Journal article
Plasticity for desiccation tolerance across drosophila species is affected by phylogeny and climate in complex ways
V Kellermann, AA Hoffmann, J Overgaard, V Loeschcke, CM Sgrò
Proceedings of the Royal Society B Biological Sciences | ROYAL SOC | Published : 2018
Abstract
Comparative analyses of ectotherm susceptibility to climate change often focus on thermal extremes, yet responses to aridity may be equally important. Here we focus on plasticity in desiccation resistance, a key trait shaping distributions of Drosophila species and other small ectotherms. We examined the extent to which 32 Drosophila species, varying in their distribution, could increase their desiccation resistance via phenotypic plasticity involving hardening, linking these responses to environment, phylogeny and basal resistance. We found no evidence to support the seasonality hypothesis; species with higher hardening plasticity did not occupy environments with higher and more seasonal pr..
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Funding Acknowledgements
The Danish Research Council for Independent Research (FNU) for funding by a large frame grant to J.O. and V.L. and the Australian Research Council for financial support to V.K., C.M.S. and A.A.H. through their Discovery and Fellowship schemes and the Science and Industry Endowment Fund for support to C.M.S. and A. A. H., Monash University for financial support to V.K. and C.M.S. and L'Oreal for financial support to V.K. through their For Women In Science scheme.