期刊
PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES
卷 376, 期 1830, 页码 -出版社
ROYAL SOC
DOI: 10.1098/rstb.2020.0214
关键词
salmon; heart rate; hatchery; spawning; migration; rearing
类别
资金
- Canada Foundation for Innovation
- NSERC
- W. Garfield Weston Foundation
- Hellman Family Fellows Fund
- Norwegian Research Council [320726]
- Swedish research council (Vetenskapsradet) [2018-00516]
- Swedish Research Council [2018-00516] Funding Source: Swedish Research Council
During spawning, adult Pacific salmonids face challenging upriver migrations where energy and oxygen delivery must be balanced with locomotion, maturation, and spawning behaviors within the constraints of cardiac capacity. This study implanted migrating adult Chinook salmon with heart rate biologgers to monitor cardiac function, finding that water temperature, discharge, fish size, and fish origin all influenced heart rate. Wild fish had slower resting heart rates and higher scope for heart rate variation compared to hatchery fish.
During spawning, adult Pacific salmonids (Oncorhynchus spp.) complete challenging upriver migrations during which energy and oxygen delivery must be partitioned into activities such as locomotion, maturation and spawning behaviours under the constraints of an individual's cardiac capacity. To advance our understanding of cardiac function in free-swimming fishes, we implanted migrating adult Chinook salmon (Oncorhynchus tshawytscha) collected near the mouth of the Sydenham River, Ontario, with heart rate (f(H)) biologgers that recorded f(H) every 3 min until these semelparous fish expired on spawning grounds several days later. Fundamental aspects of cardiac function were quantified, including resting, routine and maximum f(H), as well as scope for f(H) (maximum-resting f(H)). Predictors of f(H) were explored using generalized least-squares regression, including water temperature, discharge, fish size and fish origin (wild versus hatchery). Heart rate was positively correlated with water temperature, which aligned closely with daily and seasonal shifts. Wild fish had slower resting heart rates than hatchery fish, which led to significantly higher scope for f(H). Our findings suggest that wild salmon may have better cardiac capacity during migration than hatchery fish, potentially promoting migration success in wild fish. This article is part of the theme issue 'Measuring physiology in free-living animals (Part I)'.
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