Limited role of functional differentiation in early diversification of animals

Limited role of functional differentiation in early diversification of animals

The origin of most animal phyla and classes during the Cambrian explosion has been hypothesized to represent an ‘early burst’ of evolutionary exploration of functional ecological possibilities. However, the ecological history of marine animals has yet to be fully quantified, preventing an assessment...

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Published in:Nature communications Vol. 6; no. 1; p. 6455
Main Authors: Knope, M.L., Heim, N.A., Frishkoff, L.O., Payne, J.L.
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 04-03-2015
Nature Publishing Group
Nature Pub. Group
Subjects:
631/158/2445
631/158/670
631/158/857
631/181/414
Adaptation, Biological - physiology
Animals
Aquatic Organisms - physiology
Biodiversity
Biological Evolution
Explosions
Fossils
Humanities and Social Sciences
Morphology
multidisciplinary
Paleontology - methods
Science
Science (multidisciplinary)
Taxonomy
Time Factors
United States > US
California
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Summary:The origin of most animal phyla and classes during the Cambrian explosion has been hypothesized to represent an ‘early burst’ of evolutionary exploration of functional ecological possibilities. However, the ecological history of marine animals has yet to be fully quantified, preventing an assessment of the early-burst model for functional ecology. Here we use ecological assignments for 18,621 marine animal genera to assess the relative timing of functional differentiation versus taxonomic diversification from the Cambrian to the present day. We find that functional diversity increased more slowly than would be expected given the history of taxonomic diversity. Contrary to previous inferences of rapid ecological differentiation from the early appearances of all well-fossilized phyla and classes, explicit coding of functional characteristics demonstrates that Cambrian genera occupied comparatively few modes of life. Functional diversity increased in the Ordovician and, especially, during the recoveries from the end-Permian and end-Cretaceous mass extinctions. Permanent shifts in the relationship between functional and taxonomic diversity following the era-bounding extinctions indicates a critical role for these biotic crises in coupling taxonomic and functional diversity. Functional differentiation and taxonomic diversity are related in modern ecosystems. Here, the authors show that functional differentiation lags behind taxonomic diversification early in the evolutionary history of marine animals and that important shifts in this relationship occur at major mass extinction events.
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Present address: Department of Biology, Stanford University, Gilbert Hall, Stanford, California 94305, USA
ISSN:2041-1723
2041-1723
DOI:10.1038/ncomms7455