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 1 
 
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w 
 
 THE CURRENTS 
 
 IN THE 
 
 ■<*> 
 
 GULF OF St. LAWKEN'OE 
 
 INCLUDING THE 
 
 ANTIC08TI REGIOxN iiELLE ISLE xVND CABOT STRAITS 
 
 CONDENSED FIK >]M THE REPORTS OF THE SURVEY OF TIDES AND 
 CURRENTS, FOR THE SEASONS OF 189t, 1895 AND 1896 
 
 PuhU.f]i''d hy order of the Mini'ft'rr of Marine and Fisheries 
 
 
 O T T A W A 
 
 GOVERNMKNT I'R1NTIX« BIBEAU 
 IPOC 
 
C f t "" cjcJ i^ 
 
 Of/j7 .:-/ ^'iclrihP r. ^^ 
 
 I / '^Z <*»•'-« C 
 
 PREFACE. 
 
 Tlie information herein contained, is derived from investigations in the Gulf of 
 St. Lawrence, by the Survey of Tides and Currents, of the Department of Marine and 
 Fisheries of the Dominion of Canada. The investigations were made by Mr. W. Bell 
 Dawson, C.E., in charge of the Survey, during the summer months of 1894, 1895, and 
 1896 : and they are supplemented by information collected personally by him, from 
 captains of vessels, fishermen and others, having a long e.xperience in the Gulf. 
 
 In the investigations, a steamer was employed. It was anchored in positions care- 
 fully selected for the purpose in view. These were in all depths, up to 250 fathoms. 
 The steamer thus served as a fixed point from which to observe the behaviour of the 
 current. The observations of the current, and of the force and direction of the wind, 
 were continuous day and night. For the methods and appliances employed in measur- 
 ing and tracing the currents, .se3 reports of the Tidal Survey for the above years. 
 
 The examination of the currents was made chiefly along the lines of the leading 
 steamship routes which traverse the Gulf. The speed of the current was measured, in 
 all cases, at a depth of 18 feet. The directions given are magnetic throughout. The 
 varation is from 26'" to 35° westerly. 
 
 A continuous record of the tide itself was obtained simultaneously for comparsion 
 with the currents, at tidal stations in the region, established by this Survey. Observa- 
 tions of wind and barometer were also secured at the permanent Meteorological stations. 
 
 The following arrangment of the information has been adopted : — 
 
 Part I. — Description of the currents on the surface, as a mariner may expect to 
 find them in each locality. 
 
 Part II. — The causes, as far as ascertained, which influence the currents in moving 
 as they do ; and the general circulation of the water in the Gulf of St. Lawrence. 
 
 This second part is also of value to mariners, in showing the usual direction in 
 whicli the water tejids to move, when undisturbed. 
 
r<;oi ^ /9^^ <- "i^Z^ 
 
 GEX EllAL 1 ) ES( IM PTIOX 
 
 OF 
 
 THE GULF AND RIVER 8T. LAWRENCE. 
 
 From Montreal at the liead of ocean navigation, to Quebec, may be termed the St. 
 Lawrence River ; and from Quebec to Point de ^ionts, the Lower St. Lawrence. The 
 Gulf of St. Lawrence thence extends to Cabot Strait, between Cape Breton Island 
 and Newfoundland. It opens into the ocean by this strait, which has a width of G5 
 miles and a depth of 250 fathomu ; and by ,Bello Isle Strait which has a width of 11 
 miles and a depth of 30 fathoms. 
 
 The area of the Gulf is traversed by a deep channel which runs from the mouth 
 of the St. Lawrence past the Gaspe coast, and crossing the open Gulf to the north of the 
 Magdalen Islands, passes out through Cabot Strait. Thence it continues south-eastward, 
 dividing St. Pierre bank on the north from Baniiuereau and Misaine bank on the south, 
 till it reaches the edge of the deep Atlantic basin. A branch from this channel also 
 runs for some distance into the north-eastern arm of the Gulf, towards Belle Isle. 
 
 The depth of this channel increases from 150 fathoms at the mouth of the 8t. 
 Lawrence to 250 fathoms in Cabot Strait. It forms the main avenue by which the 
 tides of the Atlantic enter the Gulf and travel across it to the mouth of the St. Lawren?e ; 
 whence they continue with ever increasing height to 'Quebec. Above Quebec the tide 
 is still felt as far as Three Rivers. 
 
PART I. 
 
 NATURE OF THE CURRENTS IN THE GULF AREA. 
 
 General Character. — These currents are of two kinds ; (1) Constant currents which 
 run more or less continuously in accordance with the general circulation of the water in 
 the Gulf area ; and (2) Tidal currents, which are produced or chiefly influenced by the 
 tide. Both classes of currents are affected by the wind ; the prevailing direction of the 
 wind being west and south-west in summer, and north-west in winter. 
 
 Speed. — With the exception of the currents in the various straits and near the 
 heads of the bays, .le currents met with in the open Gulf seldom exceed one knot per 
 hour. They are therefore the more easily influenced by strong winds, especially at 
 the surface of the water. Currents which have a greater speed than this, are found in 
 Belle Isle and Cabot Straits, in Northumberland Strait, off the Gapse coast, in the Gut 
 of Causo, and locally in channels between islands and at the mouths of rivers. 
 
 Water. — The water of the Gulf may be roughly divided by a line running from 
 South-west Point of Anticosti, to the middle of Cabot Strait. Along the south-western 
 side of tliis line, the water has a lower density ; as it is apparently made a little fresher 
 by the outflow of tiie St. Lawrence River. To the north-east of this line, throughout the 
 north-eastorn arm of the Gulf, the water has the same density, or saltness, as in the 
 open Atlantic. 
 
 Constant currents. — The general drift of this water of lower density is outward, 
 towards the Atlantic. This gives rise to two constant currents, one at the mouth of 
 the St. Lawrence along the Gaape coast, which may be called the ' <^"i( soe Current,' and 
 the other on the west side of Cabot Strait around Cape North, whicii Mi^y be called the 
 ' Cape Breton Current.' .V third constant current is found on the west side of New- 
 foundland, making noith-eastward from the Bay of Islands towards Rich Point. 
 
 It is to be noted that in calling these currents constant, it is only meant that they 
 usually or most frequently run in the one direction. During certain winds, they may 
 be much disturbed, or their flow may be checked, as will be seen when their behaviour 
 is more fully explained. 
 
 Tidal currents. — The strongest of the tidal currents are found on the Lower St. 
 Lawrence, whero in places they attain a speed of five or .six knots per hour. Also, the 
 tidal current in the Gut of Canso runs at four knots ; and in the narrowest part of 
 Northumberland Strait, off Cape Jourmain, at three knots per hour. The currents in 
 these localities have not been examined by this Survey, however. 
 
 The tide has a distinct influence upon nearly all the currents in the Gulf area. It 
 may cause a variation in speed when the current runs in one direction, or the direction 
 of the current may veer with more or less regularity in accordance with the tide. The 
 effect of the tide in these respects will be explained when the various localities arn 
 described. 
 
 5 
 
 /Xe^-yh3 
 
8 DEPAnr.MKXT OF MA RINK AND FISIIKIUICS. 
 
 THE GASPE CUHHENT. 
 
 The following description of the behaviour of tliis current, refers chiefly to tlio region 
 extending from Fame Point to Cape Gaspe ; as it is there that veHuols make and leave the 
 Gaspe coast on all the trans-Atlantic and Gulf routes which lead into the 8t. Lawrence. 
 It is based upon investigations in July and September, in 1805. 
 
 The usual current. — While ordinary weather prevails, the current in the otling uf 
 the Gaspe coast runs constantly outwards to the 8.E. and S.S.E. (magnetic), ft usually 
 occupies a belt of about 12 miles in width lying from 2 to 14 miles offshore, in the 
 vicinity of Fame Point. This belt appears to become narrower and the current stronieer 
 towards Cape Rosier ; and between it and the shore there is a tidal current in both 
 directions, as shown on the Admiralty Chart No. 1621, entitled ' Entrance to the 8t. 
 Lawrence.' In passing Cape Gasp^ it keeps closer to the shore, cutting ofif the inshore 
 tide, and its direction there varies from S.S.E. to S.S.W. This current past Cape (.4aspe 
 was found to be constant during very varying conditions of the current elsewhere. The 
 speed of the current usually ranges from one to two knots ; the highest observed being 
 2 "81 knots per hour. 
 
 Displacement of the current. — The main current setting south-east, was found at 
 times to lie in the middle of the passage between the Gaspe coast and Anticosti ; and 
 to have approximately the position shown by the line along the middle of the passage 
 marked 'Constant Current' on Admiralty Charts Nos. 2516 and 1621. The current 
 does not appear to be felt on the Anticosti side, however. 
 
 When the current is in this position, the area between it and the Gaspe coast may 
 be occupied by weak and fluctuating currents, or even by a reverse current setting* 
 inwards. This position of the current in the middle of the passage may therefore be 
 regarded as a displacement of the current, or an alternative route which it may take. 
 
 Reversal of the current. — A reverse current may set inwards to the north-west along 
 the Gaspe coast at times when the main current takes the above route along the middle 
 of the passage. Such a current, in the offing of Fame Point, may occupy a belt lying 
 between 2 miles and 12 miles from shore, and may run constantly to the north-west for 
 as much as six days, with a speed which ranges from O'oO to 1*40 knots per hour. This 
 reverse current may thus occupy the site of the usual outward current along the (nispe 
 coast ; but while this takes place, the current past Cape Gaspe still runs .southward, 
 and its direction will probably be a little west of south. 
 
 Off and on-shore directions of the current. — It is possible for the current wiiile 
 undergoing the above changes, to veer in direction, and thus to set directly ofi or on 
 shore for a few hours at a time. 
 
 Tidal injluence, — When the current runs constantly in one direction, whatever 
 position it may take, and whether it runs with its usual outward direction or is reversed, 
 it is always subject to a fluctuation in speed which corresponds with the tide. When the 
 current has its usual south-eastward direction, or outwards from the St. Lawrence to 
 the Gulf, it is strongest at low water and weakest at high water ; but when the current 
 runs inwards the reverse is the case. 
 
CUllRKXTS IV THE (lUl.F OF ST. LAWREXCK. 
 
