571
Spawning Areas and Abundance of
Chinook Salmon (Oncorhynchus tsha>vytscha )
in The Columbia River Basin-
Past and Present
j
Munne Biological Laboratory' LIBRARY
I
-cC2 1968
iWOODS HOLE. MASS.
SPECIAL SCIENTIFIC REPORT-FISHERIES Na 571
UNITED STATES DEPARTMENT OF THE INTERIOR
U.S. Fish and Wildlife Service
BUREAU OF COMMERCIAL FISHERIES
Spawning Areas and Abundance of Chinook
Salmon (Oncorhynchus tshawytscha ) in
The Columbia River Basin—Past and PresentBy
LEONARD A. FULTON
United States Fish and Wildlife ServiceSpecial Scientific Report- - Fisheries No. 571
Washington, D.C.October 1968
CONTENTS
Page
Introduction 1
Spring- and summer- run chinook salmon 3
Spawning areas 3
Abundance of spring- and summer- run chinook salmon 4
Fall-run chinook salmon 16
Spawning areas 16
Abundance of fall- run chinook salmon 20
Summary and conclusions 22
Acknowledgments 2 3
Literature cited 24
Maps See Map Appendix
Spawning Areas and Abundance of Chinook Salmon
(Oncorhynchus tshawytscha ) in
The Columbia River Basin— Past and Present
By
LEONARD A. FULTON, Fishery Biologist
Bureau of Commercial Fisheries Biological LaboratorySeattle, Washington 98102
ABSTRACT
Chinook salmon, the most abundant species of salmon in the Columbia Basin,
formerly spawned in nearly all tributaries of the Columbia River and in many areas
of the main river. Over the past 60 years, the construction of dams has inundated,
impeded, or blocked access to spawning areas.Despite these heavy losses, large areas of spawning grounds in the middle and
lower portions of the drainage are still available to chinook salmon. Stream im-provements by State and Federal fishery agencies have rehabilitated some areas
and have -brought others into production for the first time.Important spawning areas are listed and charted in this report according to
their past use (before 1965) and present use (1966). Estimates of recent spawningpopulations in major tributaries and in segments of the main stem are also given.
Former and present levels of abundance are listed according to three major runs--spring, summer, and fall.
INTRODUCTION
Chinook salmon (Oncorhynchus tshawytscha)
formerly spawned in the main stream and in
nearly every accessible tributary of the Colum-bia River.
This species is the most important of thearea in total poundage harvested and in valueto the commercial and sport fisheries. Com-mercial production reached an alltime highof nearly 19.5 million kg. (kilograms) in 1883(fig. 1). Evidence of impending decline ap-peared as early as 1889, when only 8.2 millionkg. were taken. Catches fluctuated between7.7 and 16.8 million kg. in 1890-1920, andgradually declined during 1921-66. The averageannual catch during 1962-66 was about 2.3
million kg.
The decline in catch has been attributedto the advance of civilization in the PacificNorthwest. Irrigation, logging, mining, damconstruction, and other activities reducedthe size and capacity of spawning areas.Resolution of the problems of safely passingmigrating salmonids - -particularly of youngdownstreann migrants- -has not kept pace withdam construction in the Columbia River drain-age.
The Bureau of Commercial Fisheries beganintensive research in 1961 on problems offishpassage; the work was closely coordinated
between State and other Federal agencies. Toplan research effectively and to aid manage-ment of the remaining runs of Columbia Riverchinook salmon, it was necessary to reviewthe many reports available on spawning of
salmonids
.
Evermann (1896) reported on the salmonruns in Idaho during the early 1890's. Helisted information from local residents andobserved the extent of salmon migrations into
the upper Snake River and tributaries.
The Pacific Salmon Investigations of the
U.S. Bureau of Fisheries and its successoragency, the Fish and Wildlife Service, sur-veyed the Columbia River Basin from 1934to 1946. The data were published in the SpecialScientific Report series of the Service, en-titled "Survey of the Columbia River and its
Tributaries" in eight parts by the followingauthors: Rich (1948); Bryant (1949); Park-hurst, Bryant, and Nielson (1950); Bryant andParkhurst (1950); Nielson (1950); and Park-hurst (1950a, 1950b, and 1950c). These re-ports contain information on the past spawningareas, size of runs, location and amount of
spawning gravel, location of obstructions, andestimates of the capacity of part of the streamsto support successful spawning. These reportshave been valuable aids in locating spawningareas, so that imiprovements could be madeat the nnost desirable locations.
1870
Figure 1.—Commercial catch of ciiinook salmon in the Columbia River, 1865-1962. Data for 1865-1937 from
Craig and Hacker (1940) and for 1938-62 from Ward, Robison, and Palmen (1964).
More recent reports by State fishery agen-cies deal with specific sections of the Colum-bia River drainage. The Willamette Riverwas surveyed from 1958 to 1960 by biologistsof the Fish Commission of Oregon (Willis,
Collins, and Sams, 1960). Eastern Oregonrivers (Umatilla to Owhyee) were also sur-veyed by the Commission from 1957 to 1960(Thompson and Haas, 1960). These extensivesurveys included information on the speciesoffish, environment, obstructions, diversions,potential hatchery sites, projected impound-ment areas, and recommendations for correc-tive measures. Surveys based on aerial ob-servations were also made by the FishCommission of Oregon on the Deschutes andJohn Day Rivers and on Fifteen Mile Creek(Haas and Warren, 1961).Surveys of Idaho tributaries of the Columbia
River started about 1955 by the Idaho Depart-ment of Fish and Game and are still beingcontinued. Hauck-"- provided information on pastand present spawning areas in Idaho and onthe relative importance of the Salmon Riverand its tributaries for the production ofChinook salmon. A report on the ClearwaterRiver was released in 1962 by the Idaho De-partment of Fish and Game (Murphy andMetsker, 1962); the report gives compre-hensive data on spawning gravel in the Clear-water River and on its important tributaries(excluding the North Fork). Spawning groundsurveys on the North Fork were made by
personnel of the Bureau of Commercial Fish-eries in connection with the proposed DworshakDam (Tunison and McKernan, 1960).
