Author
Listed:
- Brage B. Hansen
(Norwegian University of Science and Technology)
- Marlène Gamelon
(Norwegian University of Science and Technology)
- Steve D. Albon
(James Hutton Institute)
- Aline M. Lee
(Norwegian University of Science and Technology)
- Audun Stien
(Norwegian Institute for Nature Research, Fram Centre)
- R. Justin Irvine
(James Hutton Institute)
- Bernt-Erik Sæther
(Norwegian University of Science and Technology)
- Leif E. Loe
(Norwegian University of Life Sciences)
- Erik Ropstad
(Norwegian University of Life Sciences)
- Vebjørn Veiberg
(Norwegian Institute for Nature Research)
- Vidar Grøtan
(Norwegian University of Science and Technology)
Abstract
Extreme climate events often cause population crashes but are difficult to account for in population-dynamic studies. Especially in long-lived animals, density dependence and demography may induce lagged impacts of perturbations on population growth. In Arctic ungulates, extreme rain-on-snow and ice-locked pastures have led to severe population crashes, indicating that increasingly frequent rain-on-snow events could destabilize populations. Here, using empirically parameterized, stochastic population models for High-Arctic wild reindeer, we show that more frequent rain-on-snow events actually reduce extinction risk and stabilize population dynamics due to interactions with age structure and density dependence. Extreme rain-on-snow events mainly suppress vital rates of vulnerable ages at high population densities, resulting in a crash and a new population state with resilient ages and reduced population sensitivity to subsequent icy winters. Thus, observed responses to single extreme events are poor predictors of population dynamics and persistence because internal density-dependent feedbacks act as a buffer against more frequent events.
Suggested Citation
Brage B. Hansen & Marlène Gamelon & Steve D. Albon & Aline M. Lee & Audun Stien & R. Justin Irvine & Bernt-Erik Sæther & Leif E. Loe & Erik Ropstad & Vebjørn Veiberg & Vidar Grøtan, 2019.
"More frequent extreme climate events stabilize reindeer population dynamics,"
Nature Communications, Nature, vol. 10(1), pages 1-8, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-09332-5
DOI: 10.1038/s41467-019-09332-5
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