 EM 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ■1 
 
 -a 
 
 c 
 
 
 
 
 
 
 
 
 
 
 
 
 ^ 
 
 ■g^ 
 
 1 
 
 
 -a 
 
 Q 
 1 - 
 
 2 
 
 
 
 
 2 
 
 
 
 
 
 
 d 
 U 
 
 > (3 
 
 ■-3.H 
 
 II 
 
 
 
 1 
 
 
 1 
 
 s 
 
 1 
 
 
 ^ 
 i^ 
 
 
 
 .a 
 2 
 
 .1 
 
 
 
 
 § 
 
 i 
 
 1^ 
 
 1 
 
 G 
 
 
 B 
 
 S 
 
 ^ 
 
 H 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 •2^t 
 
 
 
 m 
 
 E- 
 
 H 
 
 H 
 
 H 
 
 E- 
 
 t; 
 
 E- 
 
 
 
 
 
 ii 
 
 i^ 
 
 r- 
 
 r- 
 
 r- 
 
 t^ 
 
 t^ 
 
 r- 
 
 c 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ^ 
 
150 
 
 WATER EESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 O 
 > 
 
 z 
 
 o 
 
 < 
 
 vx 
 
 H 
 
 O 
 
 3 
 
 •0 
 
 u 
 3 
 .g 
 '■w 
 C 
 o 
 U 
 
 l-l 
 
 3 
 
 ■s. "° 
 
 § g 
 s g 
 
 s 
 
 D. 
 
 Q 
 
 a,' 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 lO 
 
 
 
 > 
 
 ^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 CI 
 
 
 
 
 
 
 
 
 
 6 
 
 0^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 t-^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 CO 
 
 b 
 
 
 
 
 
 
 
 
 
 t 
 
 CLi 
 
 
 
 
 
 
 
 
 
 
 
 
 Cl 
 OO 
 
 03tO 
 CO—" 
 
 
 
 
 W3 
 
 
 
 
 a 
 >-> 
 
 W CO 
 
 0. 
 
 O O 
 
 
 050M 
 
 00 wM 
 
 
 r- U5 O t^CN 
 t^ CO U3 --OJ 
 
 coin 
 
 05C 
 
 —1 locoo: oi 
 
 B 
 
 ■-3 
 
 
 40 OC-)CO o 
 OO •»»' — O OO 
 
 no CO CO eo c-1 
 
 00 Ol O "*CO 
 
 t-^ CO OO t^o 
 (N — 1 CO ClIM 
 
 » CI «r -*■ -o Oi — 
 to o) OO CO M en m 
 
 « M CI CS C-l — CI 
 
 s 
 
 ■ -^.tj-.* 'S'rc-^ co-*e-3 -s-iA M •-i co MM 
 
 Ci m lo to o; OO 1— 
 
 S3S5 sags 
 
 ^ lO CO CJ CO o 
 
 a. " cj cj ic »o o 
 
 -< a: — 
 
 ■-»"iMcn OO r^- "* o ooco 
 -j^«c-j ooo to CO oi cic-i 
 
 <MM^ C-qiO "M — < — — C^ 
 
 Ostot-- cotooico 
 tocsicn —dh-ioo 
 
 1 
 
 CU 
 
 CO-i 
 
 CO 
 
 
 CO to 
 
 
 
 o 
 CO 
 
 ooo 
 
 -fOl 
 
 
 M"":! 
 
 t~(v3 
 
 
 4 N 
 
 
 
 
 
 
 
 
 
 
 
 n 
 
 
 CO 
 
 
 
 - 
 
 
 o 
 b 
 
 
 1 " 
 
 
 
 
 
 
 
 
 o 
 
 
 
 o 
 
 CO 
 
 
 ca 
 
 b 
 
 
 
 
 
 
 
 
 •5 
 
 ii 
 
 1 
 
 
 t^ 
 
 
 to 
 
 
 o 
 
 CO 
 
 
 
 
 O • CO 
 
 
 
 
 CO 
 
 
 
 
 
 (M 
 
 ?5 
 
 
 CO 
 
 o 
 CO 
 
 
 CO 
 
 C4 
 
 
 
 
 oa • 00 
 o • ^ 
 
 CO 
 CO 
 
 
 b 
 
 
 
 81 
 
 C4 
 
 
 
 en 
 
 
 t- 
 
 
 
 
 
 
 CO ; -^ 
 
 lO • -^ 
 
 t— ■ CO 
 
 00 
 
 
 W3 
 
 
 
 
 
 3 
 
 
 OS 
 00 
 
 ■^ 
 
 
 irj 
 
 CO 
 
 00 
 CO 
 
 
 
 
 00 ■ U3 
 ^ • OO 
 
 
 
 
 
 
 1 
 
 J^iM?5 ^Cl?q ^CJM (M?l CI C) CI MM ?1 — C-lFl —e-)M-H 
 
 Cftcnoi oioio ooso oi OJ oi cr= ca os oa ci osoioi os cr o os 
 
 Loag of 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 0. 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 1:3 -d 
 = = = 
 
 z 
 
 1 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 c5 
 
 »-iO00O »C(NCQ OseOOO CO -^D 
 « lOC^CN lOMtN .-<CqN ^rH 
 
 
 
 
 CO — -J-OO ,— co-Ht- 
 
 M -* t~ t-. >o to to c^ 
 
 rt 1 Id 
 
 cs a> a> C3ioo ooo r-r- 
 
 c; a> oi ooo m >.'2 no «d -^ 
 
 m _H — — 1 ooo t^r—r— oooo 
 
 jj c-id'ci' co'fo'co" o'c-roi" «— T 
 
 
 
 CO 'is O C300 OOOOOOO 
 5" •*• O to to to OiOibiiO 
 
 t-'r-T in* co" 
 
 1 
 
 3 
 
 c 
 
 J 
 
 a 
 
 ' 1 
 i i 
 
 .1 
 
 i I 
 
 i J 
 
 - 3 
 
 : 1 
 
 - 5 
 
 ; I 
 
 ; a 
 
 E 
 
 • t 
 
 \ 5 
 i if 
 
 ; \ 
 
 i 1 
 
 3 ^ 
 
 1 
 
 ^ 1 
 
 i t: 
 
 ' 5 
 
 1 
 
 tt 
 
 ■01 
 11^ 
 
 
 f- 
 
 
 
 i- 
 
 
 
 
 
 
 t 
 
 
 t- 
 
 
 - ^ 
 
 
 
 
 
 
 ^ 
 
 
 
 E- 
 
 
WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 151 
 
 
 MM 
 
 q| 
 
 00 00 o 
 lO ^? o 
 
 (O — ' — • 
 
 t~0-H — — .^ - 
 
 •—I CI C-J <M C-l 
 
 C» O 05 ^ c> 
 
 ■■--. 3 o a a 
 
 ^4 
 
 ' ^!£a> ii\o^ 
 
 3t;~ 
 c _ o 
 
 c S o 
 
 MM CI M M 
 
 ^ M CO MCOMM M— "■ 
 
 OO iO^tO O — fOJiO MM 
 
 r- Tj- 1— I o -^ ■«' o_ . 
 
 lOCO"— I"— I '^Cit — 5D 
 
 a 
 
 
 ^ ,S a 
 
 « a 
 
 S a i 
 
 O — 
 
 «-T3 - 
 
 p p p & ^ 
 
 ri t^ t-I- r- t— 
 
 &: 
 
 
 fl 
 
 
 
 
 
 
 
 si 
 
 
 
 3 
 
 S 
 
 
 
 
 :Q 
 
 ^ 
 
 n 
 
 
 
 
 
 a 
 
 a 
 
 o 
 
 
 c 
 
152 
 
 WATER RESOURCES OP CALIFORNU. 
 TABLE 8. 
 
