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Robert K. Colwell

Museum Curator Adjoint in Entomology


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robertkcolwell [at] gmail.com


Museum of Natural History

University of Colorado

Boulder, CO 80309, USA




robertkcolwell [at] gmail.com


Museum of Natural History

University of Colorado

Boulder, CO 80309, USA



Seasonal and daily climate variation have opposite effects on species elevational range size


Journal article


Wei-ping Chan, I. Chen, R. K. Colwell, Wei-Chung Liu, Cho-ying Huang, S. Shen
Science, 2016

Semantic Scholar DOI PubMed
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APA   Click to copy
Chan, W.-ping, Chen, I., Colwell, R. K., Liu, W.-C., Huang, C.-ying, & Shen, S. (2016). Seasonal and daily climate variation have opposite effects on species elevational range size. Science.


Chicago/Turabian   Click to copy
Chan, Wei-ping, I. Chen, R. K. Colwell, Wei-Chung Liu, Cho-ying Huang, and S. Shen. “Seasonal and Daily Climate Variation Have Opposite Effects on Species Elevational Range Size.” Science (2016).


MLA   Click to copy
Chan, Wei-ping, et al. “Seasonal and Daily Climate Variation Have Opposite Effects on Species Elevational Range Size.” Science, 2016.


BibTeX   Click to copy

@article{wei-ping2016a,
  title = {Seasonal and daily climate variation have opposite effects on species elevational range size},
  year = {2016},
  journal = {Science},
  author = {Chan, Wei-ping and Chen, I. and Colwell, R. K. and Liu, Wei-Chung and Huang, Cho-ying and Shen, S.}
}

Abstract

Variability for a day or a season Species that experience larger seasonal climatic fluctuations are likely to be more physiologically flexible and thus likely to occur across a wider elevational range. Daily changes in temperature are also common but have rarely been considered. Chan et al. used a global data set of vertebrates to look at how these two different sets of variation affect a species' elevational distribution (see the Perspective by Perez et al.). Unexpectedly, larger daily fluctuations were associated with smaller elevational distributions. Thus, specialists are favored where daily fluctuations are dominant, whereas generalists are favored where seasonal fluctuations are the main climate influence. Science, this issue p. 1437; see also p. 1392 Daily and seasonal variation influence the temperature tolerance of land vertebrates differently. [Also see Perspective by Perez et al.] The climatic variability hypothesis posits that the magnitude of climatic variability increases with latitude, elevation, or both, and that greater variability selects for organisms with broader temperature tolerances, enabling them to be geographically widespread. We tested this classical hypothesis for the elevational range sizes of more than 16,500 terrestrial vertebrates on 180 montane gradients. In support of the hypothesis, mean elevational range size was positively correlated with the scope of seasonal temperature variation, whereas elevational range size was negatively correlated with daily temperature variation among gradients. In accordance with a previous life history model and our extended versions of it, our findings indicate that physiological specialization may be favored under shorter-term climatic variability.


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