Locations of principal spawning areas andestimated runs in Washington streams wereprovided through correspondence^ and per-sonal interviews. Further information on thelower Columbia tributaries in Washingtonappears in subbasin reports of the ColumbiaRiver Fishery Development Program and theWashington Department of Fisheries. Jointreports were made on the Abernathy, Cowlitz,Elokomin, Grays, Kalama, Klickitat, Lewis,and Wind River areas (Washington Departmentof Fisheries and Fish and Wildlife Service,1951). The Fish and Wildlife Service (1951)reported independently on the Big WhiteSalmon, Little White Salmon, and WashougalRiver areas.Many streams were rehabilitated under
Federal-State public works programs in the1930's by installing screens, improving fish-ways, and removing obstructions such aslogjams or splashdams.More recently, the Columbia River Fishery
Development Program, a cooperative Federal-State program for construction and rehabilita-tion, has continued to restore formerly pro-ductive areas and put previously inaccessibleareas into use. This program was activatedin 1949, when maximum emphasis was placedon development of fishery production in the
"personal communication, Forrest R. Hauck, Idaho
Department of Fish and Game, October 24, 1961.
^ Henry O. Wendler, Washington Department of Fish-
eries, table entitled "Salmon runs of the Columbia River
watershed," July 12, 1961.
Columbia River drainage below McNary Damand was extended in 1957 to include areasabove McNary Dam. Present emphasis is
centered on the Willamette River systenn andthe area above McNary Dam. Current ac-tivities are stream clearing, fishway con-struction, screening, and an evaluation of
hatchery production.Largest expenditures under the Program
were for artificial propagation facilities
(Bureau of Commercial Fisheries, 1960). Im-provements made on streams of the ColumbiaRiver Basin are listed in the Annual ProgressReports of the Columbia River Fishery De-velopment Program (Fish and Wildlife Serv-ice, 1952- 57; Bureau of Commercial Fisheries,1958, 1960, 1961, 1964).The present report condenses information
from various sources. Maps show the generallocation of past and present spawning areas.Other information is tabulated. Fishery sci-entists and administrators associated with thepresent Fish-Passage Research Program havealready used information from the manuscript.On the basis of this use they have expressedthe need for published summaries that arecomprehensive and cover the entire ColumbiaRiver Basin.
This report on Chinook salmon is intendedto fill that need. A second report is to coversockeye salmon (O. nerka ), coho salmon (O.
kisutch ), chum salmon (O. keta ), and steelheadtrout (Salmo gairdneri).
SPRING- AND SUMMER-RUN CHINOOKSALMON
Chinook salmon in the Columbia River weredivided arbitrarily into three runs- - spring,summer, and fall- -on the basis of timing ofreturns from the sea to fresh water (table 1).
Spring- and summer- run chinook salmon aretreated as one group in this section and thefall run as a separate group in the next.Spring and summer runs of chinook salmonhad to be combined because of the difficultyof separating the two groups on their principalspawning ground- -the mid-Columbia tribu-taries.
Characteristics of the major runs of chinooksalmon (table 1) are listed in terms of type ofspawning stream, spawning period, averagesize, and period of migration. The averageweights were calculated from samples fromthe commercial fishery by the O.F.C. (FishCommission of Oregon) for 1959-62 (Pulford,Woodall, and Norton, 1963). Spawning areasand the abundance of spring- and summer-run chinook salmon will be discussed in thefollowing sections.
Spawning Areas
As noted in table 1, spring chinook salmongenerally spawn in small- and medium-sizedtributaries of the middle Columbia River,whereas summer chinook salmon generally
Table 1.— Characteristics of spring, sunnier, and fall runs of Columbia River ohinook salmon
spawn in intermediate and large tribu-
taries and in middle reaches of the mainstem.
Spring- run chinook salmon spawn in sonnelower Columbia River tributaries such asthe Willamette, Cowlitz, and Kalama Rivers.They also are distributed in middle tributariesof the Columbia and Snake Rivers. (Fall-runchinook salmon, discussed later in the report,
share spawning grounds in some sections of
the Cowlitz and Kalama Rivers.) These arenot all of the areas in which such duplicationsoccur but are cited as examples.
French and Wahle (1960, 1965) observedthat some spring- run chinook salnnon spawnedin the same areas as the summer-run chinooksalmon in the middle Wenatchee and MethowRivers. Summer-run chinook salmon weremore numerous in the lower and middleWenatchee and Methow Rivers, whereasspring- run chinook salmon were found prin-cipally in the tributaries and upper parts of
these rivers. The examples are typical of thespawning distribution of spring- and summer-run chinook salmon in tributaries of the
Columbia River.In referring to the major sections of the
Columbia River drainage, I have defined thelower Columbia River as the area belowMcNary Dam, the middle Columbia River asthe area between McNary and Chief JosephDams, and the upper Columbia as the areaabove Chief Joseph Dam. Former or pastspawning areas are those known to have beenused before 1965. Present spawning areas arethose that were still in use in 1966.Map 1 shows the approximate location of
present and former spawning areas of springand sunnmer chinook salmon in the ColumbiaRiver. The Willamette River, the principaltributary of the lower Columbia, has an ex-tensive tributary system with many excellentspawning grounds (map 2).
Table 2 lists the length of streams in kilo-meters and distance of the stream from themouth of the Columbia or of the contributingdrainage. The table also indicates present andformer principal spawning areas and carriesnotes on special features of the tributaries orruns.
