Live Fast, Die Young: Experimental Evidence of Population Extinction Risk due to Climate Change

Evidence has accumulated in recent decades on the drastic impact of climate change on biodiversity. Warming temperatures have induced changes in species physiology, phenology, and have decreased body size. Such modifications can impact population dynamics and could lead to changes in life cycle and...

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Bibliographic Details
Published in:PLoS biology 2015-10, Vol.13 (10), p.e1002281-e1002281
Main Authors: Bestion, Elvire, Teyssier, Aimeric, Richard, Murielle, Clobert, Jean, Cote, Julien
Format: Article
Language:English
Subjects:
Animal behavior
Animal Distribution
Animals
Bioclimatology
Biodiversity
Body Size
Climate Change
Clutch Size
Demography
Ecology, environment
Environmental aspects
Environmental Sciences
Extinction (Biology)
Extinction, Biological
Female
France
Global temperature changes
Hot Temperature - adverse effects
Life Cycle Stages
Life Sciences
Lizards - growth & development
Lizards - physiology
Male
Models, Biological
Physiological aspects
Population biology
Reproduction
Risk
Statistics as Topic
Stress, Physiological
Studies
Survival Analysis
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Summary:Evidence has accumulated in recent decades on the drastic impact of climate change on biodiversity. Warming temperatures have induced changes in species physiology, phenology, and have decreased body size. Such modifications can impact population dynamics and could lead to changes in life cycle and demography. More specifically, conceptual frameworks predict that global warming will severely threaten tropical ectotherms while temperate ectotherms should resist or even benefit from higher temperatures. However, experimental studies measuring the impacts of future warming trends on temperate ectotherms' life cycle and population persistence are lacking. Here we investigate the impacts of future climates on a model vertebrate ectotherm species using a large-scale warming experiment. We manipulated climatic conditions in 18 seminatural populations over two years to obtain a present climate treatment and a warm climate treatment matching IPCC predictions for future climate. Warmer temperatures caused a faster body growth, an earlier reproductive onset, and an increased voltinism, leading to a highly accelerated life cycle but also to a decrease in adult survival. A matrix population model predicts that warm climate populations in our experiment should go extinct in around 20 y. Comparing our experimental climatic conditions to conditions encountered by populations across Europe, we suggest that warming climates should threaten a significant number of populations at the southern range of the distribution. Our findings stress the importance of experimental approaches on the entire life cycle to more accurately predict population and species persistence in future climates.
ISSN:1545-7885
1544-9173
1545-7885
DOI:10.1371/journal.pbio.1002281