Survival of a threatened salmon is linked to spatial variability in river conditions

Abstract: Extirpation of the Central Valley spring-run Chinook Salmon ESU (Oncorhynchus tshawytscha) from the San Joaquin River is emblematic of salmonid declines across the Pacific Northwest. Habitat restoration and fish reintroduction efforts are ongoing, but recent telemetry studies have revealed low outmigration survival of juveniles to the ocean. Previous investigations have focused on modeling survival relative to river discharge and geographic regions, but have largely overlooked the effects of habitat variabilit… Show more

“…Remaining early-migrating populations are constrained to the low elevation habitat of the Sacramento River and must contend with summer water temperatures, made tolerable through regulated cold-water releases from upstream reservoirs (Johnson and Lindley 2016). Proposed conservation actions, via reintroduction (Lusardi and Moyle 2017;USFWS 2018) or habitat restoration (Hause et al 2022) require matching the thermal environment to a population's thermal physiology. Determining interpopulation variation in thermal physiology is an essential step in preparing salmonid conservation for environmental change.…”

Interpopulation variation in thermal physiology among seasonal runs of Chinook salmon

“…Remaining early-migrating populations are constrained to the low elevation habitat of the Sacramento River and must contend with summer water temperatures, made tolerable through regulated cold-water releases from upstream reservoirs (Johnson and Lindley 2016). Proposed conservation actions, via reintroduction (Lusardi and Moyle 2017;USFWS 2018) or habitat restoration (Hause et al 2022) require matching the thermal environment to a population's thermal physiology. Determining interpopulation variation in thermal physiology is an essential step in preparing salmonid conservation for environmental change.…”

Interpopulation variation in thermal physiology among seasonal runs of Chinook salmon