 In/luenca of the wind. — It, ivppears probable that tlio chief reason that the current 
 keeps alorn; the Oaspo coast is bocauso the prevailing winds on the Lower St. fjuwreiice 
 are towarrls the Kouth-east side. Wlion the winds are north-westerly in the Oaspe 
 region also, thi^y assist in keeping the current along that shore, and tend to increase its 
 speed. On the other hand the current appears to be kept away from the coast, and to 
 be most disturbed when the winds are from the southward of west (magnetic) on the 
 Lov^er St. Lawrence, and at the same time south or south-east in tlie Gaspi' region. The 
 winds then blow in upon both ends of tlie waterway which forms the entrance to the 
 St. Lawrence, and they Iiavc an olV-shoro direction along that part of the coast which the 
 (Jaspe current usually follows. The winds can only have the above directions in tiiese 
 regions, when a low pressure area or storm-centre is travelling along a course wiiich lies 
 to the northward of the St. Lawrence valley. 
 
 This northern course for an area of low pressure is less frotjuent ; as the usual path 
 of storms lies to the south of the St. Lawrence valley, or along the Atlantic sea-board. 
 The conditions above indicated are therefore unusual ; and if the ilisplacenient and 
 reversal of the Gaspe current are dependent upon them, it is clearly correct to consider 
 these conditions of the current itself as exceptional. 
 
 It may therefore be .said in general, that vessels may expect to find the usual out- 
 ward current, setting south-east along the Gaspe coast, uidess they have reason to infer 
 froui the weather they meet with, that a low pressure area or storm-centre is passing to 
 the northward. This would proiiably be accompanied by winds to the southward of 
 west along the Lower St. Lawrence ; and southerly winds with a falling or low baro- 
 meter at the entrance to the St. Lawrence .south of Anticosti. The condition of the 
 current will then be disturbed ; and its course altered, or its direction reversed, as above 
 explained. 
 
 Vessels making inwards, especially if the weather is foggy, must not count too 
 definitely however, on the absence of the outward current as an assistance in rounding 
 the Gaspe coast; as under these disturbed conditions, there are times when the current 
 may be setting more or less on shore. 
 
 2Vie current at other scasoiin. — The following description of the current is given by 
 two fisliermen who have lived for many years at Cape Gaspe, and have noticed the set 
 of the currents while fishing oft" the Gaspe Coast and around Anticosti. They have also 
 excellent opportunity during the winter to judge of the curient from the movement of 
 the ice off Cape Gaspe itself ; as their point of view on Cape (iaspe is nearly GOO feet 
 above the water. They state that the in-shore tidal current which runs up and down on 
 this coast is seldom more than one mile or one and a half miles wide. Outside of this, 
 the ice runs constantly outwards all winter, and no open water is visible. This continues 
 as long as the wind is north or north-west, which is its prevailing direction in winter ; 
 but when the wind changes to south or south-west, the ice leaves the shore, and makes 
 open water as far out as can be seen. There is no change in the speed of the ice towards 
 spring ; but the fresh water ice which then begins to appear is quite different from the 
 winter ice and can be readily recognized. The current, however, is stronger in the spring 
 of the year than in the autumn. 
 
 They believe that the current circles round, running outwards on the Gaspe side 
 and inwards on the Anticosti side ; and that it is assisted in turning by the set in 
 Mingau Strait, which they consider to make inwards more than outwards. 
 
DSPARTMENT OF MAPIXE AND FlSIIEItlE^. 
 
 CUURENTH IN CA1K)T STRAIT. 
 
 (I.) Cape Brkton Current. — On the west side of this Strnit for a widtlj of some 
 20 miles from Capo North, there in a constant current (lowing to the south-east. This 
 is the most constant in one direction, in any part of the Uulf ; as it is rarely chocked 
 under any conditions that occur. It is known, however, to be checked or reversed for 
 a few days at a time by heavy south-easterly winds. 
 
 Direction, speed, and ividth. — The most usual or dominant direction of this current 
 is between south and south-east (magnetic). Its speed is greatest near to Cape North, 
 wliere it may be as much as two knots per hour. The width of the water flowing in the 
 south-eastward direction, lias been found to extend for twelve miles or more to the east 
 of St. Paul Island. 
 
 Further out, in the middle of the Sti-ait, the current was found to be very variable 
 in direction, and usually weak. 
 
 The behaviour of the Cape Breton current in the sunmior season, from a number of 
 observations made in the months of August and September, is as follows : — At an 
 anchorage 9 miles S. K. from Cape North, in the middle of the width of the current 
 passing between that Cape and St. Paul Island, the speed was found to range usually 
 from J knot to 1 \ knots per hour. After a strong north-westerly wind, which blew 
 continuously for forty-eight hours with an average \elocity of 24 miles an hour, the 
 current here reached a speed of 2'25 knots. This is probably as high a speed as it ever 
 attains at this distance from shore. 
 
 At an anchorage 10 miles N. E. from St. Paul Island, the speed was found to 
 vary from a little over \ knot to fully H knots per hour. 
 
 Its direction at both the above points, was found to veer during the course of the 
 day, from south-east to south-west and back to south-east. The regularity in the time 
 of this change in direction makes it probable that it is tidal in its nature ; but the 
 observations were not continued long enough to establish any definite relation with the 
 rise and fall of the tide, as recorded by the tide gauge on St. Paul Island. The 
 greater speed of the current seems to occur during the fall of the tide, however. 
 
 Drift of ice. — The Cape Breton current carries out much (lulf ice in the early 
 spiing ; and this serves to afiford an indication of its direction. INIany vessels are then 
 engaged in sealing among it, and their masters are thus able to furnish reliable inform- 
 ation. They state that from the northern end of the Magdalen Islands to Cape North 
 the current although it may fluctuate, makes on the whole to the .south-east. Vessels 
 caught in the ice will drift outwards past Cape North, sometimes as far as the oHing of 
 St. Pierre Island. 
 
 There is reason to believe that this current is no stronger in the spring than at 
 other seasons ; although this is sometimes asserted. 
 
 This current continues to be felt along the sweep of the north-eastern coast of 
 Cape Breton Island, sometimes as far as Scatari, before it mingles with the water of the 
 Atlantic. 
 
 (II.) CuRiiENT OFF Cape Ray, — On the eastern side of Cabot Strait, there is usually 
 a movement of the water to the north-west, or inwards towards the Gulf. This is a 
 continuation of a general set westward, which is felt along the south coast of Newfound- 
 land, between St. Pierre Island and Cape Ray. 
 
CURliENTS IX Tilt: GULF OF ST. LA WHUNCE. 
 
 DSrH'tion, gpfitd and ividth. — In steady weather, a current in this inward direction 
 w felt for a width of 10 or 15 miles from Capo Hay, or even further. 
 
 In the month of August, ut an anchorage 13 milen weat of tiiiti Ca|)e, the speed whh 
 found to range from J knot to nearly IJ knots per hour. The direction varied 
 between west and north ; the dominant direction Iteing north -west. The change in 
 direction was less regular in time than on the other side of Cabot Strait ; and no 
 relation to the rise and fall of the tide could be made out. 
 
 Diat)irhani'i' : and drift of ke. — There is evidence to show that this current is by 
 no means constantly inwards. As, however, the water off the south coast of Newfound- 
 land usually remains open and free from drift ice throughout the winter, this is in 
 itself an indication that the general movement is westward ; as the Atlantic water 
 must then be warmer than the Gulf water. It is also stated that icebergs off St. Pierre 
 Island will make westward, even against a north-west wind. 
 
 Whon there is ice in the spring season in the offing of St. George's Hay and off 
 Cape Hay, the evidence goes to show that it comes from the opposite direction, with 
 the general drift which make.« across the Gulf from Gaspt- towards Calwt Strait, and at 
 times when this current or a branch of it, is driven further to the eastward than usual. 
 It is apparently in this way that the outward drift of ice on the Cape Ray side is to 
 be explained, as this undoubtedly occurs in the early spring of some years at least, and 
 when certain winds prevail. The Sailing Directions remark that in changeable 
 weather, vessels can reach as far north as Lark Harbour in the Bay of Islands, in any 
 month ; as it is only strong westerly winds which bind the ice in on the coast, and it soon 
 clears away. The ice is thus brought there under conditions which make it an indic- 
 ation of disturbance in the current, as otherwise the water would remain open. 
 
 WEST COAST OF NEWFOUNDLAND. 
 
 In general, from Cape St. George to Rich Point, the movement of the water is 
 north-eastward along this coast. Even when the current on the surface is checked, 
 the under-current continues in this direction. It is thus evident that this is the normal 
 direction of the current, when undisturbed. 
 
 The constant current. — From the Bay of Islands to Rich Point, the current is the 
 most distinct and persistent ; and it may there be termed constant. It is stated by 
 two navigating lieutenants of cruisers of the North American squadron, who have had 
 from two to three years experience on this coast, that the current in the summer 
 season is always north-eastward when it is felt at all ; and that it usually amounts to 
 one knot. It is only intercepted by the flood and ebb tides running in and out of the 
 larger bays on the coast. 
 
 The fishermen on this coast anchor their boats as much as 10 or 12 miles off 
 shore, in about 30 fathoms of water. They have thus an excellent opportunity of 
 ob.servin<{ the behaviour of the current. They state that its prevalent direction 
 is to the E. N. E. parallel with the shore ; it will run constantly in that direction for 
 three or four days together ; and on the whole it has that direction for rather more 
 than two-thirds of the time. 
 
 The current is stronger near the shore and weaker further out. It is found 
 accordingly that a schooner going south-west will make better headway with long 
 tacks ; but if going north-east, with short tacks inshore. 
 2 
 
10 
 
 DEPARTMENT OF MARINE AND FISHERIES. 
 
 Behaviour of the current as observed. — The speed and direction of this current 
 was observed in September at an anchorage opposite the straight shore, where it woul 
 be unaffected by local influences. The point selected was 12 miles off" Cow Head, 
 which is 20 miles northeast from the mouth of Bonne Bay. The current was found 
 to set almost always to the north-east, and very seldom veered in direction through a 
 wider range than from N. N. W. to E. The speed is greatest while the current has its 
 dominant direction to the E. N. E., but it was not found to exceed one knot per hour. 
 
 The current while thus veering in direction, may set directly off shore ; and it may 
 also set on shore for three or four hours at a time. When setting on shore, the speed 
 was little over i knot per hour, at the offing of 12 miles, above mentioned. 
 
 Di-i/t of i'',e. — Flat ice of about six feet in thickness, appears off Bonne Bay in 
 January or February, and remains till the early spring. The movement of this ice 
 serves to indicate the usual direction of the current on this coast ; as it drifts north- 
 eastward in one da)' as far as it drifts south-westward in three days, witii the same 
 amount of wind one way or the other. A schooner caught in the ice off Cape St. 
 George at the end of March, drifted along the coast as far as St. Barbe in about ten 
 days, a distance of 190 miles ; which gives on the average the ordinary rate of about 
 one knot. 
 