Spring- and summer- run chinook salmonformerly migrated almost the entire lengthof the Columbia River (map 1 ). Fronn informa-tion obtained from residents of the upperColumbia River area in 1936, Bryant andParkhurst (1950) reported that large chinooksalmon (probably summer- run), weighing from18 to 27 kg., migrated nearly 1,932 km. upthe Columbia River to spawn in the mainstem just below the outlet of WindermereLake in British Columbia. After the construc-tion of Grand Coulee Dam, runs were inter-cepted at Rock Island Dam (1939-43) fortransplanting into the Wenatchee, Entiat,Methow, and Okanogan Rivers.
Migrations of spring- run chinook salnnoninto the upper Snake River were documentedby Evermann (1896). Spring- run chinooksalmon were observed spawning as farupstream, as Rock Creek, a tributary that
enters the Snake River just below AugurFalls--a distance of more than 1,442 km.from the ocean. The runs that migrated into
Rock and Salmon Falls Creeks and into theBruneau River were depleted or lost manyyears ago because of inadequate or no provi-sions for fish at irrigation dams and diver-sions .
In summary, some of the more obviousfactors responsible for the destruction ofspawning and rearing areas for spring andsummer chinook salmon in the ColumbiaBasin are: (1) reduction of stream flow andblockage by irrigation projects and splash-dams; (2) blockage by hydroelectric proj-ects; (3) inundation of spawning areas by im-poundments; and (4) destruction of spawningand rearing areas by siltation, debris, orpollution fronn sewage, farming, logging, andmining.
Abundance of Spring- and Summer-RunChinook Salmon
Commercial salmon fishing in the ColumbiaRiver initially was confined almost solely to
the spring and summer runs of chinook salmon.The size of the catch (up to nearly 19.5 millionkg.), the extent of the fishery, and the reportsby early settlers of the large runs observedin nearly all of the accessible tributariesattest to the magnitude of these stocks duringthe early Columbia River salmon fisheries.Inevitably, the runs began to decline as majorupriver producing areas were cut off becauseof factors previously mentioned.Some of the more important spawning areas
of spring- and summer-run chinook salmonno longer in production include: (1) LowerColumbia tributaries- -major portions of theJohn Day and Umatilla Rivers; (2) Snake Rivertributaries - -most of the Clearwater andPowder Rivers; all of the Burnt, Weiser,Malheur, Payette, Owyhee, Boise, and BruneauRivers; and all of the Salmon Falls and RockCreeks; (3) middle and upper Columbia tribu-taries--the nnajor portion of the Walla WallaRiver system, considerable area in the Yakimaand Okanogan Rivers, and the entire areaabove Chief Joseph Dam (including the mainstem Columbia, the San Poil, Spokane, Kettle,Pend Oreille, and Kootenay Rivers).
In a report prepared for a hearing on regu-lations for commercial salmon fisheries ofthe Columbia River (Fish Commission of
Oregon and Washington State Department of
Fisheries, 1967), the fishery agencies ofWashington and Oregon provide current esti-
mates of the size of spring and summer runsof chinook salmon. These estimates (table 3)
Table 2. —Present and fonner spawning areas of spring and summer chinook salmon, Columbia River and tributaries
Stream
Table 2. --Continued
Number^ LengthDistanceabovemouth^
Location of spawning areas
Former
Refer-
ences^
4C2.
4C2a.
South Santiam R.
Middle Santiam R.
Calapooya R.
Km.
139
AS
18
68
iQAr
McKenzie R. 138
^n. South ForkMcKenzie R,
AF. Middle ForkWillamette R.
30A.
Coast ForkWillamette R.
80
4G1. Row R.
Sandy R. 72
Sixty-nine km.
stretch of mainriver and lowerWiley Creek.
Well distributedthroughout mostof its course.
Also 26 km. ofQiuartzville Creek.
Stretches in mid-dle and upper por-tions of mainriver.
Throughout lengthof main river andportions of GateCreek, Blue R.
,
Horse Creek, Sepa-
ration Creek, and
Lost Creek.
Main river andFrench Pete Creek.
Fall, Uttle Fall,
Big Fall, Winberry,and Lost Creeks.
None.
Upper Sandy R.
Same as present.
Same as present.
About same aspresent.
Mohawk Creek
removed fromproduction bypast loggingpractices.
Eleven km. of
main stream inun-dated by CougarDam.
About 1,508 km.
of streams cutoff by Dexter andLookout PointDams. No record
of spawning in
river belowDexter Dam.
Former runs werepresent in the
upper Coast Fork.
l^per and lowerRow R,
Portions of lowerSandy and tribu-taries.
Important producer of springChinook salmon. Present spawningarea threatened by proposedwater-use developments.
Numerous good spawning areasand resting pools.
Finley Dam, built in 1847, about
72 km. above the mouth, blockedruns for 102 years. Best spawn-
ing area became available afterthis dam washed out in 1949.
Stream improvement work hasbeen accomplished, but runs are
still small.
River has remained a good pro-ducer in spite of losses of bothupstream and downstream migrantsat following projects: Irriga-
tion District Canal, Eugene-
Springfield Supply Diversion,
and Walterville Canal. A barrierand bypass at Walterville Canaland bypass at Leaburg PowerPlant are needed for adults.
Screens are needed at the diver-sions. Stream has excellentwater supply, proper size ofgravel, and suitable gradientfor spawning. Produces largestrun in Willamette system (esti-
mated at 45-50 percent).
Cougar Dam, dedicated May 9,
1964, is about 6 km. from mouth.
Strube Dam, to be constructed3 km. down from Cougar, willregulate flow. Important spawn-ing area will be inundated, but
area above dame will be kept in
production by fish passagedevices.
Spring runs which formerlyspawned above Dexter Dam are
now maintained by the WillametteHatchery (O.F.C). Many fish
lost in holding ponds because of
disease in former years. Im-
proved treatment and handlinghave reduced losses in recent
years. Good-sized runs returnedin 1963.
