A global analysis of viviparity in squamates highlights its prevalence in cold climates

Anna Zimin, Sean Zimin, Richard Shine, Luciano Avila, Aaron Bauer, Monika Böhm, Rafe Brown, Goni Barki, Gabriel Oliveira-Caetano, F Castro-Herrera, David Chapple, Laurent Chirio, Guarino Colli, Tiffany Doan, Frank Glaw, Lee Grismer, Yuval Itescu, Fred Kraus, Matthew LeBreton, Marcio MartinsMariana Morando, Gopal Murali, Zoltan Zsolt Nagy, Maria Novosolov, Paul Oliver, Paulo Passos, Olivier Pauwels, Daniel Pincheira-Donoso, Marco Antonio Ribeiro-Junior, Glenn Shea, Reid Tingley, Omar Torres-Carvajal, J Trape, Peter Uetz, Philippe Wagner, Uri Roll, Shai Meiri

Research output: Contribution to journalArticlepeer-review

18 Citations (Scopus)
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Abstract

Aim
Viviparity has evolved more times in squamates than in any other vertebrate group; therefore, squamates offer an excellent model system in which to study the patterns, drivers and implications of reproductive mode evolution. Based on current species distributions, we examined three selective forces hypothesized to drive the evolution of squamate viviparity (cold climate, variable climate and hypoxic conditions) and tested whether viviparity is associated with larger body size.
Location
Global.
Time period
Present day.
Taxon
Squamata.
Methods
We compiled a dataset of 9061 squamate species, including their distributions, elevation, climate, body mass and reproductive modes. We applied species-level and assemblage-level approaches for predicting reproductive mode, both globally and within biogeographical realms. We tested the relationships of temperature, interannual and intra-annual climatic variation, elevation (as a proxy for hypoxic conditions) and body mass with reproductive mode, using path analyses to account for correlations among the environmental predictors.
Results
Viviparity was strongly associated with cold climates at both species and assemblage levels, despite the prevalence of viviparity in some warm climates. Viviparity was not clearly correlated with climatic variability or elevation. The probability of being viviparous exhibited a weak positive correlation with body size.
Conclusions
Although phylogenetic history is important, potentially explaining the occurrence of viviparous species in regions that are warm at present, current global squamate distribution is characterized by a higher relative abundance of viviparity in cold environments, supporting the prediction of the “cold-climate” hypothesis. The roles of climatic variation and hypoxia are less important and not straightforward. Elevation probably exerts various selective pressures and influences the prevalence of viviparity primarily through its effect on temperature rather than on oxygen concentration.
Original languageEnglish
Pages (from-to)2437-2452
JournalGlobal Ecology and Biogeography
Volume31
Issue number12
Early online date04 Oct 2022
DOIs
Publication statusPublished - Dec 2022

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