 In/lueiire of the wind. — For 12 to 20 hours before the arrival of a south-westerly 
 gale, the current sets more strongly in its usual direction. Before a north-easterly 
 gale arrives, it slacks ; although it may also become slack at other times. With long 
 continued easterly winds it may be reversed in direction. 
 
 STRAIT OF BELLE ISLE 
 
 The current in this Strait is predominantly tidal in its character. When undis- 
 turbed by wind, the current runs east and west for a length of time which is nearly 
 equal in each direction, and turns regularly in correspondence with the rise and fall of 
 the tide. On the whole there appears to be a small balance or difference of flow in 
 favour of the inward direction to the west. 
 
 Supposed huvard Jloic. — There has been a wide-spread impression that the current 
 in Belle Isle Strait ran constantly inwards, towards the Gulf of St. Lawrence. This 
 inward current was supposed to be branch from the general Arctic current which runs 
 southward along the outer coast of Labrador and Newfoundland. Such a current is 
 still shown on some physical maps, as running in through Belle Isle Sti-ait and finding 
 its way out again through Cabot Strait into the Atlantic. 
 
 As this belief is unfounded, it is evidently very niisleaciing to shipping. 
 
 As long ago as 18r)4 the true tidal character of the current in Belle Isle Strait was 
 described in a report by Mr. M. H. Warren, addressed to the Colonial Secretiiry of 
 Newfoundland. ]Mr. Warren had been more than twenty times through the Strait in 
 sailing ves 'els, and thrice in a steam sloop : and as Superintendent of Fisheries for the 
 Newfoundland Government, he had spent the months of July and August of the pre- 
 vious season cruising in the Strait, and had anchored several times in every harbour 
 and also rowed in a boat from harbour to harbour. He was accordingly re(iueHted to 
 report on the navigation of the Strait, and in the course of his report he says : — " The 
 
CUHIiENTS IX THE GULP OF ST. LA WHENCE. 
 
 11 
 
 it) 
 
 tides in the Strait of Belle Isle are generally regular, flowing east and west ; on the 
 rising tide setting to the westward, on the falling tide to the eastward, alternately every 
 six hours. When the wind prevails east or west several days, it influences the tides. 
 Sometimes with a prevalence of east or west winds, on the change of the tide there is 
 merely slack water." 
 
 On the Admiralty Chart the following remark is made : — " The movements of the 
 water in Belle Isle Strait are made up of a general westerly set affected by tidal streams 
 and winds. The resulting set may be in either direction." This remark gives little 
 countenance to the theory of a constant inward flow ; and is in itself sufliciently non- 
 committal to cover almost any conditions. 
 
 (I.)— Character of the Current at the narrowest part of the Strait. — In July 
 and September, 181)4, the current was e.Kamined at anchorages seven miles eastward of 
 Amour Point, where it is free from tide rips and local influences, and where the width 
 is only 11 miles. The following summaiy describes its character : — 
 
 The current is fundamentally tidal in its nature. In moderate weather and during 
 the prevalence of moderate westerly winds, it runs east and west with nearly the same 
 strength. It attains at times a speed of two knots per hour in each direction. 
 
 During heavy and long continued wind, especially when easterly or westerly in the 
 direction of the Strait, the tidal current which runs with the wind becomes stronger 
 than the current against it ; and eventually the current may become continuous in the 
 same direction as tlie wind. It will still have a fluctuation in speed which corresponds 
 with the tide. 
 
 While the surface current is thus affected by the wind, the under-current from 
 five or ten fathoms downwards, will maintain its tidal flow for some time longer. This 
 assists the surface current in regaining its tidal character when the wind falls. 
 
 The greatest speed of the current during heavy winds, at that season, was as 
 follows: — Inwards to the west, 3.15 knots; and outwards to the east, 2".jO knots per 
 hour. 
 
 As regards the tw-o sides of the Strait, there is on the whole a tendency on the 
 south side to greater tidal regularity ; and on the north side to greater persistency of 
 flow in one direction or the other. This is probably due to the greater depth or body 
 of water on the north side. 
 
 Under-current. — In moderate weather, during the westward set of the current, the 
 under-current was usually stronger than the surface current, by 5 per cent on the aver- 
 age; and during the eastward set, it was always weaker than the surface current, being 
 only 70 per cent as strong on the average. Hence as regards the body of water from 
 surface to bottom, the difference on the whole is in favour of a greater inward flow to 
 the west. This is especially true on the north side of the Strait. 
 
 Current and tide. — During moderate weather, while the current ran with the 
 greatest tidal regularity, the relation between these was as follows, in the central part 
 of the Strait : — The flood setting westward, would either stop at high tide, or would 
 continue to flow for some time longer ; its greatest continuance being 2h. 35m. after 
 the time of high water. 
 
 The ebb setting eastward, continued in that direction for a length of time varying 
 from 40 minutes to 2h. 55m. after low water. 
 
12 
 
 DEPARTMENT OF MARINE AND FISHERIES. 
 
 These variations between the turn of the current and the time of high and low 
 water, were partly due to irregularity in the tides themselves at the time. On the 
 average from twenty-eight observations, the turn of the current occurred at Ih. 45m. 
 after high water, and at the same length of time tafter low water. 
 
 Such a relation it is important to obtain correctly. When the tide record itself, 
 now being obtained from the tide gauge at Forteau Bay, becomes sufficient for the 
 calculation of tide tables, it will enable the turn of the current, while undisturbed by 
 wind, to be known from the time of the tide. 
 
 Drift of icebergs in relation, to the current and tide. — The iceViergs which are 
 carried in through the Strait by the inward flow, less frequently return with the current 
 in the other direction ; as most of them ground or break up and melt in the Gulf. This 
 probably accounts for the idea of a constant inward flo^/ ; as this is made visible by the 
 bergs, whereas the outward flow may not be so. 
 
 In moderate weather, icebergs while drifting up and down the Strait, may make 
 inwards on the whole ; as there is some balance of How in favour of the westward 
 direction, especially in the under-current ; and their motion necessarily depends on the 
 movement of the body of the water as a whole. 
 
 As the size of the icebergs which enter the Strait is only limited by the depth of 
 the water, many of them ground at low tide. Also, as the tidal current over-runs the time 
 of high and low water, it is easily seen that the draught available for an iceberg is 
 greater on the average during the period of westward current, than during the eastward 
 current, outwards. Although the rise of the tide is only five feet, the bergs may thus 
 pass over shoals or ridges on the bottom, in the one direction but not in the other ; 
 which also tends to favour their inward movement. 
 
 When the current is predominantly westward for a time, icebergs come in with it, 
 if they are then numerous at the outer end of the Strait ; but when the current is pre- 
 dominantly eastward, the Strait is likely to be free from floating bergs. 
 
 The presence of icebergs in the Strait cannot be depended upon however, as a 
 reliable indication of the direction of the current at the time. It must rather be taken 
 as showing the prevalent or average flow during the day or twcj preceding. Some 
 inference may be based upon this, when compared with the direction and force of recent 
 winds. 
 
 Water temperature. — The temperature of the water in the Strait does not aflford any 
 definite indication, either of the direction of the current or of the proximity of ice. This 
 conclusion is based upon a large number of observations, from surface to bottom, and 
 under varying conditions of the current. 
 
 Caution. — From the above characteristics of the current in Belle Isle Strait, it is 
 clearly possible for a vessel to over-run its reckoning in either direction through the 
 Strait. Also, vessels entering through the Strait should not assume that the current 
 is necessarily in their favour in making the run westward to Anticosti ; as it is possible 
 that the set in the Strait itself and also in the eastern end of the Gulf, may be against 
 them. 
 
 The current at other seasons. — In the spring and late in the autumn, the wind dis- 
 turbance is greater ; and the current in the Strait may consequently be more persistent 
 n one direction or the other, than in the summer. 
 
 <^ 
 
CUHRENTS IX THE GULF OF ST. LA WRENCE. 
 
 13 
 
 •i) 
 
 Reliable information as to the current at these seasons was obtained from two 
 masters of schooners, who have had many years' experience in the Gulf ; one of them for 
 the last thirty years having made three trips each season in his schooner, sealing in the 
 ice in the spring, cod-fishing in the summer, and herring-fishing in the autumn. In 
 their experience, although the current in the Strait does turn, it runs longer and stronger 
 eastwards than westwards ; and thus makes outwards on the whole, even when the winds 
 are easterly. On the other hand, they know that seals on the ice may be carried 
 inwards through the Strait into the Gulf, during heavy north easterly winds. 
 
 The following information is furnished by Mr. T. AI. Wyatt, who has been light- 
 keeper at Amour Point for 1 "» years, and also keeps a record of the wind ; and by Mr. 
 Charles Davis, resident at Forteau Bay and engaged in fishing in the Strait, In the 
 spring of the year, the prevailing winds are easterly, and accordingly the current runs 
 continuously inwards, and only slacks with the tide without turning. The duration of 
 this westward current varies from year to year, but usually continues for one or two 
 months in the interval between the beginning of April and the end of June. A strong 
 west or north-west wind however, will make the current run out to the east. In the 
 summer, the currents are less strong and not so persistent, and are more under the in- 
 fluence of the tides. In the autumn the winds are often easterly in the latter part of 
 September and October ; but perhaps more often westerly ; and in either case the current 
 is influenced by their direction. Later in the autumn north-west winds occur with colder 
 weather. These winds continue to be prevalent during the winter months, and give the 
 current an outward direction. 
 
 This statement must be qualified by the usual uncertainties attributable to the 
 weather ; and it is also to be noted that currents when continuous in either direction, 
 are apt to be more persistent on the north shore, where these observations were made. 
 
 In March 189G, two schooners which were caught in the ice off Bonne Bay, drifted 
 eastwards through the Strait, and were carried down the Atlantic side of Newfound- 
 land to Notre Dame Bay. 
 
 On careful consideration of the best information obtained, the general conclusion 
 is as follows ; — The actual flow through the year, when the influence of the wind is 
 included, appears on the whole to be little greater in the inward direction to the west, 
 than outward to the east. 
 
 (II.) OuRUENT AT THE EASTERN END. — The general Arctic current setting south- 
 ward past the mouth of the Strait, is influenced by the tidal inflow and outflow of the 
 Strait itself. It is found accordingly on the whole, that the greater inflow towards the 
 Strait takes place on the northern side of the mouth, and the greater outward flow on 
 the southern side. 
 
