Maastrichtian_turtle_PBDBdata from Modelling the climatic niche of turtles: a deep-time perspective

Ectotherms have close physiological ties with the thermal environment; consequently, the impact of future climate change on their biogeographic distributions is of major interest. Here, we use the modern and deep-time fossil record of testudines (turtles, tortoises and terrapins) to provide the firs...

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Hauptverfasser: Waterson, Amy M., Schmidt, Daniela N., Valdes, Paul J., Holroyd, Patricia A., Nicholson, David B., Farnsworth, Alexander, Barrett, Paul M.
Format: Dataset
Sprache:eng
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Zusammenfassung:Ectotherms have close physiological ties with the thermal environment; consequently, the impact of future climate change on their biogeographic distributions is of major interest. Here, we use the modern and deep-time fossil record of testudines (turtles, tortoises and terrapins) to provide the first test of climate on the niche limits of both extant and extinct (Late Cretaceous, Maastrichtian) taxa. Ecological niche models are used to assess niche overlap in model projections for key testudine ecotypes and families. An ordination framework is applied to quantify metrics of niche change (stability, expansion and unfilling) between the Maastrichtian and present-day. Results indicate that niche stability over evolutionary timescales varies between testudine clades. Groups that originated in the Early Cretaceous show climatic niche stability, whereas those diversifying towards the end of the Cretaceous display larger niche expansion towards the modern. Temperature is the dominant driver of modern and past distributions, whereas precipitation is important for freshwater turtle ranges. Our findings demonstrate that testudines were able to occupy warmer climates than present day in the geological record. However, the projected rate and magnitude of future environmental change, in concert with other conservation threats, presents challenges for acclimation or adaptation.
DOI:10.6084/m9.figshare.3823779