 >^ 
 
 1/1 
 D 
 O 
 
 > 
 Z 
 
 o 
 
 Q 
 
 w 
 
 < 
 
 < 
 
 Pi 
 U 
 H 
 
 < 
 
 O 
 
 CO 
 
 o 
 O 
 
 T 
 
 00 
 
 U 
 ►J 
 
 13 
 "a 
 
 § g 
 11 
 
 
 a^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 00 
 
 to 
 
 
 o 
 
 
 
 
 
 
 
 
 > 
 
 o 
 Z 
 
 
 
 
 
 
 
 OS 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 o- 
 
 OO 
 
 
 
 
 
 
 
 
 O 
 
 1 2 
 
 
 
 
 o 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 o 
 oj 
 
 
 
 
 
 
 
 
 12^ 
 
 
 
 
 o 
 
 OStN 
 
 coo 
 
 
 
 o 
 
 CO 
 
 
 
 
 
 
 o 
 
 
 
 
 o 
 
 CO 
 
 
 
 
 
 
 
 
 
 +^ o 
 
 
 
 
 
 
 
 o 
 
 CO 
 
 
 
 
 o 
 
 oo-^ 
 
 
 
 o 
 
 
 
 
 
 
 
 
 3 
 
 a, "* 
 
 
 
 
 OOOMCO 
 
 
 o 
 o6 
 
 
 
 
 1(5 OO I-- 
 
 
 
 o 
 
 
 
 
 
 
 
 
 o ^ => 
 
 
 
 
 (MCOCqiNCO 
 
 
 o 
 
 
 
 
 W5I-0)-*0> 
 
 — it^cocsci 
 
 .-IC-ICO^ 
 
 
 o 
 
 
 
 
 
 
 
 
 S 
 
 o 
 
 2 " 
 
 
 
 
 C-l !0 lO M CO 
 
 
 
 
 
 
 ior--irscoso 
 tM cs — oi eg 
 
 
 o 
 
 
 
 
 
 
 
 
 1 
 
 o 
 
 
 
 
 OS CM -O CI ■* 
 
 
 CO 
 
 
 
 
 
 
 
 o 
 
 
 
 
 
 
 
 
 a 
 
 CJ to 
 
 
 
 
 OOOiCOO 
 
 
 o 
 
 OO 
 
 
 
 
 to 
 
 CI-* 
 
 
 o 
 
 00 
 
 
 
 
 
 
 
 
 
 
 
 
 
 CO 
 
 — i(N 
 
 
 
 
 
 
 
 
 tool— .oso 
 
 OOU5 00 00 
 
 
 o 
 
 CO 
 
 
 
 
 
 
 
 
 o 
 
 ^ a- 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 M 
 
 
 
 
 
 
 o 
 to 
 
 
 
 
 
 
 
 
 ll 
 
 -< ft 
 .2 
 
 S 
 
 
 
 
 
 
 
 
 
 
 ■"S-eo H 
 
 
 
 
 
 
 
 
 
 
 
 H 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 11 
 
 a.' 
 
 
 
 
 
 
 
 
 
 
 —.to 
 co-^ 
 
 
 
 
 
 
 
 
 
 
 OB CO 
 tOI-^ 
 
 —.CO 
 
 
 
 
 
 
 
 
 
 1 d 
 
 -^2 
 
 
 
 
 
 
 
 
 
 
 — uo 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 O^ O^ O^ O^ O^ 03 O^ O^ O^ O^ O^ O^ O^ ^^ ^^ 03 O^ O^ O^ O^ O^ O^ O^ 03 C^ O^ O^ O^ O^ 03 o^ o^ 
 
 Loss of 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance, 
 
 cu : : : :::::::: 
 
 M ST rt 
 
 c E o 
 
 ^ 
 z 
 
 +i . .OiOOOOO — OSOt- ■C0iM(M^CCCM-H<a3t0O3'O 
 
 tt. ■ ■ 
 
 tS 
 
 O -O^CO — eoCD— -Ol — OS lOCDC-lOOOOiOOO«>(M~HO — 
 
 *a CS ■ OD 00 f-" O !0 IC5 y3 t— OS r^ r>- m O « O r- t^ CO ^^ iM -3" CO ■-< 
 
 S -.ji ■ CO CO Tji CO CO eo CO e*; CO ro m co co >n o co "(ji co co »c •<*"o oJ ■ ■ ^ • • ^ • 
 
 =^ ; ::::::: 
 
 111 
 
 t. o" — -t -t oc" c= co' c- r --C -f' Qc" -f" lo" in lo e j" -h' Tf' c- i t--i --^ w --:' ~i oi ™' -^' -.' — ' «' ^' r^' 
 "iO'C-^c^iocoira-3'C] — CIO ^ 
 
 a 
 ■s 
 
 > 
 
 i 
 
 2 
 
 ; g 
 
 ■5 
 
 c 
 
 1 e 
 
 o 
 
 -c 
 
 5 
 
 c 
 c 
 
 1 
 
 1 
 
 St 
 
 o 
 
 1 
 
 •2 
 
 
 
 tf 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 s k 
 
 
 
 00 oi 
 
 o o 
 
 OO 
 O Oi 
 
 OO 
 
 oo 
 
 o o 
 
 OO 
 Ot-^ 
 
 o o 
 
 oo 
 ocb 
 
 C5 O H H 
 
 0(^ H H 
 
 o □OO'— I a 
 
 M ^^ O rj> r-3 
 
 - — < Ooo r^ 
 
 1(5 lO OOOO to 
 
 Ci cc O ■* c 
 
 — •f ^ CC Cl 
 
 IM CI CO I^ I— 
 
 T^iMOO^O-*" 
 
 c^ Cs «S t^ :0 
 
 o -J- >- r- — 
 
 aic-3 o oc 
 CO oif3 r^ 
 
 
 
 >Oro 
 
 — <o 
 
 lO"* CO 
 
 dot-i 
 
 
 Ifi CO I-- '* c^ 
 
 •*• CO to -^ -^ 
 
 O) OI--^ CO 
 
 ^ -H CI r~ o 
 
 
 - — .ooo:-; 
 
 -<MOi-iCO 
 
 hOO^ 
 
 «iO 
 OOOO 
 
 
 153 
 
 
 —•■a 
 
 O o 
 
 qCU 
 
 *ras 
 
 
 I— QOOl O 
 
 C! Ci CJ o> 
 
 
 -00 
 
 0-- 
 
 to o -H CI CO -f lO 
 
 <J> Oi 01 CI 3; C: O 
 
 t.i,-M-£ O >^ E 
 
 
 •^ •* cue CI c; CO 
 
 
 -^"i ^ 
 
 0,03 
 
 2. '^ 
 
 •ij' CO ■* CO CI en o 
 
 10 -*• o »n tji •!»< CO 
 
 <^i(^K3c^-'"OOOOc:20-H 
 
 OiO^dOOOOiOOOf 
 O "^ 01 05 qO ^ CC ^-' 05 CO CO f^ 
 
 00 00 cc i-T't—'co' :o 01 1>^ O iX> r-' 
 
 0000 
 
 •-0 10 ^ QO 
 
 OC)OC3OOOO0i3O OCl 
 O O O -J ?M "O O O O CS — ^ OJ 
 
 10 C O 10 t— 'C^ QC 0_ OT C^ 'X OP CC_ 
 iO~t-^io'--D U5 ■-C'-:t" lOlO -J"' ■*" "O 10 
 
 o ^ 
 
 00 
 
 CI (M 
 
 c E 3 
 
 iig 
 
 
 
 
 
 KBi 
 
154 
 
 WATER RESOURCES OF CALIFORNU. 
 TABLE 8. 
 
 s 
 
 u 
 
 H 
 
 o 
 2 
 > 
 
 z 
 
 o 
 
 Q 
 
 CO 
 
 <: 
 
 U 
 H 
 < 
 
 O 
 
 •0 
 u 
 
 3 
 C 
 
 4-1 
 
 c 
 o 
 
 u 
 
 
 3 
 
 1 g 
 
 3 'B 
 § c 
 
 S 
 
 D. 
 
 G 
 
 s 
 
 Q 
 
 0-1 
 
 
 
 
 
 
 
 
 
 
 
 MO 
 
 
 
 
 
 
 
 
 
 
 14.3 
 
 10.9 
 11.2 
 5.9 
 2.9 
 15.5 
 
 8.2 
 5,1 
 2.0 
 
 
 > 
 
 Om" 
 
 
 
 ■* 
 
 ■* 
 
 
 
 
 
 
 ■^ 
 
 
 
 
 
 
 
 
 
 
 
 
 lOOOCMtOiOCOCMtOOCI 
 
 .-it^oooor-ioioddi^ 
 
 1 
 
 pj 
 
 «0 C4 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 CO 
 CO 
 
 
 OitDcMCOtDCOt^OOCS — 
 
 c-j»o:o-^oo« — Ofot^ 
 
 i 
 
 02 
 
 
 
 COO 
 
 o 
 ■^ 
 
 0<©00<0 
 
 04 lO 
 
 d — 
 
 oor-Tj. 
 