 Hence the icebergs which enter tho Strait usually pass between Belle Isle and the 
 Labrador coast. The general niovomcnt of the current at the muuth of the Strait, as 
 shown l)y thn drift of icebergs, is described in a pamphlet on the subject written by 
 Captain N'aughan, who rt'sided four years on Belle Isle. He states that for ten icebergs 
 which enter the Strait, thcie are fifty that pass the mouth and go southward with the 
 general drift of the Arctic current. The larger bergs also ground at the entrance of the 
 Strait. 
 
 It is to bo noted that on the Newfoundland coast from Cape Bauld to Cape Norman, 
 there is an indraught towards Cook and Pistolet Bays. This may be due to the pressure 
 3 
 
14 
 
 DEPARTMENT OF MAIIINE AND FISHERIES. 
 
 of the Arctic current on this shore, which by its|position opposes the southward progress 
 of the water. 
 
 For further description of the currents in this region, and the conditions met with 
 locally, see ' Supplement to the Newfoundland and Labrador Pilot ', Third Edition ; 
 corrected to August 1899. 
 
 (III.) CuRUENTS AT THE WESTERN END. — The area between Rich Point and the 
 western end of Belle Isle Strait, is intermediate between the constant current on the 
 west coast of Newfoundland, and the tidal current of the Strait. The tidal element 
 predominates however, and the current does not usually make in one direction more than 
 the other on the whole. As a result, the currents are variable and uncertain in their 
 direction, and cross-currents are frequent. When flat ice is present, it may make a con- 
 siderable drift when the wind is with the_^current ; but when against it, the ice stands 
 and shoves. 
 
 The area in which such currents may occur, extends westward from the narrowest 
 part of the Strait at Amour Point to a line through Rich Point running magnetic north 
 to the west end of the Esquimaux Islands. Towards the western side of this area, the 
 currents are usually less than one knot, and seldom exceed 1^ knots ; but towards the 
 entrance of the Strait their strength increases, while in direction they are more nearly 
 in the line of the Strait itself. 
 
 In the oHing of the Esquimaux Islands, fishermen when anchored six miles from 
 shore find that the current usually runs along the shore in one direction or the other ; 
 but there are times when it sets off or on shore for a whole tide. 
 
 There is also a cross-current which is sometimes found to run from Greenly Island 
 south-eastward ; and forms a f*trong set on shore towards Flower Cove. 
 
 Effect of the wind. — On a north and south line from St. John Bay to Esquimaux 
 Islands, where the clear width is 32 miles, the current was observed at three anchorages 
 at the end of July in 1894. During the seven daj's previous there had been 124 hours 
 of westerly wind averaging 20 miles per hour, and only 48 hours of easterly wind 
 averaging 19 miles per hour. After these prolonged westerly winds, the current set 
 eastward throughout the whole width ; and the thickness of the layer of water in 
 motion, which was only from five to ten fathoms, was distinctly marked off from the 
 water below by its higher temperature, thus indicating a wind drift. The speed of the 
 current was | knot per hour at the middle of the width, and 1.19 to 1.37 knots at the 
 sides. This in the circumstances is likely to be as great a speed as ever occurs in an 
 eastward direction. In the same locality at the end of August in 1896, the greatest 
 speed observed in the offing of Rich Point was | knot per hour. 
 
 tl 
 
 f 
 
 i 
 
 i 
 
 THE NORTH SHORE OF THE GULF. 
 
 The Mecattina shore j from the Esquimaux Islands to Cape Whittle. — On this 
 shore the general movement of the body to the water, when the direction of the under- 
 current is also taken into account, was found to tend westward. 
 
 When the weather is calm, and also during easterly winds, the current on the sur- 
 face will usually follow this general movement of the water to the westward. The 
 actual current, under the influence of the prevailing winds from the westerly quarter, is 
 very irregular however, and may set in almost any direction. 
 
CURRENTS IN THE OULF OF ST. LA]}IfENGE. 
 
 IB 
 
 
 I 
 f 
 
 The direction in which the body of the water makes on the whole, is also indicated by 
 the drift of icebergs. These have been seen as fi. west as the Mecattina Islands ; and 
 sometimes, though rarely, they reached Cape Whittle. Icebergs on this shore therefore, 
 are carried westward more than twice as far as on the Newfoundland side, where they 
 are rarely found beyond llich Point. 
 
 Speed and direction. — In the sunnwor season, the speed of the current usually 
 ranges from h kiiot to one knot per hour ; and it may be in any direction. As between 
 off-shore and on-shore directions, a set off shore is the more frequent. 
 
 The captains of trans-Atlantic steamships, in reply to circulars issued in the .seasons 
 of 189-3 and 1898, report that thu average current met with on the run from Heath 
 Point to Greenly Island was as follows : — On thirty-two trips iiiide between July and 
 October there were sin-teen times when there was no current appreciable ; -niw timos the 
 current set eastward, and seven times it set westward ; the speed in each case ranging 
 from \ knot to J knot per hour on the average during the above run. 
 
 In the early spring, at Great Mecattina Island near the middle of this shore, it is 
 stated by an old resident that the current runs in either direction, but is strongest to 
 the westward. The ice when going westward, passes at a walking pace, or about three 
 knots per hour. It is unlikely that the current in the open is ever as much as this. 
 The fishermen not infrequently speak of a much higher speed ; but it is always found on 
 inquiry that this is over-estimated, or that they refer to local rips or tidal streams in 
 confined channels. 
 
 From Cape Whittle to the East end of Anticosti. — The current in Mingan 
 Strait was found to be tidal, and to run with nearly the same strength in each direction. 
 There is accordingly no through current to be expected in the channel north of Anti- 
 costi. 
 
 Where the currents are so slow, the influence of the wind is the more considerable. 
 From observations at an anchorage mid-way between Cape Whittle and Heath Point, 
 made continuously day and night for five days in the month of July, the current was 
 found to set in all directions with a low speed ; the dominant direction being with the 
 winds which were most continuous at the time. Thus when a period of several days is 
 taken as a whole, it is found that the greatest amount of set has taken place in the same 
 general direction as the greatest total mileage of wind ; but at any particular time, the 
 direction of the current is seldom the same as the wind which is blowing locally. 
 
 As winds from the westerly quarter are the most prevalent at any time, it is pro- 
 bable that the surface current usually has an outward tendency. This accords with the 
 experience of Captain Macauley of the Dominion Line ; who states that in crossing 
 from Heath Point to Cape Whittle, vessels are set more to the southward by north-west 
 winds, than to the northward with south-east winds. 
 
 At an anchorage 18 miles off Cape Whittle a continuous record of the direction of 
 the current was obtained during five days in the month of July, and again during four 
 days in August. The current was found to veer completely around the compass in a 
 period of about sixteen hours on the average. The speed of the current did not exceed 
 one knot per hour in any direction. 
 
 It thus appears that the general tendency of the water to move westward, when 
 combined with the influence of the prevailing wind in the contrary direction, has for its 
 result an actual set which is nearly equal in every direction. 
 
16 
 
 DEPARTMENT OF MARINE AND FISHERIES. 
 
 Off the east end of Anticosti the current was found to veer very much in the same 
 way. It was observed repeatedly at two anchorages at 13 and 24 miles S. E. from Heath 
 Point ; and would veer completely around the compass, or back through a half circum- 
 ference. While thus veering in direction, the current would sometimes set directly 
 towards or from the end of the Island of Anticosti, for as much as two hours at a time. 
 Tlie speed in the month of July was not more than one knot in any direction ; but in 
 September it was sometimes over one knot per hour. This was probably due to the 
 influence of the heavier winds in that month. 
 
 Tidal influence. — There is c'ason to believe from a close study of the manner in 
 which the current veers, and the directions in which it holds the longest, that these may 
 be due to tidal influence, In the case of these currents which are well out in the offing, 
 the tidal relations that have been made out, are found chieily to govern the movement 
 of the under- current ; and they have relatively little influence on the surface current, 
 except in very calm weather. 
 
 Shore currentn in the channel no7'th of Anticosti. — The direction of the current at 
 1| miles oil" East Cape, was noted every two hours during daylight for thirty-three days 
 in the months of July and August. It ran north and south, parallel with the shore ; 
 but was quite irregular as regards the length of time in each direction. On the whole, 
 from the total of 231 observations, the set was found to be southward for two-thirds of 
 the time. It is stated by men acquainted with Anticosti, that it is only on the short 
 length of coast, from Table Head to East Cape, that the current has a dominant set of 
 this character. 
 
 At Natashquan Point, the current at two miles from shore, was observed in a similar 
 way for seventy-two days in the months of July, August and September. Its direction 
 was u-ually north-west or south-east, along the general bearing of this coast; although 
 it sometimes veered two points or more from these directions. The change of direction 
 showed more correspondence with the tide, than at East Cape. On the whole, from a 
 total of 627 observations, the set was south-eastward for two-thirds of the time. 
 
 The 'Constant currents' shown locally on the Admiralty Charts at these points, 
 must therefore be taken to mean that the current sets in the direction indicated about 
 twice as often as in the contrary direction. 
 
 MiXGAN Sthait. — An examination of the currents in this Strait was made in the 
 month of July at its narrowest part; between NorthPoint of Anticosti, and Xiapisca 
 Island, one of the Mingan group. The current proved to be tidal. It runs north-west- 
 ward through the Strait with the rising tide, and south-eastward with the falling tide. 
 It often veers considerably from these directions, however. The speed in the open Strait, 
 puring neap tides, does not amount to as much as Ih knots per hour in either direction. 
 
 The difference in the amount of set each waj', as shown l)y the surface current 
 during calm weather, is in favour of tli<> inward direction ; being on the whole 24 per 
 cent more to the north-west than to the south-east. 
 
 West e\d of Anticosti. — It is stated by Mr. A. Malhouin, light-keeper at West 
 Point, that the current on the .south of Anticosti in that vicinity, is nmch weaker than 
 in Mingan Strait and is more under the influence of the wind ; and accordingly it sets 
 along shore either south-east or north-west. In the summer the usual direction is north- 
 westward. At times when the current on tlie south shore is south-eastward, it appears 
 
CURRENTS IN THE GULF OF ST. LA WRENCE. 
 
 17 
 
 to divide at West Point while tlie tide is t'allint; in Mingan Strait ; but while the tide 
 is rising, tlie currents meet on the north shore within eight miles of West Point. 
 
 Tn the spring, the ioe on the south shore drifts with the wind and current to the 
 south-east, except when the wind is easterly, which is not frequent. The ice is not over 
 six feet thick, except when packed or in shoves. 
 