Domestic and mining pollutiondepleted runs before construc-
tion of Cottage Grove Dam in
1942, which blocked runs 45 km.
above mouth. Releases of wannwater from the dam prevent use
of downstream areas by springChinook.
Little information on extent of
former runs. Dorena Dam blocked
Row R. in 1949.
Sandy Hatchery (O.F.C.) rears
part of the spring chinook run
and the rest spawn in upperwatershed.
29, 40
29, 40
29, 40
29, 40
29, 40
See footnotes at end of table.
Table 2. --Continued
stream
Table 2. --Continued
Stream
Table 2. --Continued
Stream
Table 2.—Ctontlnued
Stream
Table 2. --Continued
Stream
Table 2.
Table 2. --Continued
Stream
500
450
400
350
I
^300wQZ<
° 250
200<
oo2Xo
150
100
50
TOTAL SPRING
SPRING RUN
SUMMER RUN
SUMMER RUN
X _1_
1939 41J L i
.I L J L
^3 ^5J I L
'47 49 51 '53
YEAR'55 '57 '59 '61 '63 '65
Figure 2 —Runs of spring and summer Chinook salmon in the Columbia River, 1939-66. Runs exclude catches by
the sport fishery in the ocean and lower Columbia River, landings by the offshore troll fishery, and the escape-
ment to tributary streams entering the Columbia River below Bonneville Dam with theexceptlonof the Willamette
River run. The straight lines have been derived from the least squares method.
14
Table 4. — Estimated average numbers of spring- and suminer-
run Chinook salmon entering tributaries of the ColumbiaRiver^
Stream
Cowlitz River.
Willamette River
Sandy River
Wind River
Klickitat River
Deschutes River
Snake River tributaries
:
Tucannon River
Grande Ronde River
Salmon River
Imnaha River
Powder River (Eagle Creek).
Weiser River
Yakima River
Wenatchee River..,
aitiat River
Methow River
Okanogan River....
Total.
1952-62
{')
1960-61
1950-60
(')
1950-60
19i8-60
1957-60
1948-60
194-8-60
1951-59
1957-61
1957-60
1957-60
1957-60
1957-60
Number
of fish
Thousands
10
56
1
1
5
5
2
10
104
5
2
2
6
16
1
11
1
238
^ Estimates of numbers entering individual tributariesare based on counts in spawning areas.
^ Period of years on which estimate is based.* Specific years lanknown.
State and Federal fishery biologists made theestimates after surveying or observing spawn-ing in tributaries of their respective districts
.
I believe (as do many other biologists) thatmost of the streams are capable of supportingmore Chinook salmon than are listed in thetable. Estimates in the Willamette River arebased on a combination of fish counts at theWillamette Falls fishway (1952-62), the sportcatch below Willamette Falls, and the run intothe Clackamas River. Above the main stemdams--Bonneville, The Dalles, and McNary--average counts for the 4 years, 1957-60 (U.S.Army Corps of Engineers, 1964), were usedto determine the numbers of fish availablefor spawning above each dam. For example,the average count of spring- and summer- runChinook salmon for the 4 years at McNaryDam was about 160,000 fish. Major"* estimatedthat runs to the Yakinna River averaged 6,000on the basis of surveys and counts at dams
for 1957-61. Counts of fish at Rock IslandDam provided a record of populations abovethe mouth of the Yakima; these counts averagedabout 29,000 for the same period. The sum ofthe above figures was subtracted from 160,000to leave an average of about 125,000 for theSnake River.
Figure 3 shows that the differences ofspring- and summer- run chinook salmoncounted at McNary and Bonneville Dams dur-ing 1954-56 vary from 62,000 to 162,000fish. The difference during 1957- 6 1 was 25, 000to 51,000 fish. The greater numbers lostbetween the two dams before 1957 was due tothe take at Celilo Falls by the Indian dip netfishery. Construction of The Dalles Dam in1958 inundated the Celilo Indian fishery andallowed a greater number to pass McNaryDam. An Indian gill net fishery was estab-lished above Bonneville about 1961, whichagain widened the gap between numbers countedat Bonneville and McNary Dams.
Distribution and size of present spring-summer runs of chinook salmon are givenin map 3.
U.240 -
Figure 3.— Total counts of spring and summer chinook
salmon at Bonneville, McNary, and The Dalles Dams,1954-66.
^ Personal communication, Richard L. Major, Fishery
Research Biologist, Bureau of Commercial Fisheries
Biological Laboratory, Seattle, Wash. 98102, October 26,
1961.
15
The importance of the Salmon River as a
major contributor to runs of spring andsunnmer chinook salmon in the ColumbiaRiver is readily evident. On the average,about 44 percent of the spring and summerruns entered the Salmon River. The WillametteRiver and the Columbia River network abovethe mouth of the Snake River ranked secondand third in importance according to popula-tion of chinook salmon.
FALL-RUN CHINOOK SALMONFall- run chinook salmon are distinguished
from the other runs by their period of migra-tion; the fish enter the lower Columbia Riverfrom late summer to late fall. Those spawningin the tributaries of the lower Columbia Riverenter from August through October; spawningoccurs shortly thereafter. The peak of fall
chinook salmon runs destined for the middlereaches of the river arrives at BonnevilleDam about the first of September; it is fol-
lowed by peaks at The Dalles and McNaryDams 1 and 2 weeks later.
Spawning Areas
Fall-run chinook salmon in the ColumbiaRiver drainage spawn principally in the lowertributaries and in sections of the lower andmiddle main stem (map 4). Spawning areas of
fall chinook salnnon in tributaries of the lowerColumbia River are presented in greaterdetail in map 5. Table 5 gives the locationand extent of all known areas used by theseruns with brief descriptive notes . The number-ing system was described previously forspring- and summer-run chinook salmon.
