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Article: Evolutionary stasis, ecophenotypy and environmental controls on ammonite morphology in the Late Cretaceous (Maastrichtian) Western Interior Seaway, USA

Palaeontology - Vol. 63 Part 5 - Cover Image
Publication: Palaeontology
Volume: 63
Part: 5
Publication Date: September 2020
Page(s): 791 806
Author(s): James D. Witts, Neil H. Landman, Melanie J. Hopkins, and Corinne E. Myers
Addition Information

How to Cite

WITTS, J.D., LANDMAN, N.H., HOPKINS, M.J., MYERS, C.E. 2020. . Palaeontology, 63, 5, 791-806. DOI: /doi/10.1111/pala.12488

Author Information

  • James D. Witts - Department of Earth & Planetary Sciences University of New Mexico Northrop Hall, 221 Yale Blvd NE Albuquerque NM 87131 USA
  • James D. Witts - Division of Paleontology (Invertebrates) American Museum of Natural History Central Park West & 79th Street New York NY 10024 USA
  • Neil H. Landman - Division of Paleontology (Invertebrates) American Museum of Natural History Central Park West & 79th Street New York NY 10024 USA
  • Melanie J. Hopkins - Division of Paleontology (Invertebrates) American Museum of Natural History Central Park West & 79th Street New York NY 10024 USA
  • Corinne E. Myers - Department of Earth & Planetary Sciences University of New Mexico Northrop Hall, 221 Yale Blvd NE Albuquerque NM 87131 USA

Publication History

  • Issue published online: 30 August 2020
  • Manuscript Accepted: 12 March 2020
  • Manuscript Received: 05 November 2019

Funded By

American Museum of Natural History
Association of Applied Paleontological Sciences

Online Version Hosted By

Wiley Online Library
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Abstract

We test for the presence of evolutionary stasis in a species of Late Cretaceous ammonoid cephalopod, Hoploscaphites nicolletii, from the North American Western Interior Seaway. A comprehensive dataset of morphological traits was compiled across the entire spatial and temporal range of this species. These were analysed in conjunction with sedimentologically and geochemically derived palaeoenvironmental conditions hypothesized to apply selective pressures. All changes in shell shape were observed to be ephemeral and reversable, that is, no unidirectional trend could be observed in any of the morphological traits analysed. Correlations between palaeoenvironmental conditions and morphological traits suggests ecophenotypic processes were at play; however, either environmental changes were too minor and/or provided no isolating mechanism to drive speciation. These data support mechanisms of stasis such as homogenizing gene flow or stabilizing selection under a fluctuating optimum (probably reflecting spatiotemporally heterogeneous palaeoenvironmental conditions). Finally, changes in shell size were not significantly associated with changes in shell‐specific δ18O, despite a correlation between shell size and δ18O averaged across horizons. This suggests a mismatch in scales of geochemical sampling that supports caution when making broad interpretations based on averaged geochemical data.

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