 South sfioise of Anticosti. — Tlie currents here iire usually weak and irregular. 
 As observed in the months of July and Septeml)er, at anchorages about six miles from 
 shore in the otKng of Ellis Bay, South-west Point, and South Point, the current was 
 found to veer and back irregularly and set towards all points of the compass. The 
 speed usually varied from h knot to one knot jjer hour. 
 
 The current would thus set off or on shore as much as in other directions ; and 
 would be on shore for a period of one to three hours at a time. These periods came 
 irregularly with the veering of the direction of the current, but usually occurred twice 
 in the twenty-four liours. The current however was then weak, and did not often 
 excted J knot per hour. 
 
 It is stated by fishermen having a long acquaintance with these coasts, that for 
 some distance both ways from South Point, they have found the current to set obliquely 
 on shore from a southerly direction ; more especially during S.W. and S. winds, and 
 with a rising tide. 
 
 THE MIDDLE « >F THE OPEN GULF. 
 
 Tiie nature of t'le current in the open, is indicated by observations obtained on 
 the Orphan Bank. The speed ranged from J knot to a little over one knot per hour. 
 At another anchoracre 29 miles E. by S. from Bird Rocks, the average speed during 
 nine hours was ^ knot. The direction of the set was very varied. 
 
 The influence of the tidal current from Chaleurs Bay, can be felt as far as 30 miles 
 out from Miscou Island, at the mouth of the Bay. 
 
 Off the north and south ends of the Magdalen Islands, at about six miles from 
 shore, the currents are more distinctly tidal. They run alternately in north-westward 
 and south-eastward directions, with a speed which is sometimes over one knot per hour. 
 
 The captains of the Black Diamond Line of steamers, running from Montreal to 
 Sydney, Cape Breton, in reply to circulars issued in the .seasons of 1895 and 1896, have 
 reported the average currents met with on the run across the Gulf, in the summer 
 season from J une to October, to be as follows : — 
 
 Between Gaspe and the Magdalen Islands, on 1 7 trips reported, there were (en times 
 when the current set southeastward, at a speed ranging from one knot to \\ knots per 
 hour on the average of the run ; twice it set north-westward ; and five times it ran south- 
 west or north-east as a cross current, the speed in these directions being only from 
 ^ knot to one knot on the average. 
 
 Between the Magdalen Islands and Cape North, on 1 6 trips reported, there were 
 nine times when the current set south-east or eastward, at an average speed of J knot to 
 one knot ; twice it set north-west at only J knot ; twice there was a cross-current ; 
 and three times there was no current appreciable. 
 
 The above result is also important as an indication of the dominant direction of the 
 set across the middle of the Gulf. 
 
18 
 
 DEPARTMENT OF MARINE AND FISHERIES. 
 
 NORTHUMBERLAND STRAIT. 
 
 In this Strait tlie tide lias a large diurnal inequality, whicli makes the two tides in 
 the twenty-four hours very unequal in height, at certain times in the month. At 
 Cliarlottetown, one tide in the day may havo a range of seven feet and the other a range 
 of only three feet. This feature of the tide is more marked in Northumberland Strait 
 than anywhere else in the Gulf of St. Lawrence. 
 
 The tidal currents in the Strait are ati'ected by this ; and accordingly there will 
 probably be a strong set in each direction during the rise and fall of the one tide, and 
 a weaker set during the other tide of the same day. This alternation occurs when the 
 moon is near its maximum declination, north or south of the equatoi' ; and it is also 
 more accentuated at the solstices. But when the moon is near the equator, the two 
 tides in the day become equal ; and the tidal currents also. 
 
 With regard to the relation of the current to the tide, the following note is given 
 in the Sailing Directions : — " The tidal streams were observed in general to chanire 
 their directions soon after it was high water or low water by the shore ; but not un- 
 frequently there were exceptions to this which it would be ditKcult to account for with 
 certainty. Strong winds in the Gulf greatly influence the strength and direction of the 
 streams in the Strait, as well as the height co which the tides rise.' 
 
 The tide tables for Cliarlottetown and Pictou now issued by this Survey, will 
 thus aflFord some knowledge as to the time of the turn of the current in the Strait. 
 
CUIil^ENTS ly THE GULF OF ST. LAWRENCE. 
 
 19 
 
 in 
 
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 en 
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 iin- 
 ith 
 the 
 
 vill 
 
 PART II. 
 
 The foregoing part has l^een restricted to a description of the currents on the sur- 
 face, which a i<eaman may expect to find in each locality in tlie Gulf of St. Lawrence. 
 
 Tlie following part is now added for the benefit of those who may desire to obtain 
 some intelligent grasp of the conditions in the Gulf area, and the causes which influence 
 the currents in moving as they are found to do ; and who may wish to know something 
 of the general relation of the waters in the Gulf area to the 8t, Lawrence River and 
 the Ocean ; on which the work of this .Survey has thrown considerable light. 
 
 In the language used, technicalities will be avoided; and no descriptions will be 
 given of the methotls and appliances employed in trajing out the currents, although 
 some of these had not before been used at sea, or were specially adapted to meet the 
 conditions in the Gulf. 
 
 Surface airrent in reJation to tlm nndi'v-currnnt. — It may be tliought at first sight 
 that the direction of the under-current has no bearing upon the movement of the water as 
 it affects navigation. In such a region as the (Julf of St. Lawrence, however, the currents 
 in the summer months are all very moderate in their speed, usualh ranging from half a 
 knot to one knot per hour ; and their direction oi\ the surface is accordingly much 
 influenced by the wind. It was found in these circunjstances that the movement of the 
 under-current at 20 or 30 fathoms, often showed more definite characteristics ; as for 
 example a tendency to make constantly in .some one direction, or to vary with the tide. 
 The wind is thus a disturbing element ; and the under-current being more in accordance 
 with the normal conditions of the locality, will come up to the surface as soou as the 
 disturbing influences which have been acting on the surface of the water, cease to 
 operate. 
 
 It may be unfortunate from the point of view of the navigator, that it is the sur- 
 face of the water to a depth of 5 or 10 fathoms, which is so readily and so fiequently 
 disturbed ; but on the other hand it is clear that it is essential to make a careful inves- 
 tigation of the under-current in order to understand the surface current itself. The 
 study of the under-current is also necessary, if any hope is entertained of arriving at the 
 general circulation in the Gulf, or the true relation of its currents to the causes which 
 influence them. 
 
 The general causes which act upon both the surface and the under-current, but 
 often affect them differently are : — 1. Tidal influence. 2. The influence of the wind 
 and barometer. 3. A cause of a wider character which shows it>elf as a tendency in 
 the current to set constantly in some one dii'ection. 
 
 When a period of some length is considered as a whole, and the under-current is 
 also taken into account, it becometi possible to trace the general circulation of the water ; 
 w^hich depends upon a greater movement in some dominant direction rather than in 
 other directions, when long averages are taken. 
 
 The prima!}' tendency in the surface current is thus to follow the direction which 
 the general circulation has in the locality in question: but this tendency is disturbed 
 and often oveirome by the influence of the tide and thii wind. The tidal influence 
 shows itself chiefly as a veer in the dii'oction of the current, which is either through a 
 limited range, or completely around the compass ; and it is also probable that the tides 
 themselves are irregular in some localities, owing to the interference of the tidal undula- 
 tion from Belle Isle Strait with the main tide which enters through Cabot Strait. When 
 the wind remains in one quarter and has any considerable strength, the drift which it 
 gives to the surface watei- soon extends to a depth of five fathoms or more, and its in- 
 fluence thus makes itself felt throughout the thickness of the surface layer which aflects 
 shipping. As a rule these influences are all acting at the same time ; and it is their 
 combined eflect which gives lise to the actual behaviour of the surface current. 
 
20 
 
 DKI'MiTMEXT OF MAIUS'IC AXD FISIIEIUKS. 
 
 For examples of the relation of the under-current to the surface current, soe Report 
 of Tklal Survey, .January, 18i)7, Table II ; and accompanying explanations in that report. 
 
 Temperature and dejisity. — The two characteristics chiefly relied upon in tracing 
 the movement of currents, are the temperature and density of the water. 
 
 In the Gulf of St. Lawrence, the surface temperature in the summer .season usually 
 ranges from about iJO to (>i)^ and in proceeding downwards this temperature gradually 
 falls, until at a depth of 40 or ijO fathoms it is only 31' to S4\ or practically at the freez- 
 ing point. Where the greater depths are met with, the water below this again, is found 
 to be appreciably warmer. There are considerable areas however, in which the depth is 
 less than 50 fathoms, and where the conditions are accordingly restricted. 
 
 The best observatiotis to ascertain thf3 amount of change in the temperature of the 
 surface water with the season, were obtained at a series of points, five nijles apart, on 
 each of the following lines : — (1.) From 30 miles otY Heath Point, to Cape St. (ieorge 
 on July •). (2.) From a point off Cape Whittle, to the oHing of Cape St. George, on 
 August ."5. (3.) Same line as No. 1, run a second time on September 28. The re.iults 
 were as follows : — 
 
 (1.) July G. From •tOJ' to ."JlA". Average- 50. 9.1 
 
 (2.) August 3, I rom 50' to .54'. Average = 52". 68. 
 
 (3.) September 28. From 52' to 54^'. Average- 53', 62. 
 
 Is appears, therefore, that in general, the temperature of the surface water merely 
 rises with the progress of the season ; and it is also natural that the water should become 
 warmer to a greater depth as the season advances. Even this has its limitations, how- 
 ever ; as at a depth of 50 fathoms no greater rise in temperature has yet been found than 
 from 32' to 34 , between the month of June and the end of September. 
 
 At all three angles of the Gulf, the coldest water forms a layer between the depths 
 of 30 and 50 fathoms. In the vicinity of Belle Isle Strait, the same low temperatures 
 are also found at these depths ; although there the temperature towards the surface is 
 relatively lower as a rule, than in other regions. It is probable that this cold layer 
 extends very generally over the Gulf area ; and it cannot, therefore, be taken as an indi- 
 cation of direction of movement of the water. 
 
 Below this cold layer, in the deep channel of the Gulf, the temperature from 100 to 
 200 fathoms is found to range very constantly from 38' to 41'. This result was obtained 
 in Cabot Strait, and also between the Gaspe coast and Anticosti, 220 miles further in 
 from the Atlantic, along the deep channel. This deep water, from such indications as 
 have been obtained, appears also to be ei tirely quiescent, and to have therefore little 
 direct relation to the currents in the (4ulf, in so far at least as they affect navigation. 
 
