Toward an understanding of cosmopolitanism in deep time: a case study of ammonoids from the middle Permian to the Middle Triassic

Cosmopolitanism occurred recurrently during the geologic past, especially after mass extinctions, but the underlying mechanisms remain poorly known. Three theoretical models, not mutually exclusive, can lead to cosmopolitanism: (1) selective extinction in endemic taxa, (2) endemic taxa becoming cosm...

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Bibliographic Details
Published inPaleobiology Vol. 46; no. 4; pp. 533 - 549
Main Authors Dai, Xu, Song, Haijun
Format Journal Article
LanguageEnglish
Published New York, USA The Paleontological Society 01.11.2020
Cambridge University Press
Paleontological Society
Subjects
Ammonoidea
Anoxia
Basins
Biogeography
biologic evolution
Case studies
Cephalopoda
Climate change
cosmopolitan taxa
Cosmopolitanism
data bases
data processing
Datasets
Endangered & extinct species
endemic taxa
Extinction
global
invertebrate
Mass extinctions
Mesozoic
Methods
Mollusca
Paleobiology Database
paleogeography
Paleontology
Paleozoic
Permian
regression analysis
speciation
statistical analysis
Survival
Taxa
Taxonomy
theoretical models
Triassic
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Summary:Cosmopolitanism occurred recurrently during the geologic past, especially after mass extinctions, but the underlying mechanisms remain poorly known. Three theoretical models, not mutually exclusive, can lead to cosmopolitanism: (1) selective extinction in endemic taxa, (2) endemic taxa becoming cosmopolitan after the extinction and (3) an increase in the number of newly originated cosmopolitan taxa after extinction. We analyzed an updated occurrence dataset including 831 middle Permian to Middle Triassic ammonoid genera and used two network methods to distinguish major episodes of ammonoid cosmopolitanism during this time interval. Then, we tested the three proposed models in these case studies. Our results confirm that at least two remarkable cosmopolitanism events occurred after the Permian–Triassic and late Smithian (Early Triassic) extinctions, respectively. Partitioned analyses of survivors and newcomers revealed that the immediate cosmopolitanism event (Griesbachian) after the Permian–Triassic event can be attributed to endemic genera becoming cosmopolitan (model 2) and an increase in the number of newly originated cosmopolitan genera after the extinction (model 3). Late Smithian cosmopolitanism is caused by selective extinction in endemic taxa (model 1) and an increase in the number of newly originated cosmopolitan genera (model 3). We found that the survivors of the Permian–Triassic mass extinction did not show a wider geographic range, suggesting that this mass extinction is nonselective among the biogeographic ranges, while late Smithian survivors exhibit a wide geographic range, indicating selective survivorship among cosmopolitan genera. These successive cosmopolitanism events during severe extinctions are associated with marked environmental upheavals such as rapid climate changes and oceanic anoxic events, suggesting that environmental fluctuations play a significant role in cosmopolitanism.
ISSN:0094-8373
1938-5331
DOI:10.1017/pab.2020.40