Logging by early white settlers was espe-cially destructive to spawning areas for fall
chinook salmon in the lower Columbia Basin.Stream beds were scoured by flushing logsdownstream to the mills. Logging wasteswere deposited in stream channels and oftenformed logjams that became so large theyblocked access to the, stream. Removal ofcover from the watershed caused erosion, andthe resulting siltation choked the stream-beds.Many watersheds now have a second growth
cover, and productive capacity of the streamsfor rearing salmonids has improved accord-ingly. Under the Columbia River FisheryDevelopment Program, conditions for spawn-ing in tributaries of the lower Columbia havebeen further improved by removal of obstruc-tions in streams and construction of fishladders at natural falls and at dams.
Construction of large river-run dams onthe main stem of the Columbia River hasunquestionably removed some of the nnostvaluable spawning grounds for fall- run chi-nook salmon. Other dams, either under con-struction or in the planning stage, will form
reservoirs that will inundate nearly all of
the remaining spawning areas in the mainColumbia and Snake Rivers. Efforts are beingmade to maintain these runs with artificial
spawning channels and hatcheries . Maintenanceof future runs in the rivers above BonnevilleDam will hinge largely on the success ofthese artificial means of production.
The upper reaches of the main ColumbiaRiver were used by fall chinook salmonbeforethe construction of Grand Coulee Dam startedin 1939. This run, however, had been reducedconsiderably before the fish counts werebegun at Rock Island Dam in 1933. Fall-runchinook salmon in this part of the ColumbiaRiver used the main stream and lower portionsof the San Foil, Spokane, Fend Oreille, andKootenay Rivers. The upper limit of spawningby fall chinook salmon in the Columbia Riverhas not been clearly defined because of thedifficulty in distinguishing between fall- andsummer-run chinook salmon on the spawninggrounds
.
Chapman (1943) described spawning of chi-nook salmon in the main stem of the ColumbiaRiver and estimated that in 1938, before theblockage of salmon runs by Grand CouleeDam, 800 to 1,000 chinook salmon spawned in
a 3.Z-km. (2-mile) area below Kettle Falls.
Thus, between 15 and 20 percent of the total
run of 4,801 chinook salmon passing RockIsland Dam in 1938 spawned in this area.Other spawning areas reported by Chapmanwere at Daisy and Rogers Bar- -about 32 and64 km. below Kettle Falls. I believe that thesechinook salnnon spawners in this area of the
Columbia River were both summer- and fall-
run migrants.Additional spawning in the main stem was
reported by Fish and Hanavan (1948) duringaerial surveys of the Columbia River fromGrand Coulee Dam to the confluence with the
Snake River. Edson (1958a and 1958b) alsolocated main stem spawning areas duringpreimpoundment studies at Priest Rapids,Wanapum, and Rocky Reach Dams. Salmonredds and spawning were observed on gravelbars along the shore and at the mouths of
tributaries.The areas below the confluence of the Snake
River are more turbid, and it has been diffi-
cult to distinguish redds and spawning salmonin this reach of the Columbia River. Evidenceindicates, however, that a large population of
fall chinook salmon spawns in the 160-knn.stretch of river below McNary Dam. This areawill be inundated when John Day Dam is com-pleted in 1968.
Historically, chinook salmon (believed to
be fall-run fish) were reported by fishermento have ascended the Snake River to the foot of
Shoshone Falls, 976 km. above the mouth of
the Snake River, but probably most of the
run never reached this falls owing to diffi-
cult, turbulent rapids at Augur Falls, I6 km.
16
Table 5. --Present and former spawning areas of ^11 Chinook salmon, Columbia River and tributaries
Stream
Table 5.— Continued
Stream
Table 5. --Continued
Stream
Table 5.—Continued
Stream
-Catch of Chinook salmon in the Columbia
seasons, 1928-66-Estimated number of fish in runs of fall Chinook
saljnon, Columbia River, 1938-66^
1928.
1929.1930.1931.1932.1933.1934.1935.
1936.1937.1938.1939.1940.1941.
1942.
1943.
1944.
1945.1946.
1947.
1948.1949.1950.
1951.1952.1953.
1954.
1955.1956.
1957.
1958.
1959.
1960.1961.
1962.
1963.
1964.1965.1966.
SpringTotal
spring-
Thousands of kilograms
1,0001,1661,3241,3621,164731743
1,157958
1,551815740360665503604
490710559556902
774595903
1,322808660
1,5831,158
8791,066
628451532
793675538650305
2,3182,2721,9002,5062, 510.
3,0442,2642,2241,6611,328
992
1,544847883660404528233
207449289U7196286319321269504
7766066585773664182592W14950
3,3183,4383,2243,8683,6743,7753,0073,3812,6192,8791,8072,2841,2071,5481,1631,0081,018
943
7661,0051,191
911791
1,1891,6411,129929
2,0871,9341,4851,7241,205
817950
1,052929687700313
4,1403,0124,1185,6663,5094,51A5,3443,4944,5955,5723,8573,8494,9248,9777,3074,1885,3674,9595,7106,8326,6993,9843,9363,3651,6582,0251,5151,8231,7941,2641,243
982998
1,0051,4601,0671,3902,0501,304
Landed,
lowerriver
Count at
Bonne
-
viUeDam
Landed
aboveBonne-ville
Escape-
ment toareasabove
Bonne-ville
Humber of fish
1938
Table 8- —Average number of fall-run chinook salmon entering
sections of the Columbia River and its tributaries^
Stream
Klaskanine, Grays, ELokomin,
Clatskanie Rivers, and Big and
Gnat Creeks _
Cowlitz River .
Kalama RiverLewis RiverWashougal River
Tanner Creek (Hatchery) i . .
.
