Wednesday, August 14, 2013

Oxygen Increase Fueled Carnivore Evolution Which Drove the the Cambrian Explosion


Oxygen, ecology, and the Cambrian radiation of animals

Authors:

1. Erik A. Sperling (a)
2. Christina A. Frieder (b)
3. Akkur V. Raman (c)
4. Peter R. Girguis (d)
5. Lisa A. Levin (b)
6. Andrew H. Knoll (a,d)

Affiliations:

a. Departments of Earth and Planetary Sciences and Organismic and Evolutionary Biology, Harvard University, Cambridge, MA 02138

b. Center for Marine Biodiversity and Conservation and Integrative Oceanography Division, Scripps Institution of Oceanography,

c. University of California at San Diego, La Jolla, CA 92093

d. Marine Biological Laboratory, Department of Zoology, Andhra University, Waltair, Visakhapatnam 530003, India

Abstract:

The Proterozoic-Cambrian transition records the appearance of essentially all animal body plans (phyla), yet to date no single hypothesis adequately explains both the timing of the event and the evident increase in diversity and disparity. Ecological triggers focused on escalatory predator–prey “arms races” can explain the evolutionary pattern but not its timing, whereas environmental triggers, particularly ocean/atmosphere oxygenation, do the reverse. Using modern oxygen minimum zones as an analog for Proterozoic oceans, we explore the effect of low oxygen levels on the feeding ecology of polychaetes, the dominant macrofaunal animals in deep-sea sediments. Here we show that low oxygen is clearly linked to low proportions of carnivores in a community and low diversity of carnivorous taxa, whereas higher oxygen levels support more complex food webs. The recognition of a physiological control on carnivory therefore links environmental triggers and ecological drivers, providing an integrated explanation for both the pattern and timing of Cambrian animal radiation.

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