Some consequences of Pacific salmon hatchery production in Kamchatka: changes in age structure and contributions to natural spawning populations

Abstract Hatchery programmes involving the mass release of cultured fish have been implemented worldwide to supplement wild populations and to increase harvests. Hokkaido Island is one of the most active regions for Pacific salmon hatchery programmes, with ca. 1.2 billion (109) juveniles released annually along a coastline of ca. 3000 km. During the last quarter of the 20th century, coastal catches of chum and pink salmon increased dramatically, whereas those of masu salmon did not. In addition to the development of hatchery technologies, several possible hypotheses may explain these catch trends, including climate change, closing of high-seas fisheries, rehabilitation of water quality, habitat loss caused by damming and channelling, and increased pressure from recreational fisheries. Even when these other factors have been accounted for, it is difficult to evaluate whether all hatchery programmes have actually increased net populations. To use these programmes more effectively, it is necessary to evaluate both their river- and species-specific benefits and compare hatchery programmes with other management tools, such as fishery controls and habitat rehabilitation. Future hatchery programmes should incorporate active, adaptive learning approaches to minimize the risks associated with artificial propagation and to promote sustainable salmon stocks.

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Productivity of Alaska's Salmon Hatchery Ocean Ranching Program and Management of Biological Risks to Wild Pacific Salmon

Ecological and Genetic Implications of Aquaculture Activities - Methods and Technologies in Fish Biology and Fisheries ◽

10.1007/978-1-4020-6148-6_20 ◽

2007 ◽

pp. 361-381 ◽

Cited By ~ 2

Author(s):

William W. Smoker ◽

William R. Heard

Keyword(s):

Pacific Salmon ◽

Salmon Hatchery

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A PRELIMINARY PHYSICAL AND ECONOMIC DESCRIPTION OF A PACIFIC SALMON HATCHERY IN SOUTHERN CHILE

Proceedings of the annual meeting - World Mariculture Society ◽

10.1111/j.1749-7345.1978.tb00263.x ◽

2009 ◽

Vol 9 (1-4) ◽

pp. 425-430

Author(s):

E. R. Combs ◽

R. D. Mayo ◽

C. E. Nash

Keyword(s):

Pacific Salmon ◽

Southern Chile ◽

Salmon Hatchery

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Selection equilibrium for hatchery and wild spawning fitness in integrated breeding programs

Canadian Journal of Fisheries and Aquatic Sciences ◽

10.1139/f04-187 ◽

2005 ◽

Vol 62 (2) ◽

pp. 374-389 ◽

Cited By ~ 31

Author(s):

Daniel Goodman

Keyword(s):

Wild Population ◽

Biological Characteristics ◽

Total Production ◽

Phenotypic Evolution ◽

Breeding Programs ◽

Hatchery Fish ◽

Natural Spawning ◽

Selection Equilibrium ◽

In The Wild ◽

Salmon Hatchery

Some salmon hatchery programs intentionally integrate the wild and hatchery population by taking naturally spawned fish as some fraction of the broodstock and allowing hatchery progeny to constitute some fraction of the adults spawning in the wild. This circumvents some ecological concerns about the effects of hatchery fish on the "wild" population while still reaping some of the benefits of increased potential for harvest, but it increases some genetic concerns. Here, we model phenotypic evolution in the integrated population to investigate the effects on natural spawning fitness at the joint selection and demographic equilibrium. We find a potential, but not a certainty, depending on quantitative aspects of the management interacting with biological characteristics of the stock, for substantial erosion of natural spawning fitness, compared with the original wild population, including the possibility of runaway selection driving natural spawning fitness effectively to zero. The vulnerability to such evolutionary deterioration increases with the magnitude of the contribution of hatchery breeding to the total production and increases with harvest. The response of the selection equilibrium to increasing contribution of hatchery progeny to the broodstock can exhibit a catastrophic discontinuity.

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Can late stage marine mortality explain observed shifts in age structure of Chinook salmon?

PLoS ONE ◽

10.1371/journal.pone.0247370 ◽

2021 ◽

Vol 16 (2) ◽

pp. e0247370

Author(s):

Kaitlyn A. Manishin ◽

Curry J. Cunningham ◽

Peter A. H. Westley ◽

Andrew C. Seitz

Keyword(s):

Age Structure ◽

Chinook Salmon ◽

Late Stage ◽

Marine Mammals ◽

Potential Role ◽

Oncorhynchus Tshawytscha ◽

Pacific Salmon ◽

Yukon River ◽

Abrupt Shifts

Chinook salmon (Oncorhynchus tshawytscha) populations have experienced widespread declines in abundance and abrupt shifts toward younger and smaller adults returning to spawn in rivers. The causal agents underpinning these shifts are largely unknown. Here we investigate the potential role of late-stage marine mortality, defined as occurring after the first winter at sea, in driving this species’ changing age structure. Simulations using a stage-based life cycle model that included additional mortality during after the first winter at sea better reflected observed changes in the age structure of a well-studied and representative population of Chinook salmon from the Yukon River drainage, compared with a model estimating environmentally-driven variation in age-specific survival alone. Although the specific agents of late-stage mortality are not known, our finding is consistent with work reporting predation by salmon sharks (Lamna ditropis) and marine mammals including killer whales (Orcinus orca). Taken as a whole, this work suggests that Pacific salmon mortality after the first winter at sea is likely to be higher than previously thought and highlights the need to investigate selective sources of mortality, such as predation, as major contributors to rapidly changing age structure of spawning adult Chinook salmon.

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