Eagle Creek ( " )
Herman Creek ( " )
Wind RiverLittle White Salmon RiverSpring Creek ( Hatchery
)
Big White Salmon RiverHood RiverKlickitat River
Columbia River, John Day
damsite to McNary Dam
Snake River:Main Snake, mouth to Salmon River
jxinction
Main Snake from mouth of SalmonRiver to Oxbow Dam
Main Snake above Brownlee Dam. . .
.
Columbia River, Pasco to Chief
Joseph Dam
Total
Period
{')
to modest runs of these fish are the:
Willamette, Wenatchee, Methow, Cowlitz,
Grande Ronde, Yakima, Imnaha, Klickitat,
and Deschutes Rivers. In recent years the
escapement to the Yakima River has beenseriously depleted by an intensive Indian
fishery. Small runs of this group of fish
migrate to the Tucannon, Sandy, Wind, Entiat,
Okanogan, Kalama, Clearwater, John Day,
Umatilla, and Walla Walla Rivers and sev-
eral smaller tributaries of the middle SnakeRiver.Spawning areas for spring- and summer-
run Chinook salmon have been taken out of
production by water-use developments in
nearly every tributary of the Columbia Basin.Grand Coulee, Dexter, and Lewiston Damsare notable examples of obstructions that cut
off large areas from access to migratoryfish in the upper Columbia, Middle ForkWillamette, and Clearwater Rivers. Irriga-
tion practices were responsible for the loss
of runs in most of the John Day, Umatilla,and Walla Walla Rivers in addition to a num-ber of tributaries of the middle and upperSnake River.
Fall- run chinook salmon spawn in the fol-
lowing tributaries of the Columbia River:Youngs, Grays, Elokomin, Clatskanie, Cowlitz,Kalama, Lewis, Willamette, Washougal, Sandy,Wind, Little White Salmon, Big White Salmon,Hood, Klickitat, and Yakima Rivers; and Big,
Gnat, Mill, and Abernathy Creeks. They alsouse spawning areas in the main stem of the
Columbia River above The Dalles pool to
McNary Dam, above the McNary pool to
Priest Rapids Dam, off the mouth of the
Wenatchee River near the head of Rock Islandpool, and in the main Snake River from abovethe Ice Harbor pool to areas below HellsCanyon dannsite.
Fall chinook salmon runs in Tanner, Eagle(Cascade), and Herman Creeks and Little
White Salmon River are maintained almostentirely by State and Federal hatcheries be-cause little natural spawning occurs in thesestreams. Hatcheries also supplement naturalproduction in numerous other tributaries of
the lower Columbia River. A hatchery main-tains all of the production in Spring Creek.
Spawning areas for fall- run chinook salmonhave been lost in the Cowlitz, Lewis,Willamette, Wind, Little White Salmon, andHood Rivers, in sections of the main ColumbiaRiver inundated by reservoirs or cut off byChief Joseph Dam, and in the Snake Riverabove Hells Canyon damsite.
The reservoir at John Day Dam, underconstruction, will soon inundate all of the re-
maining spawning areas in the main stem of
the Columbia River with the exception of the
I6l-km. stretch from the head of McNaryPool to Priest Rapids Dam. Most of the spawn-ing grounds in the nnain stem of the SnakeRiver also will eventually be inundated bydanas
.
The largest group--about 41,000--of fall
chinook salmon (based on 1957-60 averages)migrated to the Snake River. The secondlargest unit, a group of about 34,000 fall-runchinook salmon, used the main ColumbiaRiver from John Day damsite to McNary Dam.Other current production areas in descendingorder of estimated runs for the above periodare: Spring Creek (hatchery), Cowlitz,Kalama, and Little White Salmon Rivers.
Estimated size of the fall chinook salmon runfor 1938-66 ranged from 231,835 to 1,175,779fish, and runs of spring and summer chinooksalmon for the same years ranged from175,365 to 512,785. These estimates werederived by converting the commercial catchin pounds to numbers of fish and adding the
number of fish passing Bonneville Dam. Un-known landings by the ocean troll fishery andcatches by sport fishermen (though believedto be considerable) were not included. Trendlines since 1938 indicate some improvementin spring and summer chinook salmon runs,whereas fall runs show a serious decline.
Many tributaries of the Columbia and SnakeRivers have spawning and rearing areas of
good quality. The key to increased productionprobably lies in better survival of the eggs,fry, and fingerlings--not to mention the safe,
timely migration of juveniles frona the rearingareas to the ocean. If passage and rearingconditions were improved in the main stemsof these rivers, the runs would increase andeventually lead to a greater harvest by the
fisheries
.
ACKNOWLEDGMENTS
Many State and Federal officials suppliedunpublished information on the location of
spawning gravel throughout the ColumbiaBasin. The following fishery biologists either
reviewed the original draft or pointed out
chinook salmon spawning areas in their dis-tricts: Henry O. Wendler, Washington De-partment of Fisheries; Robert Rennie andDorian Lavier, Washington Department of
Game; Robert T. Gunsolus, Jack Van Hyning,Lawrence Korn, and Jack Thompson, FishCommission of Oregon; Charles J. Campbelland Jim Hewkin, Oregon State Game Commis-sion; and Forrest R. Hauck, formerly with the
Idaho Department of Fish and Game.
23
LITERATURE CITED
(Citations have been nunnbered to pernnit easyreference in tables)
1. BJORNN, TED C, and MONTE RICHARDS.1961. Aerial survey of chinook salmon
redds in the Salmon and WeiserRiver drainages, 1960. Dep. FishGame, Idaho, 1 1 pp. + add. 26 pp.[Processed.]
2. BRYANT, FLOYD G.1949. A survey of the Columbia River
and its tributaries with specialreference to the management of
its fishery resources -- Part II.
Washington streams from the
mouth of the Columbia to and in-
cluding the Klickitat River (Area I).
Fish Wildl. Serv., Spec. Sci. Rep.62, ii + 110 pp.
