Hunt, Gene and Roy, Kaustuv (2006): Climate change, body size evolution, and Cope's rule in deep-sea ostracodes

Leg/Site/Hole:
Identifier:
2008-085528
georefid
10.1073/pnas.0510550103
doi
Creator:
Hunt, Gene
Smithsonian Institution, National Museum of Natural History, Washington, DC, United States
author
Roy, Kaustuv
University of California at San Diego, United States
author
Identification:
Climate change, body size evolution, and Cope's rule in deep-sea ostracodes
2006
Proceedings of the National Academy of Sciences of the United States of America
National Academy of Sciences, Washington, DC, United States
103
5
1347-1352
Causes of macroevolutionary trends in body size, such as Cope's Rule, the tendency of body size to increase over time, remain poorly understood. We used size measurements from Cenozoic populations of the ostracode genus Poseidonamicus, in conjunction with phylogeny and paleotemperature estimates, to show that climatic cooling leads to significant increases in body size, both overall and within individual lineages. The magnitude of size increase due to Cenozoic cooling is consistent with temperature-size relationships in geographically separated modern populations (Bergmann's Rule). Thus population-level phenotypic evolution in response to climate change can be an important determinant of macroevolutionary trends in body size.
English
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Invertebrate paleontology; Arthropoda; biologic evolution; Cenozoic; climate change; cold tolerance; Cope's rule; Cope-Bergmann hypothesis; Crustacea; Deep Sea Drilling Project; deep-sea environment; Eocene; fossil record; Holocene; Invertebrata; Mandibulata; marine environment; microfossils; Neogene; Ostracoda; Paleogene; Poseidonamicus; Quaternary; size; temperature; Tertiary; valves;
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