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Phanerozoic Diversity and the Permian Global Community Catastrophe Jerry L. Kaster Great Lakes WATER Institute The University of Wisconsin-Milwaukee

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1 Phanerozoic Diversity and the Permian Global Community Catastrophe Jerry L. Kaster Great Lakes WATER Institute The University of Wisconsin-Milwaukee jlk@uwm.edu www.anilith.com

2 Do extintions result in a disproportionate reduction of rare taxa? Phanerozoic Diversity and the Permian Global Community Catastrophe Is the natural course of community evolution skewed toward high taxa richness but decreasing taxa evenness? Is the ‘26 My extinction cycle’ an artifact of taxa evenness? Do originations surge following extinctions?

3 Benton, M. J. (ed) 1993, Fossil Record 2. Chapman & Hall, London. 845 p. Database: Number of Families: 2630 77 epochs, 553 Ma to 0 Ma

4 Sepkoski, J., Bambach, R. K., Raup, D. M., & Valentine, J. W. 1981. Phanerozoic marine diversity and the fossil record. Nature, London 293, 435-437. The single underlying pattern was that taxa richness has increased over the Phanerozoic. Indeed today there are more extant species, genera, and families than at any other time.

5 Permian K-T The single underlying pattern was that taxa richness has increased over the Phanerozoic.

6

7 Winged Insects

8 Permian Extinction 100 My lag

9 Sepkoski, J., Bambach, R. K., Raup, D. M., & Valentine, J. W. 1981. Phanerozoic marine diversity and the fossil record. Nature, London 293, 435-437. The single underlying pattern was that taxa richness has increased over the Phanerozoic. Indeed today there are more extant species, genera, and families than at any other time. Taxa richness, (AKA “diversity”) is good! The community ecologist views the matter a little differently: the crucial analysis is how taxa richness is distributed among taxa. Not necessarily:

10 Taxa 12345678 Abundance Common Rare

11 Taxa 12345678 Abundance Common Rare

12 H 1 : Common and rare taxa affected proportionately H 2 : Common taxa reduced disproportionately H 3 : Rare taxa reduced disproportionately Assumption: a mass extinction reduces both common and rare taxa recovery + -

13 Permian Extinction H 3 : Rare taxa reduced disproportionately H 2 : Common taxa reduced disproportionately H 1 : Common and rare taxa affected proportionately Rare Invertebrate Fauna Originations m = -3.7/10Ky m = -1.6/10Ky Taxa increase proportionately

14

15 Cenozoic Fauna

16 Raup, D. M. & Sepkoski, J. J. 1986. Periodic extinction of families and gerera. Science 231: 833-836. Using 2160 families, they suggested a 26 My periodic mass extinction cycle. (Meso- & Cenozoic) 17 years later, Dave Raup suggests the idea is still on the table but “comatose”. If extinctions are followed by surges in originations, then originations should yield a similar 26 My cycle. Using 2630 families, from the Fossil Record 2 databank, a test of Raup/Sepkoski 26 My cycle is made.

17 Paleozoic f = 31.6 My Mesozoic f = 26.4 My Cenozoic f = 15.3 My ^ Over the Phanerozoic, origination f and extinction f decreases Is the ‘26 My extinction cycle’ an artifact of taxa evenness?

18 Do originations surge following extinctions?

19 Extinction Origination

20 40 20 f Paleozoic f = 31.6 My Mesozoic f = 26.4 My Cenozoic f = 15.3 My O Is declining origination & extinction f a community response?

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