3. BRYANT, FLOYD G., and ZELLE. PARK-HURST.1950. Survey of the Columbia River
and its tributaries- - Part IV. AreaIII. Washington streams from the
Klickitat and Snake Rivers to GrandCoulee Dam, with notes on the
Columbia and its tributaries aboveGrand Coulee Dam. Fish Wildl.Serv., Spec. Sci. Rep. Fish. 37,
ii + 108 pp.4. BUREAU OF COMMERCIAL FISHERIES.
1958. Fishery development program of
the Columbia River, progress re-port. Bur. Com. Fish., Portland,Oreg., 120 pp. [Processed.]
5. 1960. Review report, Columbia Riverfishery development program.Bur. Com. Fish., Portland, Oreg.,vol. 1, 33 pp.; vol. 2, append. A-I,149 pp. [Processed.]
6. 1961. Report of activities 1959-60.Columbia River Program Office,
Bur. Com. Fish., Portland, Oreg.,21 pp. [Processed.]
7. 1964. Columbia River program- - 1963.
U.S. Fish Wildl. Serv. Circ. 192,
iii + 20 pp.8. CHAPMAN, WILBERT M.
1943. The spawning of chinook salmonin the main Columbia River. Copeia1943(3): 168-170.
9. COLUMBIA BASIN INTERAGENCY COM-MITTEE.1957. Colunnbia River Basin fishery
program- - Part 2, Inventoryof streams and proposed improve-ments for development of the fish-ery resources limited to tributariesabove McNaryDam. Fish. SteeringComm., Portland, Oreg., 100 pp.[Processed.]
10. CRAIG, JOSEPH A., and ROBERT L.HACKER.1940. The history and development of
the fisheries of the Columbia River.Bull. U.S. Bur. Fish. 49: 133-216.
11. EDSON, QUENTIN A.1958a. Biological report, Priest Rapids
fisheries research program. Wash.Dep. Fish., 15 pp. [Processed.]
12. 1958b. Biological report, Rocky Reachfisheries research program. Wash.Dep. Fish., 24 pp. [P r o c-
essed.]13. EVERMANN, BARTON W.
1896. A preliminary report on salmoninvestigations in Idaho in 1894.Bull. U.S. FishComm. 15: 253-284.
14. FISH AND WILDLIFE SERVICE.1951. Lower Columbia River fisheries
development program sub-basinreports, Portland, Oreg. Separatearea reports; varied pagination.[Processed.]
15. 1952-57. Fishery development programof the Columbia River, progressreports for fiscal years 1952 to
1957, Portland, Oreg. Varied pagi-nation. [Processed.]
16. FISH COMMISSION OF OREGON andWASHINGTON STATE DEPARTMENTOF FISHERIES.1967. The 1966 status report on the
Columbia River commercial fish-
eries. 97 pp. [Processed.]17. FISH, FREDERIC F., and MITCHELL G.
HANAVAN.1948. A report upon the Grand Coulee
fish-maintenance project, 1939-47.Fish Wildl. Serv., Spec. Sci. Rep.55, iv + 63 pp.
18. FRENCH, ROBERT R., and R. J. WAHLE.1960. Salmon runs--upper Columbia
River, 1956-57. U.S. Fish Wildl.Serv., Spec. Sci. Rep. Fish. 364,
iii + 15 pp.19. 1965. Salnnon escapements above Rock
Island Dam, 1954-60. U.S. FishWildl. Serv., Spec. Sci. Rep. Fish.493, iii + 18 pp.
20. GUNSOLUS. ROBERT, and GEORGE J.
EICHER.1962. Evaluation of the fish-passage
facilities at the Pelton project onthe Deschutes River in Oregon.Fish Comm. Oreg. and PortlandGen. Elec. Co., Portland, Oreg.,133 pp. [Processed.]
21. HAAS, JAMES B., and H. C. WARREN.1961. Environmental survey report
pertaining to salmon and steelheadin certain rivers of Eastern Oregonand the Willamette River and its
t r ib ut a r ie s--Part III, Survey
24
reports of the Deschutes and John 30.
Day Rivers and Fifteen Mile Creek.Fish Comm. Oreg., 52 pp. [Proc-essed.] (U.S. Fish Wildl. Serv.,Bur. Com. Fish., contract 14-19-001-178, amend.)
22. MURPHY, LEON W., and HOWARD E.
METSKER.1962. Inventory of Idaho streams con-
taining anadromous fish includingrecommendations for improvingproduction of salmon and steel- 31.head--Part II, Clearwater RiverDrainage. Idaho Dep. Fish Game,197 pp. [Processed.] (U.S. FishWildl. Serv., Bur. Com. Fish.,contract 14-19-001-431, June1962.)
23. NIELSON, REED S. 32.
1950. Survey of the Columbia Riverand its tributaries--Part V. FishWildl. Serv., Spec. Sci. Rep. Fish.38, ii + 41 pp.
24. OREGON STATE GAME COMMISSION.1963a. The fish and wildlife resources
of the Umatilla Basin, Oregon, and 33.their water use requirements. Areport to the State Water ResourcesBoard, 36 pp. + append. 33 pp.[Processed.]
25. 1963b. The fish and wildlife resourcesof the Hood Basin, Oregon, and their 34.water use requirements. A reportto the State Water Resources Board,Fed. aid to fish restoration, progr.rep., 33 pp. + append. 20 pp. [Proc-essed.] (Proj. F-69-R1, Job 1.)
26. PARKHURST, ZELL E.1950a. Survey of the Columbia River
and its tributaries- -Part VI, AreaV - Snake River system from themouth through the Grande RondeRiver. Fish Wildl. Serv., Spec.Sci. Rep. Fish. 39, ii + 58 pp.
27. 1950b. Survey of the Columbia River 35.and its tributaries - -Part VII, AreaVI. Snake River from above theGrande Ronde River through thePayette River. Fish Wildl. Serv.,Spec. Sci. Rep. Fish. 40, ii +95 pp.