 
 COOJIMCOOOCOOOSOStfJ 
 eoCMCMCOOOCOOO-*eo«0 
 
 i 
 
 
 
 
 — ■ooocgooioco-*-'^ 
 
 O — I--0-HOO 
 
 
 "^^cocM^o-^.<a^u^-i;co-■ 
 
 3 
 
 
 CO t'— t'^ CO ^^ *— ' oo oo ^R QG '^ 
 
 — O — 0> -j5 O 
 
 CO00COC»OiC»^-r~tO'»' 
 
 diodt^di^oooi-HO 
 
 a 
 P 
 
 •-5 
 
 
 o-^o-^ooi-cior^— i 
 coo-^OOo:ooco»raco 
 
 >1 
 
 w r^iMiraira;ocooooc>5^ai-«— -r» — coo— lo — (MO 
 
 CT>!M;OTt<f--HiO00CJCM 
 
 cooot^oot^-^ — o-»-^ 
 
 
 lO ■<»■ rj. C-l Ol u^ GO o o .o 
 — t*Cl«5-.-t"00O— 'CO 
 
 
 
 
 to 
 d 
 
 OcotOOSiOOOitOcor^ 
 OO-^^H-^-^-MeMOCOCO 
 
 o 
 
 (S a; " 
 
 
 USOJOSOO 
 
 ■^ 
 ■* 
 
 oo 
 b 
 
 
 
 
 2 
 
 
 
 
 
 CM 
 
 t5>!OOOOOa=OCOC>10 
 
 "•tf-Tj-r-ddio-^tod-v 
 
 d 
 
 « o 
 
 o> 
 
 
 6 
 
 
 
 
 
 
 
 
 d 
 
 
 
 
 
 
 
 ooo— <ooo^csc^ai-H 
 ^r^oiincMcofocoiOQO 
 
 e1 
 
 < a 
 
 
 -J 
 o 
 
 
 
 
 
 
 
 
 
 
 H H 
 
 
 
 
 
 
 
 
 
 — .oo 
 — d 
 
 
 
 
 
 
 
 
 
 
 
 '3 
 O 
 
 Q-i 
 
 
 
 
 
 
 
 
 
 
 
 H 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 H> 
 
 &^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 <3 
 
 ^ 
 
 
 
 
 
 
 
 
 
 
 H H 
 
 
 
 
 
 
 
 
 
 — CM 
 
 
 
 
 
 
 
 
 
 
 
 
 tot— OOOlO— 'IMC0-J'i0iC0)O — <MCC>^i0<0t-~000SO i:OI— CCOIO— 'C'JlTO-^m 
 
 Loss of 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 Ph' 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 lo lo r^ CO o »o »o 
 
 — in oo t- o »- d 
 CN CM CI M •»■ eo •* 
 
 
 
 
 
 
 
 
 
 
 
 3:2 -a 
 
 c S o 
 
 ^ 
 ^ 
 
 1 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 00 t^ O »» CO lO t^ 
 CO ca ^ CO CM CM CM 
 
 
 
 
 
 
 
 
 
 
 
 n 
 
 1 
 
 
 
 
 
 
 
 
 
 
 ooor^io — h~oooooo<o 
 
 OJ^OO^C-IOCOtOa^OOOi—ISD 
 
 
 
 
 
 
 
 
 
 
 
 
 < 
 
 
 
 
 
 
 
 
 
 
 OOaO'OCOOOiOOiOiOOMfJOO 
 
 0<o«3Cit- — ro— .crMracooo 
 ^D lO* lO* iO iO »o' -^' 'i' lO' lO' irt «" »o 
 
 
 
 
 
 
 
 
 
 
 
 a 
 
 5 
 
 i 
 
 c 
 
 4 
 
 
 |1» 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
 155 
 
 i 
 
 3 § 
 
 s. 
 
 
 ^ 00 
 
 ^ 
 
 9.8 
 12.8 
 12.0 
 
 0.7 
 
 10.3 
 4.8 
 
 CO 
 
 
 
 
 o 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ■ 1 - ^r T^ o o i — too o^o 
 
 z Ic' 
 
 
 
 CO 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 o 
 
 _j Oa O ■* O t^ =S :;= =a C3 ao O 
 
 
 
 o 
 
 CO 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 =. 
 -^ 
 
 » t^ » 3C t^ --= -.i =i o ^ »o » 
 
 
 
 o 
 d 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 _^ CS -^ W3 — • OC OO OC O t^ -^ -« 
 
 » ocoooooaccic: — cac^o 
 
 
 
 o 
 d 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 3 
 
 ^ C^ -^ to h- ^=1 Tf W5 ^ Ci OO l>. 
 
 ^ Ocioo — C:0 — CC — O — 
 
 H H O 
 <M* 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 2 
 
 3 
 
 — . OO Si r- ac ec -- lO »0 <M ■-»• 
 
 w cc — QO cz ^ I-- r^ -r O f M 
 
 H H O 
 
 
 
 
 
 
 
 
 
 
 
 
 s 
 
 ^ «__._ — — — — -. 
 
 
 
 
 
 
 
 
 
 
 
 
 d r^ 
 
 s. |« o-o«tCL-i— .-^— - — or- 
 
 
 
 
 
 
 
 
 
 
 
 
 C3 
 
 
 
 
 H H O 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 =^ 00 lO o c-J o 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 '-3 
 
 
 c-i ^: — = o o ^ •rj 
 
 H 
 
 o 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 5 "o 
 
 s 
 
 H 
 
 ■^•- 
 
 H 
 
 
 
 
 
 
 
 
 
 dt-3 
 
 OCO 
 
 
 
 '1 
 
 C3 
 
 3h" 
 
 
 
 
 
 
 
 
 
 §5 
 
 
 *n 
 
 
 
 
 
 
 
 
 
 r^ t^ 
 
 
 
 
 a 
 
 
 
 
 
 
 
 
 
 dd 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ■ ea 
 
 H 
 
 
 
 
 
 
 
 
 
 
 H 
 
 
 
 
 
 
 
 
 
 oo 
 
 MOO 
 
 
 
 rt c; ca O O C^ Ci CTi c; :s Ci C» 35 Ci cs c» d ci ci cs c: c 
 
 -^ r- CO ci o oo oo 
 
 LuHB of 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 P.ct. 
 
 
 
 
 
 to f— »« 
 C-1 iO o 
 
 
 
 
 
 
 
 
 
 
 s 
 
 
 
 — ^ = 
 
 !-§ = 
 
 z M 
 
 
 
 
 § = § = -. 
 
 — . — TJ -1 ?» 
 
 = S 3g 
 
 
 
 
 
 
 
 
 
 
 o 
 
 
 
 ■ 1 ^OOOOOCO 5S CI — 
 
 m,.^ — -ioccr— ooao O O C-3 
 
 
 
 
 
 Ci 
 
 
 
 g.4^ 
 
 <--! 
 
 
 
 o 
 
 
 
 a 
 
 i 
 
 d 
 
 1 
 1 
 
 : § 
 h 
 
 c 
 ( 
 
 c 
 ^ C 
 
 C 
 t 
 
 c 
 
 ■ =? 
 
 c 
 c 
 C 
 
 .— 
 
 s 
 
 a 
 
 s 
 ■ a 
 
 : -a 
 ; Js 
 
 1- 
 
 i 
 
 t 
 
 z 
 
 
 •Pa 
 
 
 
 
 
 
 
 
 
 
 
 
 
 >* 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 £^ 
 
 ^ 
 
 
 = s = 
 
 
 Hs g 
 * - s 
 
 as 
 -si 
 
 nil 
 
 •g cc S 
 o "S^ " 
 
 >= o H 
 
 ■^23 _ 
 a"r » . 
 
 -Ho t 
 
 •Sa.a 
 
 ■a = g 3 
 
 
 tS.£> 
 
156 
 
 WATER RESOURCES OP 
 TABLE 8. 
 
 CALIFORNU. 
 
 U 
 H 
 
 if) 
 
 en 
 O 
 O 
 
 2 
 < 
 > 
 
 z 
 
 o 
 
 < 
 
 < 
 a; 
 
 M 
 H 
 
 O 
 u 
 
 3 
 C 
 
 c 
 o 
 u 
 
 
 Monthly use 
 in per cent of annual use. 
 
 s 
 
 Q 
 
 
 
 
 
 
 to 
 
 d 
 
 
 o 
 
 
 
 
 9.6 
 21.8 
 13.1 
 8.7 
 8.9 
 
 
 o 
 
 
 
 
 OiOO 
 
 i 
 z 
 
 (1. 
 
