Thermal energy and the rate of genetic evolution in marine fishes

被引:0
|
作者
Shane D. Wright
Howard A. Ross
D. Jeanette Keeling
Paul McBride
Len N. Gillman
机构
[1] University of Auckland,School of Biological Sciences
[2] Auckland University of Technology,School of Applied Science
来源
Evolutionary Ecology | 2011年 / 25卷
关键词
Depth; Latitude; Microevolution; Substitution rate;
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中图分类号
学科分类号
摘要
Slower genetic evolution in microbial thermophiles has been attributed to internal mutation control mechanisms in very high temperatures, whereas the tempo of plant microevolution has been positively correlated to ambient thermal conditions. Here, using a global dataset of 136 teleost fish species, contrasting warm and cool water species, and controlling for any differences between species in mutation control mechanisms, we found mitochondrial genetic evolution was 1.61 times faster in warm water species. These results suggest that temperature-mediated reduction in mutation rate is only important in extreme thermal regimes.
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页码:525 / 530
页数:5
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