28. 1950c. Survey of the Columbia Riverand its tributaries- -Part VIII, AreaVII. Snake River above PayetteRiver to upper Salmon Falls. FishWildl. Serv., Spec. Sci. Rep. Fish. 36.
57, ii + 19 pp.29. PARKHURST, ZELL E., FLOYD G.
BRYANT, and REED S. NIELSON.1950. Survey of the Columbia River
and its tributaries --Part III. FishWildl. Serv., Spec. Sci. Rep. Fish.36, ii +103 pp.
PULFORD, EARL F., LAWRENCE M.WOODALL, and JAMES S. NORTON.1963. Chinook and silver salmon av-
erage weight sampling statistics,an evaluation of variability as-sociated with conversion factors,landings and numbers sampled formarks from the Columbia Rivercommercial fishery for the years1951-62. Fish Comm. Oreg.,2 pp. + 24tables. [Processed.]
RICH, WILLIS H.1948. A survey of the Columbia River
and its tributaries with specialreference to the management of its
fishery resources -- Part I, Intro-duction. Fish Wildl. Serv., Spec.Sci. Rep. 51, i + 26 pp.
RICHARDS, MONTE, and STACY GEB-HARDS.1959. Aerial surveys of spring chinook
salmon redds in the Salmon andWeiser River drainages, Idaho,1958. Dep. Fish Game, Idaho,46 pp. [Processed.]
RICHARDS, MONTE, and TED C.BJORNN.1960. Aerial survey of chinook salmon
redds in the Salmon and WeiserRiver drainages, Idaho, 1959. Dep.Fish Game, Idaho, 40 pp. [Proc-essed.]
THOMPSON, ROBERT N., and JAMES B.HAAS.1960. Environmental survey report
pertaining to salmon and steelheadin certain rivers of EasternOregonand the Willamette River and its
tributaries -- Part I, Survey reportsof eastern Oregon rivers. FishComm. Oreg., 432 pp. + append.A-C, 79 pp. [Processed.] (U.S.Fish Wildl. Serv., Bur. Com. Fish.,contract 14-17-001-178, June1960.)
TUNISON, ABRAHAM V., and DONALDL. McKERNAN.1960. A report on the fish and wildlife
resources affected by the BrucesEddy Dam and Reservoir, NorthFork Clearwater River, Idaho.U.S. Bur. Sport Fish. Wildl. andU.S. Bur. Com. Fish., River BasinStudies, letter rep. (6 pp.) withsubstantiating rep., 40 pp. + 4 figs.
[Processed.]U.S. ARMY CORPS OF ENGINEERS.
1964. Annual fish passage report, NorthPacific division, Bonneville, TheDalles, McNary, and Ice HarborDams, 1963. Portland and WallaWalla Dist., 20 pp. + 74 tables,33 figs., 7 pages of photographs.[Processed.]
25
37. WARD, DALE, ROBERT ROBISON, andARTHUR PALMEN.1964. 1963 fisheries statistical report.
Wash. State Dep. Fish., 73rd ann.
rep., pp. 125-216.38. WASHINGTON DEPARTMENT OF FISH-
ERIES.1938. Report of the preliminary in-
vestigations into the possible meth-ods of preserving the ColumbiaRiver salmon and steelhead at the
Grand Coulee Dam. Prepared for
Bur. Reclama. by Wash. Dep. Fish.,
in cooperation with Dep. Game, andU.S. Bur. Fish., 121 pp. [Proc-essed.]
39. WASHINGTON DEPARTMENT OF FISH-ERIES and U.S. FISH AND WILDLIFESERVICE.1951. Lower Columbia River fisheries
development program sub-basin
reports. Wash. Dep. Fish, in col-laboration with Fish Wildl. Serv.,separate area reports, varied pagi-nations. [Processed.]
40. WILLIS, RAYMOND A., MELVIN D.COLLINS, and ROY E. SAMS.1960. Environmental survey report
pertaining to salmon and steelheadin certain rivers of Eastern Oregonand the Willamette River and its
tributaries- -Part II, Survey re-ports of the Willamette River andits tributaries. Fish Comm. Oreg.
,
554 pp. + append. A-C, 87 pp.[Processed.] (U.S. Dep. Interior,
Fish Wildl. Serv., Bur. Com. Fish.,contract 14-17-001-178, June1960.)
MS. #1655
GPO 994- 665
26
MBL WHOI Library - Serials
5 WHSE 01762
CARMEN-SMITH 0AM
PRESENT SPAWNING AREASFORMER SPAWNING AREAS
III I! I
10 20 KM
Map 2.—Spawning areas of spring Chinook salmon in the Willamette River system—past and present. Broken lines
indicate intermittent spawning areas.
SCALE IN KILOMETERS I I 1
5 10
Map 5,"Spawnlng areas of fall chinook salmon in tributaries of the lower Columbia River—past and present.
Broken lines indicate intermittent spawning areas.
Mip 6.—Olstrlbuilon ol fall cWnook salmon in ihe Columbia Rl^fe^ Basin, based on various estlmaies, 1944-63. Thiwidth (H Ihe sliaded irea rcpresenis an appni«m«Uon ol number o( llsh In the run.
Map 3.~Dlstrlbuilon ol spring and summer chlnook salmon in the Columbia River Basin, based on various
estimates, 1948-62. The width of the shaded area represents an approximation of number of fish In the run.
As the Nation's principal conservation agency,
the Department of the Interior has basic responsibilities
for water, fish, wildlife, mineral, land, park, and rec-
reational resources. Indian and Territorial affairs are
other major concerns of America's "Department of
Natural Resources."
The Department works to assure the wisest choice
in managing all our resources so each will make its
full contribution to a better United States — now and
in the future.