Is the relative thickness of ammonoid septa influenced by ocean acidification, phylogenetic relationships and palaeogeographic position?

Abstract The impact of increasing atmospheric CO2 and the resulting decreasing pH of seawater are in the focus of current environmental research. These factors cause problems for marine calcifiers such as reduced calcification rates and the dissolution of calcareous skeletons. While the impact on re...

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Bibliographic Details
Published in:Swiss Journal of Palaeontology
Main Authors: Céline Weber, Michael Hautmann, Amane Tajika, Christian Klug
Format: Article in Journal/Newspaper
Language:English
Published: SpringerOpen 2022
Subjects:
Ammonoids
Septal thickness
End-Triassic mass extinction
Mesozoic
Ocean acidification
Calcifying organism
Fossil man. Human paleontology
GN282-286.7
Paleontology
QE701-760
Online Access:https://doi.org/10.1186/s13358-022-00246-2
https://doaj.org/article/25896799b8874b42a0aa89df2d122c95
Description
Summary:Abstract The impact of increasing atmospheric CO2 and the resulting decreasing pH of seawater are in the focus of current environmental research. These factors cause problems for marine calcifiers such as reduced calcification rates and the dissolution of calcareous skeletons. While the impact on recent organisms is well established, little is known about long-term evolutionary consequences. Here, we assessed whether ammonoids reacted to environmental change by changing septal thickness. We measured the septal thickness of ammonoid phragmocones through ontogeny in order to test the hypothesis that atmospheric pCO2, seawater pH and other factors affected aragonite biomineralisation in ammonoids. Particularly, we studied septal thickness of ammonoids before and after the ocean acidification event in the latest Triassic until the Early Cretaceous. Early Jurassic ammonoid lineages had thinner septa relative to diameter than their Late Triassic relatives, which we tentatively interpret as consequence of a positive selection for reduced shell material as an evolutionary response to this ocean acidification event. This response was preserved within several lineages among the Early Jurassic descendants of these ammonoids. By contrast, we did not find a significant correlation between septal thickness and long-term atmospheric pCO2 or seawater pH, but we discovered a correlation with palaeolatitude.

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