1. Estuarine and early-marine survival of transported and in-river migrant Snake River spring Chinook salmon smolts.
- Author
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Rechisky EL, Welch DW, Porter AD, Jacobs-Scott MC, Winchell PM, and McKern JL
- Subjects
- Animals, Canada, Ecosystem, Fisheries methods, Fisheries statistics & numerical data, Geography, Marine Biology methods, Marine Biology statistics & numerical data, Pacific Ocean, Population Density, Population Dynamics, Rivers, Salmon growth & development, Survival Analysis, Telemetry methods, Time Factors, United States, Adaptation, Physiological physiology, Animal Migration physiology, Estuaries, Salmon physiology
- Abstract
Many juvenile Snake River Chinook salmon are transported downriver to avoid hydroelectric dams in the Columbia River basin. As mortality to the final dam is ∼50%, transported fish should return as adults at roughly double the rate of nontransported fish; however, the benefit of transportation has not been realized consistently. "Delayed" mortality caused by transportation-induced stress is one hypothesis to explain reduced returns of transported fish. Differential timing of ocean entry is another. We used a large-scale acoustic telemetry array to test whether survival of transported juvenile spring Chinook is reduced relative to in-river migrant control groups after synchronizing ocean entry timing. During the initial 750 km, 1 month long migration after release, we found no evidence of decreased estuarine or ocean survival of transported groups; therefore, decreased survival to adulthood for transported Chinook is likely caused by factors other than delayed effects of transportation, such as earlier ocean entry.
- Published
- 2012
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