Exceptional aerobic scope and cardiovascular performance of pink salmon (Oncorhynchus gorbuscha) may underlie resilience in a warming climate

Little is known of the physiological mechanisms underlying the effects of climate change on animals, yet it is clear that some species appear more resilient than others. As pink salmon (Oncorhynchus gorbuscha) in British Columbia, Canada, have flourished in the current era of climate warming in cont...

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Bibliographic Details
Main Authors: Timothy Clark, KM Jeffries, SG Hinch, AP Farrell
Format: Article in Journal/Newspaper
Language:unknown
Published: 2011
Subjects:
Fisheries sciences not elsewhere classified
Adaptation
Physiological
Aerobiosis
Animals
British Columbia
Cardiac Output
Female
Geography
Global Warming
Heart
Male
Oxygen
Oxygen Consumption
Respiratory Physiological Phenomena
Salmon
Temperature
Water
School of Life and Environmental Sciences
Canada
Pacific
Oncorhynchus gorbuscha
Pink salmon
Online Access:http://hdl.handle.net/10536/DRO/DU:30105127
https://figshare.com/articles/journal_contribution/Exceptional_aerobic_scope_and_cardiovascular_performance_of_pink_salmon_Oncorhynchus_gorbuscha_may_underlie_resilience_in_a_warming_climate/20824117
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Summary:Little is known of the physiological mechanisms underlying the effects of climate change on animals, yet it is clear that some species appear more resilient than others. As pink salmon (Oncorhynchus gorbuscha) in British Columbia, Canada, have flourished in the current era of climate warming in contrast to other Pacific salmonids in the same watershed, this study investigated whether the continuing success of pink salmon may be linked with exceptional cardiorespiratory adaptations and thermal tolerance of adult fish during their spawning migration. Sex-specific differences existed in minimum and maximum oxygen consumption rates (M(O2,min) and M(O2,max), respectively) across the temperature range of 8 to 28°C, reflected in a higher aerobic scope (M(O2,max)-M(O2,min)) for males. Nevertheless, the aerobic scope of both sexes was optimal at 21°C (T(opt)) and was elevated across the entire temperature range in comparison with other Pacific salmonids. As T(opt) for aerobic scope of this pink salmon population is higher than in other Pacific salmonids, and historic river temperature data reveal that this population rarely encounters temperatures exceeding T(opt), these findings offer a physiological explanation for the continuing success of this species throughout the current climate-warming period. Despite this, declining cardiac output was evident above 17°C, and maximum attainable swimming speed was impaired above ∼23°C, suggesting negative implications under prolonged thermal exposure. While forecasted summer river temperatures over the next century are likely to negatively impact all Pacific salmonids, we suggest that the cardiorespiratory capacity of pink salmon may confer a selective advantage over other species.

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