 
 
 
 
 
 C-5 
 
 d 
 
 
 
 
 
 
 
 
 — -^rteoco 
 r-|t>^odd 
 
 
 o 
 
 
 
 
 oo 
 d 
 
 
 1 
 
 
 
 
 
 d 
 
 t^l 
 
 
 
 
 O 
 
 CO 
 
 
 
 
 ■«j^dMt^t>^ 
 
 
 d 
 
 
 
 
 ■'J'CO 
 
 d-* 
 
 1 
 
 
 
 
 
 o 
 
 oo 
 
 
 
 
 o 
 
 00 
 
 
 
 
 lO « O O 1^ 
 CO -!• « ci -i 
 
 
 o 
 
 00 
 
 
 
 
 LOO 
 
 •a-oo 
 
 3 
 
 J. ^ 
 
 Q-i 
 
 
 
 
 CO 
 
 QCeo 
 pod 
 
 
 
 o 
 oo 
 
 
 
 
 OlCO^-^Tj. 
 
 
 o 
 
 
 
 
 r-o 
 
 1 
 
 
 
 
 
 O t- Cl t^ 
 OOlOt^cO 
 
 
 
 o 
 
 
 
 
 t^ CO "* i— C-l 
 «! 001^ CO 00 
 
 
 o 
 
 
 
 
 cid 
 
 a 
 
 p 
 
 o 
 
 
 
 
 «3 O CI O -^ O 
 
 
 
 
 
 QO C. -^ Cl o 
 
 tJ ^ t-i d .^ 
 
 
 o 
 
 CO 
 
 
 
 
 
 
 
 
 
 
 -r c-T t^ o r^ — 
 
 o 
 
 
 
 
 C) -^ C5 CO CO 
 
 dcot^-^« 
 
 
 o 
 d 
 
 
 
 
 
 < 
 
 
 
 
 
 C^l C-. »o »^ 'X> 
 
 
 d 
 
 
 
 
 Oa^i-iood 
 
 
 o 
 oo 
 
 
 
 
 coto 
 
 s 
 
 
 
 
 
 T -O O CN O 0> 
 
 o 
 
 00 
 
 
 
 
 Tf &=• CC 40 CO 
 
 -^ CO d CC M 
 —1 —iCl 
 
 
 o 
 
 
 
 
 CO-1- 
 
 co-^ 
 
 ^ 
 
 [S 
 
 o 
 
 cu 
 
 
 
 
 OCi 1*3^1 
 
 cq 
 
 o 
 
 CO 
 
 
 
 
 t^ 00 Ci UO CO 
 
 C-) ^i o -*■ d 
 
 
 o 
 d 
 
 
 
 
 
 CO 
 
 d 
 
 
 
 
 
 
 00 
 
 d 
 
 CO 
 
 o 
 d 
 
 
 
 
 -yoocTion-* 
 d d t^ lo >o 
 
 
 o 
 
 
 
 
 ■voo 
 
 C3-H 
 
 
 
 
 11 
 
 -«: n 
 
 c 
 
 1 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 OCO N 
 
 »od 
 
 
 
 
 
 
 
 c 
 O 
 
 ^ " 
 
 (^ 
 
 
 
 
 
 
 
 
 
 CI»0 H 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 E.S 
 
 ai 
 
 
 
 
 
 
 
 
 
 
 d 
 
 
 
 
 
 
 
 
 
 
 
 
 o 
 
 
 
 
 
 
 
 
 "^3 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 or- H 
 
 dift 
 
 
 
 
 
 
 
 ^cu 
 
 
 Loas of 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 P.ct. 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 C-l 0-, .o ■* O 00 
 
 .^oioddd 
 •^.-i«co ve^ 
 
 
 
 
 
 
 ^-00 
 
 ■3&S 
 
 pi 
 
 ■8 -S 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 C-. =i 00 I^ W CO 
 
 
 
 
 
 
 o o 
 
 i 
 
 o 
 
 
 
 
 oo«owc-i?cc^ro o 
 c-i ci e^ ci c^i cj ro ci 
 
 
 
 
 iO«)cj'»riO--0<M eg 
 ta (M CO lo o r^ u3 CO 
 
 CO ci M Cl C3 — ■ ci cj 
 
 
 
 
 »oco 
 
 
 O '^ CO lO OC C-1 O: 07 lO r-^ C^J O O O CO <M CI cc •-= w oo e-i C^J o o -.o .-: -^ -.= M — 
 
 i 
 
 2 
 
 c 
 
 c 
 
 1 
 
 CQ 
 
 3 
 
 1 
 
 55 
 
 
 .lis 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 ^S'S 
 
WATER RESOURCES OP CAUFOENIA. 
 TABLE 8. 
 
 157 
 
 O 3 
 
 1 
 
 
 
 
 
 od 
 
 
 
 
 
 
 
 
 
 
 
 
 
 USO-H 
 
 
 
 > 
 
 o 
 
 ^ CO rot-- 
 
 
 QCI~.00 
 
 
 
 
 
 
 
 
 
 
 
 
 •odd - 
 
 
 s 
 
 ^ T^-«■ro 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 i--o^ 
 
 oooood 
 
 
 
 
 
 
 dca 
 
 
 
 
 
 
 
 
 
 
 
 
 ^=o^ 
 
 
 3 
 < 
 
 « cOQO-i 
 
 a. 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 t^d-^ 
 
 
 •-s 
 
 ^ 00t-0» 
 
 
 toroo 
 
 
 
 
 
 
 
 
 
 
 
 
 W0O3O 
 
 dh-d 
 
 
 i 
 
 -3 
 
 
 
 — MO 
 
 
 
 
 
 
 
 
 
 
 
 
 COWCi 
 
 
 
 ^ 00U3«O 
 
 4^ o— !m 
 
 
 
 C-4C-3 
 
 
 
 
 
 
 
 
 
 
 
 
 rooo 
 oooot^ 
 
 
 < 
 
 ^ C>4ClO 
 
 
 
 CO!-- 
 
 dd 
 
 
 
 
 
 
 
 
 
 
 
 
 or-io 
 
 
 
 
 
 oo 
 
 
 
 
 
 
 ~^ 
 
 
 
 
 
 —iM— 1 
 
 
 1 2 -^ 
 
 
 
 COCO 
 
 coca 
 
 
 
 
 
 
 
 
 
 
 
 iFHd»H 
 
 
 
 
 
 
 «QO 
 
 
 
 
 
 
 
 
 
 
 
 
 ^lOCO 
 
 
 "3 
 ° g 
 
 
 
 
 
 
 
 
 
 o 
 
 o 
 
 o 
 
 
 
 oo o 
 
 II 5 
 
 "3 =; 
 
 
 
 
 
 
 
 (NO C»C1" 
 
 
 
 
 
 
 
 
 
 o 
 
 1 
 
 
 d 
 
 
 
 
 1.1 
 
 
 
 
 do 
 
 
 00 
 
 d 
 
 
 
 
 
 
 o 
 
 1 
 
 
 
 
 
 d 
 
 
 o 
 
 1 
 
 
 C 
 
 
 
 
 
 
 
 
 
 
 
 o 
 
 
 
 eo 
 
 
 
 
 >< 
 
 COI-OOSOO 
 
 S2^2 ^ ■ 
 
 
 gS 2g?: 2 2 ges g| gggs 
 
 cic» cscscs cs d CI cso C!3ici;» 
 
 Loss uf 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 *i QC — O :s CC 
 ■^ CO TT C-) C» -H 
 
 o 
 
 
 
 
 
 
 
 
 
 
 — 3. = 
 < 
 
 ^ 
 
 
 
 s 
 
 5 
 
 ^ ci ro -rj <M ro 
 
 
 
 
 
 —l-io n 
 
 
 
 
 
 
 
 
 
 
 
 <3 . -d 
 
 
 
 1 oiO":i 
 
 3 — ..•; .O 
 5 <MiOiO 
 
 
 «o i-o u3 o c> r- 
 
 
 coco e=> 
 
 
 s 
 
 oo"_' = 
 
 a 
 
 CO 
 
 E 
 
 C 
 
 E 
 
 1 
 J 
 
 c 
 
 1 
 J 
 
 ; 3 
 
 ; a 
 
 \ ^ 
 
 > 1 
 
 \ s 
 
 
 1 
 
 5 
 
 a 
 
 d 
 
 ^ i 
 
 St: 
 
 &\ 
 Si 
 
 ^- 
 
 in 
 
 
 .1 
 
 t- 
 > 
 
 1 
 
 < 
 
 E 
 
 > 
 'J 
 
 •• 
 
 
 
 
 3 
 
 
 
 
 
 
 
 
 c 
 
 3 
 
 § 
 
 
 
 c 
 
 c 
 
 1 d 
 
 t 
 
 
 
 c 
 
 
 
 
 
 E 
 
 
 &^3 
 
 c 
 
 ■£. 
 
