Determinants of lemming outbreaks

Determinants of lemming outbreaks

Population outbreaks in tundra rodents have intrigued scientists for a century as a result of their spectacular appearances and their general lessons in ecology. One outstanding question that has led to competing hypotheses is why sympatric lemmings and voles differ in regularity and shape of their...

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Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 108; no. 5; pp. 1970 - 1974
Main Authors: Ims, Rolf A, Yoccoz, Nigel G, Killengreen, Siw T
Format: Journal Article
Language:English
Published: United States National Academy of Sciences 01-02-2011
National Acad Sciences
Subjects:
Altitude
Animals
Arvicolinae - physiology
Biological Sciences
Climate models
Ecosystems
Epidemics
Modeling
Population dynamics
Population ecology
Population Growth
Predation
Rodents
Summer
Temperature
Tundras
Voles
Winter
Finnmark Norway
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Summary:Population outbreaks in tundra rodents have intrigued scientists for a century as a result of their spectacular appearances and their general lessons in ecology. One outstanding question that has led to competing hypotheses is why sympatric lemmings and voles differ in regularity and shape of their outbreaks. Lemming outbreaks may be lost for decades while vole populations maintain regular population cycles. Moreover, when lemming populations eventually irrupt, they do so more steeply than the vole populations. Norwegian lemmings exhibited a large-scale outbreak synchronously with gray-sided voles in Finnmark, northern Fennoscandia, during 2006 to 2007 for the first time in two decades. Analyses of spatial variability of this outbreak across altitudinal gradients allowed us to identify determinants of the contrasting lemming and vole dynamics. The steeper lemming outbreak trajectories were caused by breeding and population growth during winter, when nonbreeding vole populations consistently declined. The differently shaped lemming and vole outbreaks appear to result from a particular demographic tactic of lemmings that evolved as an adaptation to the long and cold Arctic-Alpine winters. The lemming outbreak amplitude increased with altitude and vole density, indicating that lemming outbreaks are jointly facilitated by low temperatures and apparent mutualism with voles mediated by shared predators. High sensitivity to variation in climate and predation is likely to be the reasons why lemmings have more erratic population dynamics than sympatric voles. The combination of continued climatic warming and dampened vole cycles is expected to further decrease the frequency, amplitude, and geographic range of lemming outbreaks in tundra ecosystems.
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Edited by Stan Boutin, University of Alberta, Edmonton, AB, Canada, and accepted by the Editorial Board December 21, 2010 (received for review August 26, 2010)
Author contributions: R.A.I. and N.G.Y. designed research; R.A.I. and S.T.K. performed research; N.G.Y. analyzed data; and R.A.I. wrote the paper.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1012714108