Global warming and positive fitness response in mountain populations of common lizards Lacerta vivipara
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State: Public
Version: Final published version
State: Public
Version: Final published version
Serval ID
serval:BIB_446742098A57
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Global warming and positive fitness response in mountain populations of common lizards Lacerta vivipara
Journal
Global Change Biology
Publication state
Published
Issued date
2006
Peer-reviewed
Oui
Volume
12
Pages
392-402
Abstract
Recent global warming threatens many species and has already caused population- and species-level extinctions. In particular, high risks of extinction are expected for isolated populations of species with low dispersal abilities. These predictions rely on widely used 'climatic envelope' models, while individual responses, the ultimate driver of a species response to climate change, have been most often neglected. Here, we report on some changes in life-history traits of a dispersal-limited reptile species (a poorly studied taxa) living in isolated populations. Using long-term data on common lizards collected in southern France, we show that individual body size dramatically increased in all the four populations studied over the past 18 years. This increase in body size in all age classes appeared related to a concomitant increase in temperature experienced during the first month of life (August). Daily maximum temperature in August increased by 2.2 1C and yearling snout-vent-length increased by about 28%. As a result, adult female body size increased markedly, and, as fecundity is strongly dependent on female body size, clutch size and total reproductive output also increased. For one population where capture recapture data were available, adult survival was positively related to May temperature.
All fitness components investigated therefore responded positively to the increase in temperature, such that it might be concluded that the common lizard has been advantaged by the shift in temperature.We contrast these short-term results with the long-term habitat-based prediction that these populations located close to mountain tops on the southern margin of the species range should be unable to cope with the alteration of their habitat. To achieve a better prediction of a species persistence, one will probably need to combine both habitat and individual-based approaches.
All fitness components investigated therefore responded positively to the increase in temperature, such that it might be concluded that the common lizard has been advantaged by the shift in temperature.We contrast these short-term results with the long-term habitat-based prediction that these populations located close to mountain tops on the southern margin of the species range should be unable to cope with the alteration of their habitat. To achieve a better prediction of a species persistence, one will probably need to combine both habitat and individual-based approaches.
Keywords
body size, fitness, global warming, life-history trade-offs, lizards, mountain habitat reproduction, survival
Create date
14/01/2011 15:32
Last modification date
20/08/2019 13:48