Summary
This paper documents differences in seasonal time of river ascent and descent, and instream behavior of adult wild and sea-ranched Atlantic salmon (Salmo salar) of the Norwegian River Imsa stock during the period 1981–1989. Wild fish use River Imsa as a nursery, and at an age of 2 years most of them migrate to the sea as smolts. The sea ranched fish are hatchery reared offspring of the River Imsa stock and are released as smolts at the mouth of the river. They are thus deprived of juvenile river life and a downstream smolt migration. Wild and sea ranched salmon feed for 1 or more years in the Norwegian Sea before homing as spawners. Both groups returned simultaneously to coastal Norway, but sea ranched fish ascended the river later and descended sooner after spawning than wild fish. All wild females and almost all wild males (96.2%) spawned in the river, whereas 13.5% and 36.7%, respectively, of the mature sea-ranched females and males left the river unspawned. The annual number, but not the proportion, of unspawned fish increased with increasing density of adult salmon in the river. Unspawned females were medium sized and small (45–70 cm); unspawned males were medium sized and large (50–90 cm). Independent of the density of spawners in the river, sea ranched fish moved up- and downstream the river more often than wild fish. More than 20% of the sea-ranched salmon and less than 1% of the wild salmon passed a trap 100 m above the river outlet more than once in each direction during the same spawning reason. Moreover, sea-ranched salmon were about twice as often seriously injured during spawning as wild fish. Lack of juvenile experience from the river may be the main reason for the behavioral differences between sea-ranched and wild fish.
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References
Allendorf FW, Utter FM (1979) Population genetics. In: Hoar WS, Randall DJ, Brett JR (eds) Fish physiology 8. Academic Press, New York, pp 407–454
Allendorf FW, Ryman N, Utter FM (1987) Genetics and fishery management. In: Ryman N, Utter FM (eds) Population genetics and fishery management. University of Washington, Seattle London, pp 1–19
Anonymous (1989) Report of the working group on North Atlantic salmon. ICES Copenhagen CM 1989/Assess 12, pp 1–127
Bams RA (1976) Survival and propensity for homing as affected by presence or absence of locally adapted paternal genes in two transplanted populations of pink salmon (Oncorhynchus gorbuscha). J Fish Res Board Can 33:2716–2725
Bogdany FJ (1978) Linking of learning signals in honeybee orientation. Behav Ecol Sociobiol 3:323–336
Brett JR, Groot C (1963) Some aspects of olfactory and visual responses in Pacific salmon. J Fish Res Board Can 20:287–303
Carlin B (1955) Tagging of salmon smolts in the river Lagan. Rep Inst Freshwater Res Drottningholm 36:57–74
Carlin B (1969) Salmon conservation in Sweden, salmon tagging experiments, the migration of salmon. Series of lectures. The Atlantic Salmon Association
Goodyear CP, Bennett DH (1979) Sun compass orientation of immature bluegill. Trans Am Fish Soc 108:555–559
Hansen LP, Jonsson B (1986) Salmon ranching experiments in the River Imsa: effects of day and night release and of sea-water adaptation on recapture-rates of adults. Rep Inst Freshwater Res Drottningholm 63:47–51
Hansen LP, Jonsson B (1989) Salmon ranching experiments in the River Imsa: effects of timing of Atlantic salmon (Salmo salar) smolt migration on survival to adults. Aquaculture 82:367–373
Hansen LP, Jonsson B, Døving KB (1984) Migration of wild and hatchery reared smelts of Atlantic salmon, Salmo salar L., through lakes. J Fish Biol 25:617–623
Hansen LP, Døving KB, Jonsson B (1987) Migration of farmed adult Atlantic salmon with and without olfactory sense, released on the Norwegian coast. J Fish Biol 30:713–721
Hansen LP, Jonsson B, Andersen R (1989) Salmon ranching experiments in the River Imsa: is homing dependent on sequential imprinting of the smolts? In: Brannon EL, Jonsson B (eds) Salmonid migration and distribution symposium. School of Fisheries, University of Washington, Seattle, pp 19–29
Harden Jones FR (1968) Fish migration. Edward Arnold Press, London
Hartt AC, Dell MB (1986) Early oceanic migrations and growth of juvenile Pacific salmon and steelhead trout. Int North Pac Fish Comm Bull 46:1–105
