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Late Cretaceous ammonoids show that drivers of diversification are regionally heterogeneous

Joseph T. Flannery-Sutherland (), Cameron D. Crossan, Corinne E. Myers, Austin J. W. Hendy, Neil H. Landman and James D. Witts
Additional contact information
Joseph T. Flannery-Sutherland: University of Birmingham
Cameron D. Crossan: University of Bristol
Corinne E. Myers: University of New Mexico
Austin J. W. Hendy: Natural History Museum of Los Angeles County
Neil H. Landman: American Museum of Natural History
James D. Witts: University of Bristol

Nature Communications, 2024, vol. 15, issue 1, 1-15

Abstract: Abstract Palaeontologists have long sought to explain the diversification of individual clades to whole biotas at global scales. Advances in our understanding of the spatial distribution of the fossil record through geological time, however, has demonstrated that global trends in biodiversity were a mosaic of regionally heterogeneous diversification processes. Drivers of diversification must presumably have also displayed regional variation to produce the spatial disparities observed in past taxonomic richness. Here, we analyse the fossil record of ammonoids, pelagic shelled cephalopods, through the Late Cretaceous, characterised by some palaeontologists as an interval of biotic decline prior to their total extinction at the Cretaceous-Paleogene boundary. We regionally subdivide this record to eliminate the impacts of spatial sampling biases and infer regional origination and extinction rates corrected for temporal sampling biases using Bayesian methods. We then model these rates using biotic and abiotic drivers commonly inferred to influence diversification. Ammonoid diversification dynamics and responses to this common set of diversity drivers were regionally heterogeneous, do not support ecological decline, and demonstrate that their global diversification signal is influenced by spatial disparities in sampling effort. These results call into question the feasibility of seeking drivers of diversity at global scales in the fossil record.

Date: 2024
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DOI: 10.1038/s41467-024-49462-z

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