The Geography Of Snake Reproductive Mode: A Global Analysis Of The Evolution Of Snake Viviparity

Keywords

Cold climate hypothesis; Maternal manipulation hypothesis; Oviparity; Predictability; Reproductive mode; Seasonality; Serpentes; Temperature; Viviparity

Abstract

Aim: Although most reptiles are oviparous, viviparity is a common mode of reproduction in squamates and has evolved multiple times in different lineages. We test two prevailing hypotheses regarding the biogeography of reptile reproductive modes to evaluate the selective forces driving the evolution of viviparity in snakes. The cold climate hypothesis posits that viviparity is selected for in cold climates, whereas the climatic predictability hypothesis predicts that viviparity is advantageous in seasonal climates. Location: Global. Methods: We collated detailed distribution maps and reproductive mode data for 2663 species of the world's terrestrial alethinophidian snakes. We studied the relationship between snake reproductive mode and environmental predictors. We applied both an ecological and an evolutionary approach to study snake reproductive mode by performing the analyses at the assemblage level and species level, respectively. We analysed our data at the global and continental scales to learn whether tendencies to viviparity are similar world-wide. Results: We found strong support for the cold climate hypothesis and the assumption that viviparity is an adaptation to cold environments. There was little support for the climatic predictability hypothesis. Nonetheless, viviparous species are not restricted to cold environments. Main conclusions: We conclude that viviparity is adaptive in cold climates, but not necessarily in unpredictable/seasonal climates. Current distributions may not reflect the climate at the time and place of speciation. We suspect many viviparous snakes inhabiting warm climates are members of lineages that originated in colder regions, and their occurrence in maladaptive environments is a result of phylogenetic conservatism. © 2015 John Wiley

Publication Date

12-1-2015

Publication Title

Global Ecology and Biogeography

Volume

24

Issue

12

Number of Pages

1433-1442

Document Type

Article

Personal Identifier

scopus

DOI Link

https://doi.org/10.1111/geb.12374

Socpus ID

84946484157 (Scopus)

Source API URL

https://api.elsevier.com/content/abstract/scopus_id/84946484157

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