 ^ 
 
 at 
 
 a 
 
 -1 
 
 
 m 
 
 
 O 
 
 
 2^^ 
 
 
 K "S 
 
 
 
 '■) 
 
 
 
 
 
 :^s 
 
 :3 
 
 ^ 
 
 ^ 
 
 o* 
 
 >i 
 
 o 
 
 ■?i 
 
 Q-^ 
 
 
 
 
 
 K 
 
 
 
 
 
 
 
 
 -3 
 
 
 3 
 
 
 
 
 
 
 
 
 
 aC 
 
 SQ 
 
 " 
 
 ■ss 
 
 «o 
 
 
 » 
 
 !i.H 
 
 
 
 
 2S 
 
 -3 
 
 
 u 
 
 
 
 
 -T 
 
 4- 
 
 S 
 
 c 
 
 9 
 
 s< 
 
 3 
 
 ^ 
 
 3 
 
 ■gQ 
 
 ^ 
 
 p 
 
 
 W a 
 
 
 fc. 
 
 
 ■sag",. 
 
 c ^ ? :/i o 
 .i-So .o 
 
 ca _go~ 
 5 g gm5 
 
 = ■1^3 op 
 ^ — ■^ ss 
 
 = . s s s. s 
 
 ■^■^ ^ =1 o 
 ■3 J B^l 
 
 r-, S S H 
 Ei =: a 
 
 
 go; 
 
 a ^ zt 
 
 i^S :;: 
 
 ~ C — • C5 -^ >o 
 
 Cl rt „O0*~" O 
 
 tSc3--32 
 ■•3-£.M^-5_-- 
 
 
158 
 
 H 
 
 D 
 O 
 
 2 
 > 
 
 z 
 
 o 
 
 
 CO 
 
 < 
 
 Pi 
 u 
 
 H 
 
 < 
 
 b 
 O 
 
 U 
 
 CO 
 
 3 
 
 V 
 
 3 
 S 
 
 WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 
 •O CC Ol <>3 WM 
 
 t— »0 »0 -* C^ lO 
 
 _ .~. ..^ .^ _■ 1F-> oj 
 
 -t o: f o CO I— 
 
 Id ^iD o= cc oo h- 
 
 o> >o W O ^^ t^ 
 «-. ^ CJ (TJ c^i — • 
 
 tp >o -^ o o — 
 — O c-1 eo O CO 
 
 O O C3 =i 
 
 a. —-^ -^-• 
 
 t>T 'f <0 l»- 00 Ol O •— ' 
 0103 CiClCSClO. Ol 
 
 
 " ^ a 
 c ■* ffl 
 
 o o o o 
 
 to m >A >0 lO us 
 
 O ^^ O OV CI — 
 c:; C-1 1- C3> CJ oo 
 
 lO in CO CO eo CO 
 
 t^l— lO i« ^ lO 
 
 c 
 
 o 
 
 o 
 
 
 o V ■- 
 
 •^-^ ^ 
 
 CO 5 — 
 
 S -3 
 
 o S 
 
 (3 " o 
 
 2 a # 
 
 5 
 
 c 
 B 
 
 = •^ s 
 
 5-3 
 
 Q 
 
 
 S Sd 
 
 o o 
 
 ►J J 
 
 o ■ o 
 
 5(5 g. 
 
"WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 159 
 
 3 
 
 ' 1 
 
 s s 
 
 Q 
 
 Oh 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 CO 
 
 d 
 
 
 
 CO 
 
 d 
 
 
 
 
 
 
 
 
 
 
 1 
 
 ai 
 
 00 
 
 
 
 
 ■*Ji t> «3 X> Oq t^ 
 
 "*t^dd-^d 
 
 
 
 
 
 
 
 
 CO 
 
 
 N H Nr^ 
 
 
 
 CI 
 
 
 
 0^ 
 
 ■^CKMcoCJ-HMrt" 
 
 
 
 ■10 
 
 ■ CO 
 
 H W H H«: 
 
 CO 
 
 3 
 
 oi 
 
 10 
 
 
 
 ocoo:)c^coco»o»co-*'-x5 
 
 lOOi-^CiOl^OOC-Jt^b-OO 
 
 
 QO 
 
 a 
 
 
 H H H HO 
 
 
 
 00 
 
 
 (OiOCiCOCJC-lt-Ob-OlCOOO 
 
 
 d 
 
 ■ CO 
 
 H H H H tc 
 
 a 
 
 ■=3 
 •-3 
 
 a. 
 
 
 
 OOC-J'OlMiO^CO'S'OJiOCV 
 
 
 (M 
 
 
 
 H H H Kt* 
 
 
 I^ 
 
 
 OOC-l-rPOOiM"^OiM-^aDt- 
 
 C)O0i>ic-it^(Ooia;i(5ci<>i^ 
 
 lO^— -C-)— c — — C^I — CI— . 
 
 
 Ci 
 
 
 
 H H H HOO 
 
 
 
 « 
 
 
 OO^^O^*'C0O':S-^C-lt0r0 
 
 
 
 
 
 
 H H H ■ 
 
 
 ■s 
 
 CO 
 
 
 
 
 — do 
 
 ■ C5 
 
 
 00 
 
 
 
 
 
 
 
 
 
 H : 
 
 J2 
 
 ai 
 
 
 
 
 
 
 
 
 
 
 ;- 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 CL^ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 4 
 
 ^ 1 
 
 < o. 
 
 
 CL,' 
 
 
 
 
 
 
 
 
 00000000 
 
 Oi «3 ^- ^I- M* CO ^ IQ 
 
 
 
 
 
 
 
 
 — 
 
 ft. 
 
 a 
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 tS 
 
 0-1 
 
 
 
 
 
 
 
 
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 (M >-l C-S Tj- Tj< Tjl t}l 
 
 
 
 d 
 CO 
 
 
 
 
 
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 p 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 <2 
 
 
 
 
 
 
 -(M 
 "5 
 
 
 03 d Oi Oi a> Oi cr> r-. CI ^. ^. 3i w. — . Ci CD Ci CI 3i C3 CI C-. C-- 'r-. 3- 
 
 11 
 
 Loss of 
 
 di- 
 verted 
 water 
 in con- 
 vey- 
 ance. 
 
 P-l 
 
 
 
 
 
 OO0S'-'-it^--O00COi0C100 
 
 -^foooooooioot^cou:) 
 lOt-uaio-j-^coMcocccccc 
 
 
 
 
 
 
 
 
 
 ■CJ 
 
 - TO 
 
 ■ CO 
 
 c _ a 
 c = o 
 < 
 
 z 
 
 1 S"S ^ 
 
 TjiciSoo-^o-^So-a-o 
 rocOMc^'^co^rO'-'M'—co 
 
 ■rj-x) 
 
 
 
 
 
 ;- 
 
 fi 
 
 
 
 to Tf c^ »o ^^-^ — CI — -^-^ 00 
 iOtOi^'^00<O:OW3«ior.^-«'C-iTi- ci 
 
 
 
 000000 
 
 -J- 00 ^HCO-^ »0 
 
 QO 0; "* -^" »0 -(t- 
 
 
 occ OO JO —■ 1^? o i^ -:f 00 r^ o> -r CO o o o ■* i^ co o oo o tc -h lo o 
 
 a 
 
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 s •§ J 
 
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 ■ g il„ 
 
 S 'o '^"- 
 
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160 
 
 WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
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 P 
 
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WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
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 WATER RESOURCES OF CALIFORNU. 
 TABLE 8. 
 
 CO 
 
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■WATER RESOURCES OF CALIFORfOA. 
 TABLE 8. 
 
 163 
 
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 WATER RESOURCES OF CALIFORNU. 
 TABLE 8. 
 
 
 C^ --i 
 
 3 
 S.S 
 
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 o O 
 
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WATER RESOURCES OP CALIFOR>fIA. 
 TABLE 8. 
 