Hasler AD (1966) Underwater guideposts; homing of salmon. University Wisconsin Press, Madison
Hasler AD, Scholz AD (1983) Olfactory imprinting and homing in salmon. Springer, Berlin Heidelberg New York
Hasler AD, Horrall RM, Wisby WJ, Braemer W (1958) Sun-orientation and homing in fishes. Limnol Oceanogr 3:353–361
Hawkins AD (1987) The return migration of adult Atlantic salmon to the Aberdeenshire Dee, Scotland. Am Fish Soc Symp 1:558
Heggberget TG (1988) Reproduction in Atlantic salmon (Salmo salar): aspects of spawning, incubation, early life history and population structure. PhD thesis, University of Trondheim
Hellawell JM, Leatham H, Williams GI (1974) The upstream migratory behaviour of salmonids in the River Frome, Dorset. J Fish Biol 6:729–744
Jones JW (1959) The salmon. Collins, London
Jonsson N, Jonsson B, Ruud-Hansen J (1988) Downstream displacement and life-history traits of whitefish, Coregonus lavaretus, in a Norwegian river. Environ Biel Fish 23:197–204
Jonsson N, Jonsson B, Hansen LP (1990) Partial segregation in timing of migration of different aged Atlantic salmon (Salmo salar). Anim Behav (in press)
Lorenz KZ (1937) The companion in the bird's world. Auk 54:245–273
McIsaac DO, Quinn TP (1988) Evidence for a hereditary component in homing behavior of chinook salmon (Oncorhynchus tshawytscha). Can J Fish Aquat Sci 45:2201–2205
Northcote TG (1984) Mechanisms of fish migration in rivers. In: McCleave JD, Arnold GP, Dodson JJ, Neill WH (eds) Mechanisms of migration in fishes. Plenum Press, New York, pp 317–355
Papi F (1986) Pigeon navigation: solved problems and open questions. Monit Zool Ital 20:471–517
Quinn TP (1984a) An experimental approach to fish compass and map orientation. In: McCleave JD, Arnold GP, Dodson JJ, Neill WH (eds) Mechanisms of migration in fishes. Plenum Press, New York, pp 113–123
Quinn TP (1984b) Homing and straying in Pacific salmon. In: McCleave JD, Arnold GP, Dodson JJ, Neill WH (eds) Mechanisms of migration in fishes. Plenum Press, New York, pp 357–362
Quinn TP, Brannon EL (1982) The use of celestial and magnetic cues by orienting sockeye salmon smolts. J Comp Physiol 147:547–552
Saunders RL (1981) Atlantic salmon (Salmo salar) stocks and management implications in the Canadian Atlantic Provinces and New England, USA. Can J Fish Aquat Sci 38:1612–1625
Schaffer WM, Elson PF (1975) The adaptive significance of variation in life history among local populations of Atlantic salmon in North America. Ecology 56:577–590
Stabell OB (1984) Homing and olfaction in salmonids: a critical review with special reference to Atlantic salmon. Biol Rev 59:333–388
Ståhl G (1981) Genetic differentiation among natural populations of Atlantic salmon (Salmo salar) in northern Sweden. Ecol Bull 34:95–105
Ståhl G (1987) Genetic population structure of Atlantic salmon. In: Ryman N, Utter FM (eds) Population genetics and fishery management. University Washington Press, Seattle London, pp 121–140
Taft AC, Shapovalov L (1938) Homing instincts and straying among steelhead trout (Salmo gairdneri) and silver salmon (Oncorhynchus kisutch). Calif Fish Game 24:118–125
van den Berghe EP, Gross MR (1989) Natural selection resulting from female breeding competition in Pacific salmon (coho: Oncorhynchus kisutch). Evolution 43:125–140
Wallraff HG, Neumann MF (1989) Contribution of olfactory navigation and non-olfactory pilotage to pigeon homing. Behav Ecol Sociobiol 25:293–302
Wiltschko R, Wiltschko W (1989) Pigeon homing: olfactory navigation — a paradox. Behav Ecol Sociobiol 24:163–173
Wiltschko W, Wiltschko R, Keeton WT (1976) Effects of a “permanent clock-shift” on the orientation of young homing pigeons. Behav Ecol Sociobiol 1:229–243
Wiltschko W, Wiltschko R, Keeton WT (1984) The effect of a “permanent” clock-shift on the orientation of experienced homing pigeons. Behav Ecol Sociobiol 15:263–272
Wolf P (1951) A trap for the capture of fish and other organisms moving downstream. Trans Am Fish Soc 80:41–45
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Jonsson, B., Jonsson, N. & Hansen, L.P. Does juvenile experience affect migration and spawning of adult Atlantic salmon?. Behav Ecol Sociobiol 26, 225–230 (1990). https://doi.org/10.1007/BF00178315
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DOI: https://doi.org/10.1007/BF00178315