10.5061/DRYAD.D5F54S7
Colchero, Fernando
University of Southern Denmark
Jones, Owen R.
University of Southern Denmark
Conde, Dalia A.
University of Southern Denmark
Hodgson, Dave
University of Fribourg
Zajitschek, Felix
Animal and Plant Health Agency
Schmidt, Benedikt R.
University of Zurich
Malo, Aurelio F.
University of Oxford
Alberts, Susan C.
Duke University
Institute of Primate Research
National Museums of Kenya
Becker, Peter H.
University of Tasmania
Bouwhuis, Sandra
Institute of Avian Research
Bronikowski, Anne M.
Iowa State University
De Vleeschouwer, Kristel M.
French National Centre for Scientific Research
Delahay, Richard J.
Animal and Plant Health Agency
Dummermuth, Stefan
Info Fauna Karch UniMail Bâtiment G, Bellevaux 51 2000 NeuchâtelSwitzerland
Fernández-Duque, Eduardo
Yale University
Frisenvænge, John
University of Pennsylvania
Hesselsøe, Martin
Amphi Consult Sciencepark NOVI, Niels Jernes Vej 10 DK9220 Aalborg ØDenmark
Larson, Sam
University of Pennsylvania
Lemaitre, Jean-Francois
French National Centre for Scientific Research
McDonald, Jennifer
University of Exeter
Miller, David A.W.
Pennsylvania State University
O'Donnell, Colin
University of Oxford
Packer, Craig
University of Minnesota
Raboy, Becky E.
University of Toronto
Reading, Christopher J.
Claude Bernard University Lyon 1
Wapstra, Erik
University of Tasmania
Weimerskirch, Henri
French National Centre for Scientific Research
While, Geoffrey M.
French National Centre for Scientific Research
University of Oxford
Baudisch, Annette
University of Southern Denmark
Flatt, Thomas
University of Fribourg
Coulson, Tim
University of Oxford
Gaillard, Jean-Michel
French National Centre for Scientific Research
Vleeschouwer, Kristel M.
Royal Zoological Society of Antwerp
Hodgson, David
University of Exeter
Reading, Chris J.
Centre for Ecology and Hydrology
Data from: The diversity of population responses to environmental change
Dryad
dataset
2019
Notophthalmus viridescens
Salamandra salamandra
Aotus azarae
Capreolus capreolus
Pseudepidalea viridis
stochastic population growth
Chalinolobus tuberculatus
Falco tinnunculus
Cervus elaphus
Apodemus sylvaticus
Accipiter nisus
Parus major
Life table
Bufo bufo
Leontopithecus chrysomelas
Papio cynocephalus
Niveoscincus ocellatus
Thamnophis elegans
Ovis aries
Corvus frugilegus
Coronella austriaca
Fulmarus glacialoides
Vipera aspis
Sterna hirundo
2019-01-03T22:14:44Z
2019-01-03T22:14:44Z
en
https://doi.org/10.1111/ele.13195
52802 bytes
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CC0 1.0 Universal (CC0 1.0) Public Domain Dedication
The current extinction and climate change crises pressure us to predict
population dynamics with ever-greater accuracy. Although predictions rest
on the well-advanced theory of age-structured populations, two key issues
remain poorly-explored. Specifically, how the age-dependency in
demographic rates and the year-to-year interactions between survival and
fecundity affect stochastic population growth rates. We use inference,
simulations, and mathematical derivations to explore how environmental
perturbations determine population growth rates for populations with
different age-specific demographic rates and when ages are reduced to
stages. We find that stage- vs. age-based models can produce markedly
divergent stochastic population growth rates. The differences are most
pronounced when there are survival-fecundity-trade-offs, which reduce the
variance in the population growth rate. Finally, the expected value and
variance of the stochastic growth rates of populations with different
age-specific demographic rates can diverge to the extent that, while some
populations may thrive, others will inevitably go extinct.
LifeTablesLife tables for 24 species of terrestrial vertebrates.
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