 Z Id. 
 
 s s 
 
 
 QC ro I— iiD i3 
 
 CO to 
 
 00 cq 
 
 
 oo 
 
 
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 oo -^ 
 
 
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 4 
 
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 165 
 
 S"-! . o a « 
 
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 ^O oj o g gJ2 
 
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 fegas-3"^a 
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 e .,-; c_ o-c 
 
 ■oOQ5S§ 
 
166 
 
 WATER RESOURCES OF CALIFORNIA. 
 TABLE 8. 
 
 u 
 
 H 
 Ui 
 
 Ui 
 Vi 
 
 ;^ 
 o 
 
 Z 
 
 o 
 
 Q 
 
 
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 M 
 H 
 
 <; 
 
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 cu : : : 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
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 ■ ■ 5* 
 
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 o 
 
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 O — C--)CO'a" O t-OO Oi •-' C-l <X)^--COC»C— Oi Ci rc CS 
 OiOiCTJOiCi C7S OTOOi OS Cs Ci O) O) OS O) Cn bi O) OS C5 O) 
 
 Loss of 
 diverted 
 water 
 in con- 
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 o o o 
 b oi o 
 
 to C^ CS 
 
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 OOOOOOOOiO 00 OOO lO O (N tOCO^-^-^COO o o »o o 
 
 oaOSOsOiC;?^ OOOt- -rj.fN (MTfOOiCJOTOOr^OJ 
 
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 WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
 167 
 
 I I 
 
 
 eo CO "■*• iM Tj< -o 
 
 loor-co -^ u5 
 
 iM r- ci 00 1- (O 
 
 CT>CT-^c^lcO'»riotor~ 
 
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 a-sQ 8 
 
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 ■^ . OS 2 
 
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168 
 
 WATER RESOURCES OP CALIFORNIA. 
 TABLE 8. 
 
 u 
 H 
 
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 O 
 Oi 
 > 
 
 z 
 o 
 
 w 
 
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 o 
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 TABLE 9. 
 
 173 
 
 
 
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 WATER RESOURCES OF CALIFORNIA. 
 TABLE 9. 
 
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 TABLE 9. 
 
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 TABLE 9. 
 
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 179 
 
 
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 WATER RESOURCES OF CALIFORNIA. 
 TABLE 9. 
 
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WATER RESOURCES OP 
 TABLE 9. 
 
 CALIFORNIA. 
 
 181 
 
 
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 CALIFORNIA. 
 
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WATER RESOURCES OF CALIFORNIA. 
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 185 
 
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WATER RESOURCES OP CALIFORNIA. 
 TABLE 10. 
 
 187 
 
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 WATER RESOURCES OF CALIFORNIA. 
 TABLE 11. * 
 
 
 S ^ 
 
 
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 WATER RESOURCES OF CALIFORNIA. 
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 189 
 
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INDEX. 
 
 Page 
 
 Agricultural area and net cUuy of 
 
 water — Table 1 28, 29 
 
 Agricu tural land — 
 
 Antelope Valley and Mojave 
 
 River areas 29. 38 
 
 Delta lands of San Joatiuin 
 
 and Sacramento valleys 29, 58 
 
 Imperial, Coachella and Palo 
 
 Verde valleys.- 29 36 
 
 Inyo-Kern, Owens and Mono 
 
 valleys 29, 39 
 
 Los Angeles area 29, 32 
 
 North coa.st area 29, 65 
 
 Northeastern mountaln-val'.ey 
 
 and plateau areas 29, 66 
 
 Sacramento Valley floor 29. 60 
 
 Salinas and contiguous valleys. 29, 54 
 
 San Diego area 29, 34 
 
 San Joaquin Valley floor 29, 43 
 
 Santa Barbara, Santa Maria 
 
 and San Luis Obispo areas-- 29, 52 
 Santa Clara and adjaci-nt val- 
 ley areas 29, 55 
 
 Sierra foothills and rolling 
 plains east and south of San 
 
 Joaquin Valley floor --__ 29, 41 
 
 Sierra foothills and rolling 
 plains east and west of Sac- 
 ramento Valley floor 29, 63 
 
 Western s'ope of southern San 
 
 Joaquin Valley-- 29,51 
 
 Agricultural lands — general 11, 29 
 
 Imperial. Antelope and Victor 
 
 valleys 12 
 
 North and south of Lake Tahoe 12 
 
 Pacific slope valleys 12 
 
 Sacramento and San Joaquin 
 
 valleys 11 
 
 South of Tehachapi Pass 12 
 
 Alkali lands — 
 
 Owens Valley 40 
 
 Sacramento Valley -_ 61 
 
 San Joaquin Valley 45 
 
 Alphabetical index to irrigation 
 systems listed in tables 8 and 
 
 9 on use of water — Table 6 27, 92 
 
 Antelope Valley and Mojave Riv- 
 er areas — Section 4 38 
 
 Application of irrigation water 24, 73 
 
 Climate — 
 
 Antelope Valley and Mojave 
 
 River areas 38 
 
 Delta lands of San Joaquin and 
 
 Sacramento valleys 59 
 
 Imperial, Coachella and Palo 
 
 Verde valleys 37 
 
 Inyo-Kern, Owens and Mono 
 
 valleys 40 
 
 Los Angeles area 33 
 
 North coast area 65 
 
 Northeastern mduntain-valley 
 
 and plateau areas 67 
 
 Sacramento Valley floor 61 
 
 Salinas and contiguous valleys 54 
 
 13—20273 
 
 Sa>n Diego area 
 
 San Joaquin Valley floor 
 
 Santa Barbara, Santa Maria 
 and San Luis Obispo areas 
 
 Santa Clara and adjacent val- 
 ley areas 
 
 Sierra foothills and rolling 
 plains east and south of San 
 Joaquin Valley floor 
 
 Sierra foothills and rolling 
 plains east and west of Sac- 
 ramento Valley floor 
 
 Western slope of southern San 
 
 Joaquin Valley 
 
 Climatology " ' _" 
 
 Conservation of irrigation water- 
 general 
 
 Sacramento Valley 
 
 Crops — general 
 
 Crops — 
 
 Antelope Valley and Mojave 
 
 River areas 
 
 Delta lands of San Joaquin and 
 
 Sacramento valleys 
 
 Imperial, Coachella and Palo 
 
 Verde valleys 
 
 Inyo-Kern, Owens and Mono 
 
 valleys 
 
 Los Angeles area 
 
 North coast area 
 
 Northeastern mlountain-valley 
 
 and plateau areas 
 
 Sacramento Valley floor 
 
 Salinas and contiguous valleys- 
 
 San Diego area 
 
 San Joaquin Valley floor 
 
 Santa Barbara. Santa Maria 
 
 and San Luis Obispo areas 
 
 Santa Clara and adjcent valley 
 
 areas 
 
 Sierra foothills and rolling 
 plains east and south of San 
 
 Joaquin Valley floor 
 
 Sierra foothills and rolling 
 plains east and west of Sac- 
 ramento Valley floor 
 
 Western slope of southern San 
 Joaquin Valley 
 
 Page 
 
 35 
 45 
 
 53 
 
 56 
 
 64 
 
 51 
 
 15 
 
 73 
 
 75 
 12 
 
 38 
 
 59' 
 
 37 
 
 40 
 32 
 66 
 
 67 
 61 
 54 
 35 
 46 
 
 53 
 
 57 
 
 42 
 
 64 
 52 
 73 
 
 Deficiencies of irrigation supply 
 
 Average deficiency in irrigation 
 
 supply — Plate II 74 
 
 Delta lands of San Joaquin and 
 Sacramento valleys — Section 
 
 12 58 
 
 Desirable monthly distribution of 
 
 annual supply — Table 2 30, 31 
 
 Development of agricultural com- 
 munities 69 
 
 Development of irrigation 
 
 Sacramento Valley 62 
 
 San Joaquin Valley 48 
 
 Duty of water — 
 
 Antelope Valley and Mojave 
 
 River areas 29, 31, 39 
 
194 
 
 INDEX. 
 
 Delta lands of San Joatiuin 
 
 anil Sacramento valleys 29. 
 
 Imperial. Coachella and Palo 
 
 Verde valleys 29. 
 
 Inyo-Kern, Owens and Mono 
 
 valleys 29. 
 
 Lns Angeles area 29. 
 
 North coast area -29, 
 
 Northeastern mountain-valley 
 
 and plateau areas 29. 
 