 With regard to the density, it may be stated broadly, that tliroughout the north- 
 eastern portion of the Gulf the averai^e surface density ranges from 1'0235 to nearly 
 1'0245 ; while in the soutli-western portion, the density is below 1'0235, ranging usually 
 down to 1-0220, and falling in the (raspe Current itself to 1'0210. The dividing line 
 between these two portions of the Gulf, runs approximately from South-west Point, 
 Anticosti, to a point in the middle of Cabot Strait. The densities in the border region 
 near this dividing line, naturally vary to some extent. The density (jf the noith-eastern 
 portion is practically the same as in the open Atlantic ; as it was there found to range 
 from 10237 to 1"0242, as shown by seven determinations made at the end of June, off 
 the south and south-east coasts of Nova Scotia. 
 
 This result is important, in showing that the lower densities found in the south- 
 western portion of the Gulf of St. Lawreme are contined to that side ; and this further 
 confirms the conclusion that the general set or drift across the Gulf, as shown by the 
 water of lower density, is in the direction of a line from Gasp*? to Cape JJreton. On the 
 other hand, the endeavour to obtain some ditFtMences locally, which would correspond 
 with the various directions of the current, was without result ; although a large number 
 of temperatures as well as densities were taken at the various anchorages for this 
 purpose. 
 
 The deep water as found from samples taken at depths of 100 and 150 fathoms, 
 both in the vicinity of Gaspe and in Cabot Strait, ranges in density from 1'0254 to 
 
CURRENTS IX THE GULF OF ST. LA WREXCE. 
 
 21 
 
 1'0261, The density of this deep water i^ very interesting in affording an explanation 
 for the otherwise anomalous fact that the cohier water at ')0 fathoms is found to float 
 upon it. It also corrcHponds with the density at similar depths, off the coast of Nova 
 Hcdtia. 
 
 (See results of temperatures and densities, to a depth of 150 and 200 fathoms, 
 given in tabular form in lleports of Tidal Survey, April, 1890, page 7, and Tables A, B, 
 C. D, E, and F, and Plate VIII ; and January, 181)7, page "iO. Also general diagram 
 of surfaco densities, lleport of April, 189G, Plato III.) 
 
 hijinence of the ivind. — Witli regard to the effect of the wind in giving the current 
 a dominant set in its own direction, the best examples met with during the three seasons, 
 aru derived from obseivations obtained in the open waters in the vicinity of Heath 
 Point and Cape Whittle, at the anchorages A, B, and C, of the season of 1896. The 
 observations were taken e\ery half hour continuously day and night for periods of U'lO 
 hours, 107 hours, and 90 hours respectively : the wind being measured l)y an anemome- 
 ter on board. The results when reducetl to tabular form, make evident the relation 
 between the direction of the wind and the set of the surface current. The depth to 
 which the wind disturbance was felt, was also ascertained. (See Report of Tidal Survey, 
 January, 1897, pages 22 and 23.) 
 
 A noteworthy example of the depth to which wind disturbance may extend, was 
 detected by observations in 189.') between the Magdalen Islands and Cape Breton. (See 
 Report of Tidal Survey, April, 1896, page 11 ; and Plates III. and VI.) 
 
 There is one relation between the wind and the strength of the current which 
 appears to apply chiefly, if not entirely, to currents which are fairly constant in their 
 direction. Such a current is found to run more strongly before the wind comes, if the 
 wind is to be in the same direction, and it slackens if the wind is to be against the 
 current. The fishermen when anchored in their boats, take these indications as warn- 
 ings of the approach of heavy weather. This change in the current before heavy winds, 
 is found to occur on both the south and west coasts of Newfoundland, and has also been 
 noticed on the north shore of the Gulf of St. Lawrence. It appears to be due to the 
 action of the wind during storms, in tirst holding back the water and then releasing it, 
 and the low-pressure area of the storm as it passes along also increases the result. It is 
 also probable that the effect is more distinct in the case of contined waters, as it is very 
 noticeable on the Great Lakes. It is from analogy with the conditions which obtain 
 there, that this explanation is suggested. 
 
 The effect of the wind in overcoming a fairly strong tidal current, has already been 
 described in referring to Belle Isle Strait. The conditions under which the most persist- 
 ent tlow in each direction occurred, are given in lleport of Tidal Survey, October, 1895, 
 pages 12 and 13. 
 
 It must not be too hastily assumed, however, that the wind alone is the cause 
 of the movement of the water in the same direction : as it appears probable that the 
 tendency of the current to tlow in the same diiection as the wind, is due to the cotabined 
 influence of the wind itself, and to difference in barometric pressure over wide areas. 
 When the piessuro is exceptional!}' high or low over a large area like the Gulf of St. 
 Lawrence, the effect slioukl be all the more noticeable ; as the corresponding flow has to 
 take place through comparatively narrow entrances or straits. In such straits, while 
 the direct eil^ct of the wind would produce primarily a surface drift, it is possible that 
 difference of pressure would cause a more even flow throughout the whole depth. 
 
 Drift of ire in relation to the current. — The currents are often well indicated by 
 the drift of ice ; but in order to infer correctly the set of the current from its drift, it 
 is necessary to distinguish between the different kinds of ice met with, and their rela- 
 tion to the movement of the surface of the water, and to the under-current, respectively. 
 In the early spring, numbers of small vessels are engaged in seal fishing ; and informa- 
 tion of impi>rtancc can thus be obtained, if the relation of tlieice to the current is under- 
 stood. 
 
 The ice met with is of three kinds : — (1) Berg ice, or the true icebergs which come 
 into the Gulf through Belle Isle Strait. They are also found off the south coast of 
 
in:i\\iiTMi:sr of ma nisi: asd hshichif.s. 
 
 Newfouiullaiwl, nearly fts far woMt as Cabot Strait. (2) I'Mat of pan li.e, forniinjf fields 
 or in brokuii |ii(!C».s, usually not nioro tlian )> feet in thickiifss, l>ut HoinctinicH as thick 
 as 10 feet. This often jams or sliovtis alon;; tho Hhoro or lietween islands, an<l may 
 form nmases u'O foot or uioro in thic-kni'ss, but it can nevor b« uuHtakf-n for bcrj^ 
 ice. In this Hat ico a dislinction is soniotinies made lu'twoi-n ' Noitliern ice,' 
 which finds its way in through Hollo fslo Strait under certain conditions, and ' (Julf 
 ice,' which forms in tho (Julf itself. As tho effect of tho wind and current ujion it is 
 the same in either case, tho distinction is not of inijHirtance in this connection, (.'J) 
 River ice, from the St. Lawrence Jtiver and its estuary. This is also Hat ice, and in tho 
 Oaspt' region it can bo readily distinj^uished by its appcanuico from the (Julf ice. 
 
 Tho borj,' ice, fmni its great depth in the water, will evidently move with tho under- 
 current : and it will not bo appreciably aU'ected by the wind. These bergs do not 
 neces.narily indicate the direction of the current as alFecting shipping, except when the 
 surface current has also the same direction. They show in njality the average direction 
 the current has, between th(( surface and the depth of their draiii.,du. This draught is 
 limited to abnut .'W fathoms by tho depth of Belle Isle Strait. They are thus of much 
 value as an intlication of the general movement or circulation of tho water. 
 
 The relation of the Hat ico to tho wind and curient rciiuires some little considera- 
 tion. It i.s, of course, just as true of this ice as of tho Ixng ice, that the greater part is 
 under water ; but, as it is almost always in broken pieces, more or less piled and with 
 upturned edges, tho wind has a much greater hold upon it in proportion to its total 
 weight, than on the berg ico. Even when this is allowed for, its depth in tho water 
 still gives the current a greater hold upon it than the wind has. For example, if such 
 ice is drifting with a current in a given direction, and the wind is blowing acro><s that 
 diiection at right angles, the ico will seldom be set more than two points, or three at the 
 most, off the true direction of the current. When tho ice becomes soggy or watot-soaked 
 and loses its edges, as it does later in tho spring, it will set still more correctly with the 
 current. 
 
 When the surface current itself is moving in the direction of long-continued or 
 prevalent winds, as it often does in the Gulf, the Hat ico naturally follows the same 
 direction too. Also in regions where tho current is tidal, and the ice in calm weather 
 would drift as far in the one direction with the Hoofl tide ns in tho other direction with 
 the ebb, the direction in which it makes on the whole will depend upon the wind. It 
 is probably for these reasons that it is so often said that tho ice drifts with the wind ; 
 although this merely expresses the fact, without distinguishing betwetm the relative 
 influence of the wind and the current upon it. 
 
 There is also a direct effect which the ico has upon tho strength of tho current 
 in regions where the direction of the surface drift is under the inlluence of the wind. 
 The broken and upturned edges of tho ice give the wind a much greater hold upon the 
 water tlian it otherwi.se would have. Hence during long continued winds the speed of 
 the current is appreciably greater than if the ice were not present. This is un- 
 doubtedly the explanation of the common belief which is expressed by saying that " the 
 ice makes its own current." It may lie well to recall that the weight of the ice itself is 
 the same as the water which it displaces ; and therefore, the wind h;is \\o greater mass 
 to set in motion in producing a surface current than if the ice were to melt and ro-lill tho 
 hollow which it makes in the water ; while the presence of the ice gives the wind a 
 better hold than it would have upon the surface of open water, free from ice, 
 
 There is one condition of the ice which may prevent it from showing correctly the 
 drift of the water. When it is set against an island or headland and packed together 
 for a long distance out, with open water beyond, it may circle round as on a pivot. 
 The outer edge of the pick miy thus mike a long sweep very diHeront in its pauh from 
 the true set of the curr.uit ; and its movements also l)ecome irregular, as vessels caught 
 in such ice which are near together in the ev('ning, may be ten or fifteen miles apart in 
 
 the morning. 
 
 (iUXKRAL CIRCULATION IN' THE CLT.K. 
 
 A knowledge of this general circulation is important to mariners, as it includes all 
 the more constant currents, and it also shows the direction which the siirface current 
 
criunjxTs IX r/ih' hui.f ar st. la wiikxce. fl^ 
 
 tomlH to tul«i when undisturbfd. Aaliougli tlicro iiro fi^w iriHtiincPH of currents in the 
 (tulf aioa wliicli run steiulily enouc,'U to bo turmeil (constant, wn luivo yot t(»und it possible 
 from continuous obscrviition or lon^ o«l>erioneo .o • livu iit ii dominant diroi'ion for 
 each l(K!iditv ; or tho direction in which f-ho curront rUll"* more frei|uentiy, and in wiiich 
 therefort', the water luiikt'H on tlic whole. 
 
