Impact and Adaptation Responses of Okanagan River Sockeye Salmon (<i>Oncorhynchus nerka</i>) to Climate Variation and Change Effects During Freshwater Migration: Stock Restoration and Fisheries Management Implications

Hyatt, Kim D.; Stockwell, Margot M.; Rankin, D. Paul

doi:10.4296/cwrj2804689

Cited by 61 publications

(66 citation statements)

References 14 publications

(27 reference statements)

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“…The results also suggest an apparent threshold temperature for Columbia River fall Chinook salmon between 208C and 218C, above which many fish seek refugia or reduce migration activity. A similar threshold has been identified for Columbia River sockeye salmon O. nerka (Hyatt et al 2003).…”

Section: Discussionsupporting

confidence: 68%

Behavioral Thermoregulation and Slowed Migration by Adult Fall Chinook Salmon in Response to High Columbia River Water Temperatures

et al. 2006

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Abstract.-The relationships between lower Columbia River water temperatures and migration rates, temporary tributary use, and run timing of adult fall Chinook salmon Oncorhynchus tshawytscha were studied using historical counts at dams and recently collected radiotelemetry data. The results from more than 2,100 upriver bright fall Chinook salmon radio-tagged over 6 years (1998,(2000)(2001)(2002)(2003)(2004) showed that mean and median migration rates through the lower Columbia River slowed significantly when water temperatures were above about 208C. Slowed migration was strongly associated with temporary use of tributaries, which averaged 2-78C cooler than the main stem. The proportion of radio-tagged salmon using tributaries increased exponentially as Columbia River temperatures rose within the year, and use was highest in the warmest years. The historical passage data showed significant shifts in fall Chinook salmon run timing distributions concomitant with Columbia River warming and consistent with increasing use of thermal refugia. Collectively, these observations suggest that Columbia River fall Chinook salmon predictably alter their migration behaviors in response to elevated temperatures. Coolwater tributaries appear to represent critical habitat areas in warm years, and we recommend that both main-stem thermal characteristics and areas of refuge be considered when establishing regulations to protect summer and fall migrants.

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Section: Discussionsupporting

confidence: 68%

Behavioral Thermoregulation and Slowed Migration by Adult Fall Chinook Salmon in Response to High Columbia River Water Temperatures

et al. 2006

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“…Multiple studies have shown that migrating adult Pacific salmon will exploit cool water refuge to avoid warmer water temperatures during the freshwater migration, likely to conserve energy and to develop healthy gametes (Berman and Quinn, 1991;Newell and Quinn, 2005;Hyatt et al, 2003;Goniea et al, 2006;Keefer et al, 2009;Mathes et al, 2010). In our study, we found no evidence that the Puntledge River summer-run Chinook salmon were able to find and use cool water refugia, which may indicate that the river is generally well mixed.…”

Section: Cool-water Refugecontrasting

confidence: 83%

Thermal biology and bioenergetics of different upriver migration strategies in a stock of summer-run Chinook salmon

Hasler

Cooke

Hinch

et al. 2012

Journal of Thermal Biology

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“…that anomalously high river temperatures probably contributed to the mortality of millions of migrating salmon in recent years (Fraser 1995;Williams 2005), placing the sustainability of Canada's largest salmon-producing river system in jeopardy (Cooke et al 2004). Such temperature concerns extend beyond the Fraser River to the Columbia River in neighboring Washington, Idaho, and Oregon (Quinn et al 1997), where there are reports of sockeye salmon temporarily ceasing their migration when river temperature increased to 121ЊC after migration had begun (Hyatt et al 2003;Goniea et al 2006;Keefer et al 2007). It has been claimed that no sockeye population in the world has successfully established a river migration period when the historic mean water temperature exceeds 19ЊC (Hodgson and Quinn 2002).…”

Section: Salmon Migration and River Temperaturementioning

confidence: 99%

Pacific Salmon in Hot Water: Applying Aerobic Scope Models and Biotelemetry to Predict the Success of Spawning Migrations

Farrell

Hinch²,

Cooke³

et al. 2008

Physiological and Biochemical Zoology

325

382

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Concern over global climate change is widespread, but quantifying relationships between temperature change and animal fitness has been a challenge for scientists. Our approach to this challenge was to study migratory Pacific salmon (Oncorhynchus spp.), fish whose lifetime fitness hinges on a once-in-a-lifetime river migration to natal spawning grounds. Here, we suggest that their thermal optimum for aerobic scope is adaptive for river migration at the population level. We base this suggestion on several lines of evidence. The theoretical line of evidence comes from a direct association between the temperature optimum for aerobic metabolic scope and the temperatures historically experienced by three Fraser River salmon populations during their river migration. This close association was then used to predict that the occurrence of a period of anomalously high river temperatures in 2004 led to a complete collapse of aerobic scope during river migration for a portion of one of the sockeye salmon (Oncorhynchus nerka) populations. This prediction was corroborated with empirical data from our biotelemetry studies, which tracked the migration of individual sockeye salmon in the Fraser River and revealed that the success of river migration for the same sockeye population was temperature dependent. Therefore, we suggest that collapse of aerobic scope was an important mechanism to explain the high salmon mortality observed during their migration. Consequently, models based on thermal optima for aerobic scope for ectothermic animals should improve predictions of population fitness under future climate scenarios.

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Impact and Adaptation Responses of Okanagan River Sockeye Salmon (Oncorhynchus nerka) to Climate Variation and Change Effects During Freshwater Migration: Stock Restoration and Fisheries Management Implications

Cited by 61 publications

References 14 publications

Behavioral Thermoregulation and Slowed Migration by Adult Fall Chinook Salmon in Response to High Columbia River Water Temperatures

Behavioral Thermoregulation and Slowed Migration by Adult Fall Chinook Salmon in Response to High Columbia River Water Temperatures

Thermal biology and bioenergetics of different upriver migration strategies in a stock of summer-run Chinook salmon

Pacific Salmon in Hot Water: Applying Aerobic Scope Models and Biotelemetry to Predict the Success of Spawning Migrations

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