 Sacramento Valley floor 29. 
 
 Salinas and contiguous val 
 
 leys 
 
 -29. 
 -29. 
 
 San Diego area 
 
 San Joaquin Valley floor 29, 
 
 Santa Barbara, Santa Maria 
 
 and San Luis Obispo areas— 29, 
 Santa Clara and adjacent val- 
 ley areas 2.. 
 
 Sierra foothills and rolling 
 plains east and south of San 
 
 .Toaquin Valley floor 29, 
 
 Sierra foothills and rolling 
 plains east and west of Sac- 
 ramento Valley floor 29. 
 
 Western slope of southern San 
 
 Joaquin Valley 29, 
 
 Duty of water for irrigation 
 
 Expansion of Agricultural In- 
 dustry — Plate I-_ 
 
 Page 1 
 
 31. 
 
 59 
 
 31, 
 
 38 
 
 31. 
 
 40 
 
 11 
 
 Si 
 66 
 
 31, 
 
 31, 
 
 67 
 
 31. 
 
 62 
 
 31 
 
 55 
 
 31 
 
 35 
 
 31 
 
 49 
 
 31 
 
 53 
 
 31 
 
 57 
 
 31 
 
 42 
 
 Page 
 Sierra foothills and rolling 
 plains east and south of San 
 
 Joaquin Valley floor 41 
 
 Sierra foothills and rolling 
 plains east and west of Sac- 
 ramento Valley floor 63 
 
 Western slope of southern San 
 
 Joaquin V<alley __ — 61 
 
 Irrigation i-equirements of agri- 
 cultural lands 21, 26, 29, 31 
 
 Irrigation use _--- 25, 31 
 
 Isohvetose map of California — 
 
 Plate IV IT 
 
 Land unsuited for agriculture 
 
 Los Angeles area — Section 1 
 
 Losses of water 
 
 31, 65 
 
 Frost-free period- 
 
 Gross duty of water 23, 27, 1 
 
 Illustrative climatological data 
 for agricultural lands — ^Ta- 
 ble 11 
 
 Illustrative climatology of agri- 
 cultural lands — Plate III 
 
 Imperial. Coachella and Palo 
 
 Verde valleys — Section 3 
 
 Imperial Valley areas 
 
 Index by sections and key let- 
 ters on map, Plate V— Ta- 
 ble 7 __ 
 
 Indices of wetness 
 
 Inyo-Kern, Owens and Mono 
 valleys — Section 5 
 
 Irrigated land — 
 
 Antelope Valley and Mojave 
 
 River areas 
 
 Delta lands of San Joaquin 
 
 and Sacramento valleys 
 
 Imperial. Coachella and Palo 
 
 Verde valleys — — 
 
 Inyo-Kern, Owens and Mono 
 
 valleys 
 
 Los Angeles area — 
 
 North coast area 
 
 Northeastern mountain-valley 
 
 and plateau areas 
 
 Sacramento Valley floor — — 
 
 Salinas and contiguous valleys- 
 
 San Diego area 
 
 San Joaquin Valley floor 
 
 Santa Barbara. Santa Maria 
 
 and San Luis Obispo areas — 
 Santa Clara and adjacent val- 
 ley areas 
 
 31 
 
 52 
 
 20 
 
 22 
 
 12 
 
 13 
 
 15 
 
 16 
 
 17. 
 
 170 
 
 30. 
 
 188 
 
 15 
 
 ,16 
 
 
 36 
 
 
 12 
 
 27, 
 
 102 
 
 
 18 
 
 39 
 
 38 
 
 58 
 
 36 
 
 39 
 32 
 65 
 
 66 
 60 
 54 
 
 34 
 43 
 
 52 
 
 55 
 
 Map of agricultural areas and 
 duty of water sections — 
 Plate V 
 
 Moisture requirements 
 
 Monthly irrigation demand 
 
 Monthly use of ajnnual irriga- 
 tion supply — Plate VII 
 
 Monthly use of water — 
 
 Antelope Valley and Mojave 
 
 River areas 
 
 Delta lands of San Joaquin 
 
 and Sacramento valleys 
 
 Imperial, Coachella and Palo 
 
 Verde valleys 
 
 Inyo-Kern, Owens and Mono 
 
 valleys 
 
 Los Angeles area 
 
 North coast area 
 
 Northeastern mountain-valley 
 
 and plateau areas 
 
 Sacramento Valley floor 
 
 Salinas and contiguous valleys- 
 
 San Diego area 
 
 San Joaquin Valley floor 
 
 Santa Barbara, Santa Maria 
 and San Luis Obispo areas — 
 Santa Clara and adjacent val- 
 ley areas — __ 
 
 Sierra foothills and rolling 
 plains east and south of San 
 
 Joaquin Valley floor 
 
 Sierra foothills and rolling 
 plains east and west of Sac- 
 ramento Valley floor 
 
 Western slope of southern San 
 
 Joaquin Valley 
 
 Mountainous area 
 
 70 
 32 
 21 
 
 11, 16 
 
 20, 24 
 
 24 
 
 30, 74 
 
 31, 39 
 
 31, 60 
 
 31, 3S 
 
 31, 41 
 31, 34 
 31, 66 
 
 31, 68 
 31, 63 
 31, 55 
 31, 35 
 31, 51 
 
 31, 53 
 
 31, 58 
 
 31, 43 
 
 31, 65 
 
 31, 52 
 11 
 
 Net area irrigated in large agri- 
 cultural districts 69, 
 
 Net duty of water 23, 26, 
 
 Net use of water as measured 
 and proposed on various sys- 
 tems — Plate VI — 
 
 North coast area — Section 15 
 
 Nortlieastern mountain-valley and 
 plateau areas — Section 16 
 
 Percolation losses — 21, 
 
 Plant requirements 20, 
 
 Portion of agricultural areas that 
 require a water supply — 
 
 Table 3 _- 
 
 Precipitation — 1^, 18, 
 
 22 
 21 
 
INDEX. 
 
 195 
 
 Page 
 Precipitation data used in con- 
 structing isohyetose map — 
 
 Table 4 -— IS- '?6 
 
 Precipitation stations used in con- 
 structing isohyetose map — 
 Table 5 — — IS. 8S 
 
 Rainfall — 
 
 Antelope Valley and Jlojave 
 
 River areas 28 
 
 Delta lands of San Joaquin and 
 
 Sacramento valleys 59 
 
 Imperial, Coachella and Palo 
 
 Verde valleys 37 
 
 Inyo-Kern, Owens and Mono 
 
 valleys *" 
 
 Los Angeles area 32 
 
 Xorth coast area 65 
 
 Xortheastern mountain-valley 
 
 and plateau areas — 67 
 
 Sacramento Valley floor 61 
 
 Salinas and contiguous valleys- . 54 
 
 San Diego area 34 
 
 San Joaquin Valley floor 45 
 
 Santa Barbara, Santa Maria 
 
 and San Luis Obispo areas — 53 
 Santa Clara and adjacent val- 
 ley areas 56 
 
 Sierra foothills and rolling 
 plains east and south of San 
 
 Joaquin Valley floor — 42 
 
 Sierra foothills and rolling 
 plains east and west of Sac- 
 ramento Valley floor 64 
 
 Western slope of southern San 
 
 Joaquin Valley 52 
 
 Rainfall of California- — __ 17, 18, 19 
 
 Requirements of plants 20 
 
 Rice irrigation 62 
 
 Sacramento and San Joaquin 
 
 Valley areas 11 
 
 Sacramento Vallev floor — Section 
 
 13 — 60 
 
 Salinas and contiguous valleys — 
 
 Section 10 54 
 
 San Diego area — Section 2 — — 34 
 
 San Joaquin Valley floor — Sec- 
 tion 7 43 
 
 Santa Barbara, Santa Maria and 
 San Luis Obispo areas — Sec- 
 tion 9 52 
 
 Santa Clara and adjacent valley 
 
 areas — Section 11 55 
 
 Seepage losses — — 21 
 
 Settlement of agricultural land — 69 
 
 Shortage of water in Sacramento 
 
 Valley ''^ 
 
 Sierra foothills and rolling plains 
 east and south of San Joa- 
 quin Valley floor — Section 6_ 41 
 
 Sierra foothills and rolling plains 
 east and west of Sacramento 
 Valley floor — Section 14 63 
 