 In roviewin;; the moveinonts o^ thH water, with )* view to tracing tho general cir- 
 cuhition in tlie (lulf, it is thn principle of the l)alance ut llow which is the most evident. 
 \Vhoro\cr a current ui a constant characit r occurs, tht^ro is a '"'irrt'sponding return 
 current to make up for it. Thus in Cabot Wtrait, the outllowing water in the Cape 
 Breton Current is balanced by the intlow at Cape Uuy ; tho iiorth-eastwai'd current on 
 the west coast of Newfoundland is balanced by the contrary direition of the inoveinont 
 on the opposite sluire ; and wo have fairly good indications of a return llow to compen- 
 sate for the (}asp('' Current. 
 
 It is this balance of llow which points to tlie iiature and diiection of tho circulation 
 of water in the (iulf. if we begin tt) truce it from Cabot Slr.iit, where tho balance 
 between tlio Culf aiul thr« ()cean takes {)Iuce, tin* intlow at Cape ilay ii[)peai.s to dilluse 
 itself more or less widely over tho central part of the (iulf, but it regains its Htrenglh 
 further north on tii"' west coast of Newfoundland, and makes a deep bend into the north- 
 eastern aii;{lo of the (iulf, ami returns westward along the north shore. On reaching 
 Capo Whittle, it still miik(!s westward ; and, whether as an actual set, or by displacing 
 water which comes more directly from Cape Kay, it appeal's to work around the eastern 
 end of Anticosti, and so compensates for tho outtlow of tho (Jaspo Current from tlio 
 estuary of the St. Lawrence. This current after rounding the (iaspe coast, makes .south- 
 eastward as a general set or drift across the <!ulf to the western side of Cabot Strait ; 
 and its waters there leave the (iulf in the outflow of the Cape Breton Current. 
 
 It also appears that tho whole of tho balance or eomiH-nsiition in tho Ciulf currents 
 takes place at the surface and in ordinary under-currcnts, which do not probably extend 
 to a greater depth than sonui hi) or t)0 fathoms. TIku'o is nothing, therefore, to show 
 the necessity for any appreciable movement in the deep watcir from GO to 80 fathoms 
 downward, which lies in the deep channels of the (iulf. Where direct ob.servations have 
 been obtained, this dei p water appears to li(* (piicscent, without any moveuaent that can 
 be detected. 
 
 Th: Cnrreid in Jinlh' Isle Strait, in rehition to the Gnlfarea as a irholc. — On account 
 of tho tidal character of the current in Belle Isle Strait, it is clear that no great volume 
 of water can enter the (iulf of St. Lawienee from that (ptarter. 
 
 The tidal character of the Mow in this Strait is described in Report of Tidal Surv(^y, 
 December, 1^94 ; where the lelation of the current to the tide, the temperatuie of tho 
 water, and tlu! drift of icebergs, is fully explaiiu'd. A cliagraui showing tlu; llow of the 
 current in tho two directions as observed, is also given in llf port of Tidal Survev, 
 April, 189t;, Plat.* f. 
 
 J)uring the bUHiincr season, the current flows in the Strait with a speed which is 
 nearly equal in e.ich direction ; and there is (udy a diflerence in favour of inwai-d llow 
 to the west, which on the whole does not probably amount to more than a ninderate 
 percentage. It is perha}is possible that in the eaily spring the preponderance of inward 
 flow may bo proportionally greater than at other s'.\isons. There is some evidence to 
 show that the inconiiug water may then penetrate the (lulf as far as Bonno Ba}' on the 
 west coast of Newfoundland. But m> reasons have been found for supposing tliat this 
 water passes completcily round the west coast of Newfoundland and finds its way out 
 into the Atlantic tlirough C/'abot Strait, betw(;on Cape North and Cape Ray, in accord- 
 ance with the theoiy which has been more or le.ss accepted up to the present time. All 
 the indications fire .igainst this theory, as they show that any general current across the 
 extent of tho (iulf must lie in an entirely different direction. It nuiy bo allowable 
 therefore to sum u[) brielly tho leasons for this conclusion. 
 
 The water in Belle Isle Strait is exceedingly clear. It is .also very cold, and 
 when flowing in tho inward direction, its temperature as late as September is beh)w 4o" 
 for the .1 verage of its depth from surface to bottom. Its density is as high as that of 
 any water found within the CJulf, being on the average r02H at the surface. 
 
24 
 
 DEPARTMENT OF MA HIKE AND FISHERIES. 
 
 The water in Cabot Strait is quite different from this in its character. The greater 
 part of the width of that strait is occupied by water which has the jnilky-greeii colour 
 of ordinary sea water. The out-flowing current in Cabot Strait is on the side next to 
 Cape Breton, or the further side from lielle Tsle. Tliis outflowing water has also a 
 distinctly brown tinge ; its surface temperature ranges from 55 to ()5° ; and its average 
 density to a depth of 10 fathoms from the surface is 1'0230 ; and as far down as a depth of 
 20 fathoms it is still both warmer and fresher than the Belle Isle water. If, therefore, 
 the Belle Isle water has any influence on this current, it must be indirect ; for even if 
 the water itself does not reach Cabot Strait, it might still be possible that a greater inflow 
 through Belle Isle Strait would cause a greater outflow through Cabot Strait. Even 
 this measure of influence cannot, however, be definitely as.serted. 
 
 There is not only this ditference in the character of the water in these two straits, 
 but also a want of connection between them. On the west coast of JSewfoundland the 
 current sets north-eastward, or in the contrary direction to that which the theory 
 supposes : and around Cape Ray the water makes inwards on the whole. 
 
 It might still be supposed, however, that any water entering fhrough Belle Isle 
 Strait would be most likely to pass out at Cabot Strait as a cold under-current along 
 the bottom. The total depth of Cabot Strait is 250 fathoms ; the coldest water forms a 
 layer between the depths of 30 and 50 fathoms, and below this the -T^ater is again 
 warmer but with a higher density, which ranges from 10254 to 1'0261. As this cold 
 layer occurs in other parts of the Gulf area also, it cannot be taken as an indication of 
 any special direction ; and the characteristics of the deep water from 100 fathoms down- 
 wards show how different it is from the Belle Isle water. The indications so far as 
 obtained, also show that the deep water from 100 fathoms downwards is entirely 
 quiescent. 
 
 There is, therefore, no confirmation to be found for the theory that a constant 
 current enters the Gulf in' Belle Isle Strait and leaves again Vjy Cabot Strait : but on 
 the contrary, all the evidence met with, is directly against it. 
 
 77/e »SV. Laicre)ice River in relation fo the oiitjioir from the ('ulf. — It can hardy be 
 doubted that the low density of the water in the Gaspe current is to be attriljuted to 
 the outflow of the St. Lawrence River : and we are thus able to trace the influence of 
 this water as far as Cape Breton, whei'c it finally mingles with the water of the Ocean. 
 The volume discharged by Jie St. Lawrence has been nir'asured aljove Lake St. I'eter at 
 different seasons ; and with the addition of the Richelieu, St. Maurice, Saguenay, and 
 f)ther tributaries along its estuai'y, the total volume of fresh water discharge would pro- 
 bably amount in all to 3*10,000 cuhic feet per second. This volume of fresh water will 
 mingle with sea water for which wo may assume a density of 1'0240: as this may be 
 taken to represent either the mean density of Atlantic coast wat^r to a moderate depth, 
 or the densit}' of the Salter water in the Gulf itself. Uiulcir those conditions, the fresh 
 watei' of the St. Lawrence would be sutHcient to furnish a stream of water reduced to 
 the lower density of 1 "0230 which would be twelve miles wido and GS feet deep, and 
 moving with a speed of one knot per hour. This would represent the average density of 
 the (^aspe Current, and would probably bo an approximation to its average speed and its 
 volume; and such a comparison may thcrofors! serve to illustrate the way in which the 
 conditions may be accounted for, if the data tliemselves were more closely known. 
 
 It is to be noted however, that as legards volume, the St. Lawrence River is 
 almost insignificant as compared with the outflow of the <iaspt'' Current. The depth or 
 thickness of this current was ascertained from measurements of the under-current taken 
 in the ofling of Grilfin Cove at four difTiMciit times, at which the surface speed varied 
 between one and two knots. The mean of the four determinations gives the following 
 percentage ratios for the under-current at difTerent dopths ; — 
 
 Surface, actual speed 1 '23 to Lf<3 knots per hour. 
 
 At 10 fathoms 77 per cent of surface \elocity. 
 
 At "JO " , 3S " '• " 
 
 At MO " 29 " '■ '■ 
 
cunnEXTS in the ciulf of st. la whence. 
 
 This rate of decrease indicates a depth of about 45 fathoms as the total thickness 
 of the current. This current, whether it Hows near the coast or in tlie middle of the 
 passage, has usually a width of about 12 miles. We may therefore consider its volume 
 to be represented by a body of water of this width, with a mean depth of 30 fathoms, and 
 moving with an average speed of 0'68 knot per hour, throughout this depth. 
 
 Such a current has a volume forty-three times greater that the !St. Lawrence River. 
 The volume of the Cape Breton Current also, is probably much the same. These outflows 
 must therefore be replaced by a return movement at the entrance to the Lower St. Law- 
 rence, somewhere in the Anticosti region ; and also by a return flow from the Ocean into 
 the Gulf area ; as the discharge of the St. Lawrence furnishes less than 3 per cent of 
 the amount required in either case. 
 
 (See density sections and diagrams of the (raspe and Cape Breton currents, in Report 
 of Tidal Survey, April, 1896, Tlates III to VITL ) 
 
 Current across the (InJf area. — The general connection of the Gaspo and Cape 
 Breton currents was made evident when it was ascertained that the water of lower 
 density kept to the south-western side of the Gulf. The observations of the current in the 
 open, and the reports from steamships ab(jved cited, also accord with a general move- 
 ment of tlie water towards the south oast ; as this is the more usual direction, and the 
 currents which are found at times to run across this prevailing direction, are to be 
 attributed to the influence of the tides and tlie wind. 
 
 As to the route taken by the water in traversing the (^ulf from the (iaspe region 
 to Cape Breton, it seems fair to conclude from the evidence furnished by the density 
 observations, that the greater proportion finds its way eastward between the Magdalen 
 Islands and Prince Edward Island ; while a certain amount may also pass north of tlie 
 Magdalen Islands, on the line from Bird Rocks to St. Paul Island. That some water 
 passes round both ends of the Magdalen Islands on its way to Cape North is also con- 
 firmed by the steamship reports in that region ; as the currents from the north west and 
 south-west towards Cape North, correspond with these two routes respectively. It is 
 probable also that some of the water may come ftom Northumberland Strait, as tlie 
 water there is also low in its density. 
 
