The impact of variable predation risk on stress in snowshoe hares over the cycle in North America’s boreal forest: adjusting to change

The impact of variable predation risk on stress in snowshoe hares over the cycle in North America’s boreal forest: adjusting to change

The boreal forest is one of the world’s ecosystems most affected by global climate warming. The snowshoe hare, its predators, and their population dynamics dominate the mammalian component of the North American boreal forest. Our past research has shown the 9–11-year hare cycle to be predator driven...

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Veröffentlicht in:Oecologia 2021-09, Vol.197 (1), p.71-88
Hauptverfasser: Lavergne, Sophia G., Krebs, Charles J., Kenney, Alice J., Boutin, Stan, Murray, Dennis, Palme, Rupert, Boonstra, Rudy
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Biomedical and Life Sciences
Boreal forests
Climate change
Community structure
Ecology
Ecosystems
Global climate
Global temperature changes
Global warming
Hydrology/Water Resources
Interspecific relationships
Life Sciences
Physiological aspects
Physiological Ecology–Original Research
Physiology
Plant Sciences
Population biology
Population dynamics
Predation
Predation (Biology)
Predators
Primary production
Rabbits
Risk
Stress (Psychology)
Structure-function relationships
Taiga
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container_issue 1
container_start_page 71
container_title Oecologia
container_volume 197
creator Lavergne, Sophia G.
Krebs, Charles J.
Kenney, Alice J.
Boutin, Stan
Murray, Dennis
Palme, Rupert
Boonstra, Rudy
description The boreal forest is one of the world’s ecosystems most affected by global climate warming. The snowshoe hare, its predators, and their population dynamics dominate the mammalian component of the North American boreal forest. Our past research has shown the 9–11-year hare cycle to be predator driven, both directly as virtually all hares that die are killed by their predators, and indirectly through sublethal risk effects on hare stress physiology, behavior, and reproduction. We replicated this research over the entire cycle by measuring changes in predation risk expected to drive changes in chronic stress. We examined changes in hare condition and stress axis function using a hormonal challenge protocol in the late winter of 7 years—spanning all phases of the cycle from the increase through to the low (2014–2020). We simultaneously monitored changes in hare abundance as well as those of their primary predators, lynx and coyotes. Despite observing the expected changes in hare–predator numbers over the cycle, we did not see the predicted changes in chronic stress metrics in the peak and decline phases. Thus, the comprehensive physiological signature indicative of chronic predator-induced stress seen from our previous work was not present in this current cycle. We postulate that hares may now be increasingly showing behavior-mediated rather than stress-mediated responses to their predators. We present evidence that increases in primary productivity have affected boreal community structure and function. We speculate that climate change has caused this major shift in the indirect effects of predation on hares.
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subjects Biomedical and Life Sciences
Boreal forests
Climate change
Community structure
Ecology
Ecosystems
Global climate
Global temperature changes
Global warming
Hydrology/Water Resources
Interspecific relationships
Life Sciences
Physiological aspects
Physiological Ecology–Original Research
Physiology
Plant Sciences
Population biology
Population dynamics
Predation
Predation (Biology)
Predators
Primary production
Rabbits
Risk
Stress (Psychology)
Structure-function relationships
Taiga
title The impact of variable predation risk on stress in snowshoe hares over the cycle in North America’s boreal forest: adjusting to change
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