6533b854fe1ef96bd12ae24b

RESEARCH PRODUCT

Hypoxia and hypothermia as rival agents of selection driving the evolution of viviparity in lizards

Daniel Pincheira-donosoManuel JaraMónica Saldarriaga-córdobaRoberto García-roaRoberto García-roaRoberto García-roaAshley M. ReaneyDave J. Hodgson

subject

Life‐history evolution0106 biological sciences0301 basic medicineLiolaemusMultivariate statisticsAlternative hypothesis010603 evolutionary biology01 natural sciences03 medical and health sciencesbiology.animalHomeostasisHypoxiaMacroecologyEcology Evolution Behavior and SystematicsMacroecologyC150 Environmental BiologyViviparityGlobal and Planetary ChangeNatural selectionEcologybiologyEcologyViviparyLizardC182 EvolutionHypoxia (environmental)Liolaemusbiology.organism_classificationSquamates030104 developmental biologyReproductive modes

description

[Aim]: The evolution of key innovations promotes adaptive radiations by opening access to new ecological opportunity. The acquisition of viviparity (live-bearing reproduction) has emerged as one such innovation explaining reptile proliferations into extreme climates. By evolving viviparity, females provide embryos with internally stable environments to complete development. The classical hypothesis suggests that natural selection for viviparity arises from low temperatures in cold climates, which promote prolonged egg retention in the mother's body. An alternative hypothesis proposes that declines in atmospheric oxygen at high elevations create natural selection for embryo retention to provide them with optimal oxygen levels during development. However, although experimental studies support the negative effects of low oxygen on egg development, this ‘hypoxia’ hypothesis has never been tested quantitatively. Here, we compete the hypoxia hypothesis against the ‘cold-climate’ hypothesis, using a highly diverse lizard genus.

yearjournalcountryeditionlanguage
2017-11-30Global Ecology and Biogeography
https://doi.org/10.1111/geb.12626