 (For a discussion of tlic probable reasons wliy the water of lower density keeps to 
 the south-western side of the Gulf, see Reports of Tidal Survey, April, 1890, pages 
 14 and 15; and January, 1897, page 36.) 
 
 Balance qffloivin Cabof. Strait. — The volume of fresh water from the vSt. Lawrence 
 as already explained, may Ije sullicient to dilute the sea water to the low density found 
 in the Gaspe Current or in the corresponding current flowing outward thi'ough Cabot 
 Strait ; but the total volume of water which actually leaves the Gulf is vastly greater 
 than the volume of fresh water which it receives from the St. Lawrence River. The 
 volume so leaving the (,4ulf must therefore be replaced by water which enters it from 
 the Ocean. 
 
 The current which usually makes inwards on the east side of Cabot Strait, may be 
 sulHcieut to compensate for the outflowing water of the Cape Breton Current ; althoujrh 
 it is also possible tliat the outflow from the Gulf may be partly made up for, by the 
 difference of flow in the ijiward direction through Belle Isle Strait: which in some 
 years may be considerable in the early spring. The rel.Ttion of the current in this 
 Strait to the (Uilf as a whole, has already been explained ; as well as the probable 
 amount of inflow at Cape Ray, in continuation of the general westward tendency of the 
 water along the south coast of Newfoundland. The ([uiescence of the deep water in 
 Caboh Strait has also been pointed out, in this connection. 
 
 It may be well to note however, that althouijrh the outflowing water of the Cap% 
 Breton Current is much warmer in the summer season than the incoming Atlantic 
 water, it is not so at all seasons of the year. While it is probable that the total result 
 is QJi the side of loss of temperature to the Gulf area, it would require extended obser- 
 va'jions throughout the year to ascertain the amount of loss, and the probable effect in 
 conse(]uence upon climate in th(^ surrounding regicms. 
 
 (See temperatures of Cape Breton Current from the sui'face to forty fathoms, given 
 in tabular form, in Report of Tidal Survey, i>eccmber, 1804 ; pages 25 ami 26.) 
 
26 
 
 DEPARTMENT OF MARINE AND FISHERIES. 
 
 North-eastern arm of the Gulf. — It is not clear what becomes of the current wliich 
 passes in at Cape Ray. As a rule there is no appreciable current olV St. George's Bay, 
 and very little from Cape St. George to the Bay of Islands. We cannot thus trace this 
 inflowing water as an actual current, but it is probable that it makes to the north- 
 eastward, and diffuses itself over the Gulf in that region, because we Hnd that the 
 density of the water throughout the north-eastern portion of the Gulf in the same as in 
 the open Atlantic, and this density could not be so maintained without some inflow of 
 this character. 
 
 Further north on the west coast of Newfoundland, from the Bay of Islands to 
 Rich Point, the current is distinct, setting north-eastward. The under-current has this 
 direction even moie persistently than the surface current ; and at a depth of 30 fathoms 
 the speed is still half as much as on the surface. There is no other locality in the 
 north-eastern arm of the Gulf, where the movement of the water is so definite and 
 constant in one direction. 
 
 The prevailing winds over the Gulf area, which are south-westerly in summer and 
 north-westerly in winter, may have an appreciable influence in niaint.i.ining the current 
 on this coast, and in carrying it further into the north-eastern angle of the Gulf before 
 it returns. 
 
 It is more than probable that the water which makes westward along the nortli 
 shore, is a return current corresponding with the north-fastward set on the Newfound- 
 land side. There is no other direction from which this water can come, as any inflow 
 that there may be through Belle Isle Strait is quite insuthcient to keep up the supply. 
 A large volume must make to the westward, if this is in reality the usual direction of 
 the undei'-currcnt from about 15 fathoms downwards, where the total depth is seldom 
 less than -10 fathoms. 
 
 The water nnist make across from the Newfoundland side to the north shore in the 
 area lying between Rich Point and the west end of IJelle Isle Strait. On the western 
 confines of this area there is a constant current setting in from the south-west, and 
 another setting out to the westward, while on its eastern side there is the strong ebb 
 and flow of the Strait itself. There may also be times when lung-continued winds 
 give the surface current a drift which is either eastward or westward according to its 
 own direction. As the depth ranges from 30 to 70 fathoms, it is sufKcieut to allow the 
 water to make across lo the northern side as an under-current, as it is quite possible 
 that it does. The irregular ehnracter of the currents in this area, is thus accounted for. 
 
 On the west coast of Newfoundland the surface current and th<3 under-current have 
 the .same direction ; but in the I'eturn current on the north shore the direction is main- 
 tained chiefly by the under-current, while the current on the surface is not infrequently 
 to the eastward. The reason of this must be that the prevailing winds are westerly, 
 and they are with the direction of the one current, and against the other ; and thus 
 often re\erse its surface di'ift. 
 
 Although the current ui\ the Newfoundland side is thus the more distinct, the 
 north shore current is the better known, as it lies more directly tm the route of the 
 Atlantic steamships, and that coJist is also more fiequented by fishermen. ' 
 
 (A full account of the currents in this arm of the Gulf is given in the Report of 
 Tidal Survey, January, 1897.) 
 
 Return Jfoii) in the Anticouli region, to compensate for the Ga><p<! C nrrent.—ll haa 
 l)een pointed out that the volume of the Gaspe Current is vastly greater than the dis- 
 charge of the St. Lawrence River, and that there must be a return tlow somewhere in 
 this region, to make up for it. Where this takes place, it has not been easy to deter- 
 'nune definitely ; but a good deal may be inferred from all the indications obtained, 
 when these aie considered together. 
 
 At the wider end of the channel north of Anticosti, it is probable that the current 
 on the surface usually has an outward tendency to the south-east ; corrcs})onding with 
 the prevailing winds which are from the westeily quarter. This is also indicated by 
 the, direction of the current on the two sides, at Natashquan Point and P^ast Cape, as 
 already explained. 
 
 
 > ■ 
 
CURRENTS IN THE GULF OF ST. LA WREXCE. 
 
 27 
 
 As there is no evidence of any through current in this channel, the outward tend- 
 ency of the surface water must originate in the channel itself ; and it appears to be 
 balanced by an inward tendency in the uncler-ourrent. The curront which sets west- 
 ward along the north shore, on reachinif Capo Whittle makes on the whole to the north- 
 westward. This dominant direction is more marked in the under-current than on the 
 surface ; and this inward trend of the current around Cape Whittle is to be looked upon 
 as an indraught to make up for the outflow on the surface. 
 
 In Mingan Strait, at the other end of the channel, although the current is tidal 
 and nearly equal in each direction, the balance of (low is in the inward direction to the 
 north-west ; which is also in accord witli the inward tendency of the under-current at 
 the mouth of the channel. Whether the two movements are continuous or not, it is 
 clear that tlie balance of How in Mingan Strait helps so far to make up for the outflow 
 in the Gaspe Current. 
 
 Although at East Cape, the surface current makes outwards near the shore, this 
 does not indicate the general movement of the water in the vicinity of the east end of 
 Anticosti. At anchorages as far in the oliing as 13 and 24 miles S. E. of this Cape, the 
 body of tlie water was found to make on the whole to the westward. It is more than 
 probable that this water continues westward, and that it also contributes to the return 
 flow which compensates for the Gaspe Current. The temperature and density of this 
 water do not furnish any positive indication to show where it comes from ; and it may 
 possibly be drawn from the central part of the Gulf, where the water coming in at Cape 
 Kay diffuses itself, or more probably it may make its way across from Cape Whittle, 
 in continuation of the westward movement along the north shore. 
 
 It may therefore be concluded that some water makes inward through Mingan 
 Strait ; and some also makes inward at the eastern end of Anticosti, and may continue 
 to work inward along the south shore of that island. This would accord with the 
 freijuent on-shore set of the current on the south side of Anticosti, near its eastern end. 
 It would also appear that the inward movement occurs either at the surface or as an 
 under-current at a moderate depth ; as in the channel between Gaspe and Anticosti 
 which has a depth of 1;jO fathoms, no movement in the deep water could be detected. 
 
 MOVEMENTS OF FISH, IN UELATIOX TO TEMPERATURE AND DENSITY OF THE WATER. 
 
 It is probable that the temperature and density of the water and the direction of 
 the currents, may have important bearings upon the movements of fish, which as yet 
 are imperfectly understood. This opinion is held by the countries bordering on the 
 North Sea ; and the information afforded by the investigation of the movements and 
 other characteristics of the water, are there used as a basis in arriving at the reasons for 
 the distribution and migration of fisii at different seasons. This information haij its 
 chief application in the North Sea to the hei-ring fishery ; and yet a practical return i.? 
 expected for tiie outlay which is made in obtaining it ; and the investigation is of such 
 importance that arrangements are being discussed for international cooperation amongst 
 tlie countries bordering on the North Sea in carrying it on. In our fisheries, the cod 
 and mackerel have a greater importance relatively than the herring ; which would war- 
 rant the expenditure of larger sums in proportion to increase the catch by such investi- 
 gations. 
 
 As an example of the importance of knowing where cod are to be found, and why 
 they prefer one region to another in different seasons, it may be mentioned that in 189(3 
 fishing schooners were returning from Labrador in September with half cargoes, while 
 within the Gulf we found on the surveying vessel that cod were eveiy where abundant 
 throughout the summer on the .30 and -lO-fathom banks, which no schooners were taking 
 advantage of. 
 
 It is held l)y fishermen that fish are never caught while the water is clear ; and its 
 clearness must have some relation to physical conditions which could be ascertained. It 
 is also known that the cod are caught in shallower water in the spring, and further from 
 shore as the seasoiv advances. This may depend more directly on the movements of tlie 
 herring or capelin which they follow ; but these fish may themselves be influenced in 
 
 \ 
 
28 
 
 DEPARTMENT OF MARINE AND FISHERIES. 
 
 m- 
 
 their movements by the temperature or other characteristics of the water, which'may 
 difler at different times. The depth at which the layer of coldest water occurs in the 
 Gulf of St. Lawrence, found between 30 and 50 fathoms in the summer season, may have 
 a bearing in this connection ; as the fish have usually a preference for cold water. 
 
 It may also be noted that at the greater depths of 150 to 250 fathoms the bottom, 
 as shown by samples brought up by the anchor, is soft mud from brownish-blue to slate 
 colour ; and the marine life there, judging by such specimens as came up, consists chiefly 
 cf sea-pens and other stalked creatures, which root themselves in the muddy bottom. 
 There does not therefore appear to be at these depths much food of an inviting 
 character for fish. An examination of such conditions might well prove useful, in view 
 of the large annual value of the Canadian fisheries.