 Soil moisture 21 
 
 Soils — 
 
 Antelope Valley and Mojave 
 
 River areas 38 
 
 Delta lands of San Joaquin and 
 
 Sacramento valleys 58 
 
 Page 
 
 Imperial. Coachella and Palo 
 
 Verde valleys 
 
 Inyo-Kern, Owens and Mono 
 
 valleys 
 
 Los Angeles area 
 
 Xorth coast area 
 
 Xortheastern mountain - valley 
 
 and plateau areas__ 
 
 Sacramento Valley floor 
 
 Salinas and contiguous valleys- 
 
 San Diego area 
 
 San Joaquin Valley floor 
 
 Santa Barbara, Santa Maria 
 and San Luis Obispo areas — 
 Santa Clara and adjacent val- 
 ley areas 
 
 Sierra foothills and rolling 
 plains east and south of San 
 
 Joaquin Valley floor 
 
 Sierra foothills and rolling 
 plains east and west of Sac- 
 ramento Valley floor 
 
 Western slope of southern San 
 
 Joaquin Valley 51 
 
 Summary' of use and duty of wa- 
 ter—Table 10— 28. 184 
 
 36 
 
 40 
 33 
 65 
 
 67 
 61 
 54 
 34 
 
 44 
 
 55 
 
 41 
 
 64 
 
 Transportation — 
 
 -\ntelope Valley and Mojave 
 
 River areas 
 
 Delta lands of San Joaquin 
 
 and Sacramento valleys 
 
 Imperial, Coachella and Pa'.o 
 
 Verde valleys — 
 
 Inyo-Kern. Owens and Mono 
 
 valleys 
 
 Los -Angeles area 
 
 Xorth coast area 
 
 Xortheastern mountain-valley 
 
 and plateau areas 
 
 Sacramento Valley floor 
 
 Salinas and contiguous val- 
 leys 
 
 San Diego area 
 
 San Joaquin Valley floor 
 
 Santa Clara and adjacent val- 
 ley areas 
 
 Sierra foothills and rolling 
 plains east and south of San 
 
 Joaquin Valley floor 
 
 Sierra foothills and rolling 
 plains east and west of Sac- 
 
 rameT:to Valley floor 
 
 TTestern slope of southern San 
 Joaquin Valley 
 
 39 
 59 
 
 40 
 33 
 66 
 
 67 
 61 
 
 54 
 35 
 46 
 
 56 
 
 42 
 
 64 
 
 Underground waters — 
 
 Antelope Valley and Mojave 
 
 River areas 
 
 Inyo-Kern Valley 
 
 Los Angeles area 
 
 Salinas and contiguous valleys. 
 
 San Joaquin Valley 
 
 Santa Clara and adjacent val- 
 leys 
 
 Western slope of the southern 
 
 San Joaquin Valley 
 
 Use of irrigation water 25. 31. 11 
 
 Use of water as measured on var- 
 ious sj'Stems — Table 8 26, 117 
 
 Use of water as proposed for 
 
 various localities — Table 9— 28, 170 
 
 52 
 .170 
 
196 
 
 INDEX. 
 
 Page 
 Waterlogging of irrigated lands 
 
 Imperial and Palo Verde valleys 36 
 
 San Joaquin Valley 47 
 
 Water requirements 20, 24, 70 
 
 Water Supply — 
 
 Antelope Valley and Mojave 
 
 River areas 38 
 
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 Sacramento valleys 59 
 
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 Sacramento Valley floor 62 
 
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 San Joaquin Valley floor 43. 46 
 
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 SAN DIEGO AREA. MEXICAN BOUNDARY TO SAN JACINTO AND YUCAIPA 
 
 (A) (B) C) (6) 
 
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 SIERRA FOOTHILLS AND ROLLING PLAINS EAST 
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 SECTION 7 
 SAN JOAQUIN VALLEY FLOOR 
 
 WEST SLC 
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 CLARKSBURG ISLETON HOLT 
 
 ^J 
 
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 SECTION 12 
 
 DELTA LANDS OF SAN JOAQUIN 
 
 AND SACRAMENTO RIVERS 
 
 REDDING TEHAMA VINA 
 
 ORLAND WILLOWS GRIDLEY MARYSVILLE CHICO 
 
 WILLOWS 
 
 COLUSA MARYSVILLE 
 
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 SECTION 13 
 SACRAMENTO VALLEY FLOOR 
 
 MAXWELL 
 
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 SECTION 8 
 
 WEST SLOPE OF SOUTHERN 
 
 SAN JOAQUIN VALLEY 
 
 S.MARIA 
 
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 SECTION 9 
 
 
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 SALINAS 
 
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 SECTION 11 
 
 SANTA CLARA AND ADJACENT 
 
 VALLEY AREAS 
 
 NEARBY TOWN: SHOWS APPROXIMATE LOCALITY 1 
 
 
 
 
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 AVERAGE NET MEASURED USECOMPUTED, WEIGHTING EACH USE BY THE ACREAGE IT REPRESENTS 
 
 NET USE OF WATER 
 
 AS MEASURED AND PROPOSED 
 
 ON VARIOUS SYSTEMS 
 
 STATE DEPARTMENT OF PUBLIC WORKS 
 
 DIVISION OF ENGINEERING AND IRRIGATION 
 
 CAUFORNIA WATER RESOURCES INVESTIGATION 
 
 LEGEND 
 
 .INDA PARADISE OROVILLE HONCUT NEVADA CITY MARYSVILLE AUBURN PLACERVILLE ' FAIROAKS FOLSOM | 
 
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 SECTION 14 
 SIERRA FOOTHILLS AND ROLLING PLAINS EAST AND WEST OF SACRAMENTO VALLEY FLOOR 
 
 NAPA 
 
 ®(B)© 
 
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 SECTION 15 
 
 NORTH COAST 
 
 AREAS 
 
 
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 ECTION 16 
 NORTHEASTERN MOUNTAN VALLEY AND PLATEAU AREAS 
 
 
Plate VII 
 
 FEB MAR APR 
 
 JUL. AUG SEP OCT I NOV DEC 
 
 LrfTlTrrw 
 
 SECTION 1 
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 mw. 
 
 SECTION 6 
 
 SIERRA FOOTHILLS AND ROLLING PLAINS EAST AND 
 
 SOUTH OF SAN JOAQUIN VALLEY FLOOR 
 
 30 
 
 25 
 
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 SECTION 11 
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 30 
 
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 SECTION 16 
 
 NORTHEASTERN MOUNTAIN VALLEY 
 
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 S 20 
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 JUL, AUG I SEP OCT NOW OEC 
 
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 SECTION 2 
 
 SAN DIEGO AREA. MEXICAN BOUNDARY TO 
 
 SAN JACINTO AND YUCAIPA 
 
 30 
 
 25 
 
 S 20 
 
 Q. 
 
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 JAN FEB MAR AP« MA, .UN ,U. 
 
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 SECTION 12 
 
 DELTA LANDS OF SAN JOAQUIN AND 
 
 SACRAMENTO RIVERS 
 
 
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 D.C 
 
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 SECTION 13 
 SACRAMENTO VALLEY FLOOR 
 
 LEGEND 
 
 J_ Weighted average measured monthly use. 
 
 Average proposed monthly use. 
 
 ZZI Desirable monthly use. 
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 30 
 
 25 
 
 S SO 
 
 
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 NOV OEC 
 
 
 
 
 
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 SECTION 9 
 
 SANTA BARBARA. SANTA MARIA AND 
 
 SAN LUIS OBISPO AREAS 
 
 
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 25 
 
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 SECTION 14 
 
 SIERRA FOOTHILLS AND ROLLING PLAINS EAST 
 
 AND WEST OF SACRAMENTO VALLEY FLOOR 
 
 30 
 
 25 
 
 1- 
 
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 OCT 
 
 NOV oec 
 
 
 
 
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 SECTION 5 
 OWENS AND OTHER EAST SIERRA VALLEYS 
 
 
 .:, r„ „.» .„ ^,., ,„« ,„, .„s SE, 
 
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 >.,» .,» «., J„M ,U, .UC S.P OCT „. D.C 
 
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 SECTION 15 
 NORTH COAST AREAS 
 
 MONTHLY USE 
 
 OF 
 
 ANNUAL IRRIGATION SUPPLY 
 
 STATE DEPARTMENT OF PUBLIC WORKS 
 
 DIVISION OF ENGINEERING AND IRRIGATION 
 
 CALIFORNIA W/ATER RESOURCES INVESTIGATION 
 
 CHAPTER 889 1921 STATUTES