Journal article
Physiological implications of genomic state in parthenogenetic lizards of reciprocal hybrid origin
JA Roberts, HD Vo, MK Fujita, C Moritz, M Kearney
Journal of Evolutionary Biology | WILEY | Published : 2012
Abstract
Parthenogenesis often evolves in association with hybridization, but the associated ecological consequences are poorly understood. The Australian gecko Heteronotia binoei is unusual because triploid parthenogenesis evolved through reciprocal crosses between two sexual lineages, resulting in four possible cytonuclear genotypes. In this species complex, we compared the performance of these parthenogenetic genotypes with their sexual progenitors for a suite of physiological traits (metabolic rate, thermal tolerance, locomotor performance, and in vitro activity and gene sequence divergence of a cytonuclear metabolic pathway, cytochrome C oxidase). Mass-specific metabolic rate scaled differently ..
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Awarded by Australian Research Council
Awarded by University of Melbourne
Awarded by Department of Environment and Conservation
Funding Acknowledgements
This work was supported by an Australian Research Council Grant DP0771924 to MK and CM and was undertaken under The University of Melbourne Animal Ethics Permit 0703441. Western Australian specimens were collected under Department of Environment and Conservation research permit no. SF004376. We are also grateful for constructive comments on this manuscript from Natalie Briscoe and two anonymous reviewers.