Low genetic variation in cold tolerance linked to species distributions in butterflies

Species with restricted distributions make up the vast majority of biodiversity. Recent evidence from Drosophila suggests that species with restricted distributions may simply lack genetic variation in key traits, limiting their ability to adapt to conditions beyond their current range. Specifically...

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Veröffentlicht in:	Evolutionary ecology 2014-05, Vol.28 (3), p.495-504
Hauptverfasser:	Davis, Jonathan M. P, van Heerwaarden, Belinda, Sgrò, Carla M, Donald, Jennifer A, Kemp, Darrell J
Format:	Artikel
Sprache:	eng
Schlagworte:	Animal Ecology Animal populations biogeography Biomedical and Life Sciences Body size Butterflies Butterflies & moths Climate change Cold Cold tolerance Desiccation Dispersal Drosophila drought tolerance Ecology Evolutionary Biology Genetic aspects Genetic diversity genetic variation Life Sciences Original Paper Plant Sciences Smilax
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container_title	Evolutionary ecology
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creator	Davis, Jonathan M. P van Heerwaarden, Belinda Sgrò, Carla M Donald, Jennifer A Kemp, Darrell J
description	Species with restricted distributions make up the vast majority of biodiversity. Recent evidence from Drosophila suggests that species with restricted distributions may simply lack genetic variation in key traits, limiting their ability to adapt to conditions beyond their current range. Specifically, tropical species of Drosophila have been shown to have low means and low genetic variation for cold tolerance and desiccation tolerance. It has therefore been predicted that these species will be limited in their response to future climatic changes. However whether these results extend beyond Drosophila is not known. We assess levels of quantitative genetic variation for cold tolerance and body size in three species of butterfly from the genus Eurema that can be classified as tropically restricted (E. laeta), tropical/subtropical (E. hecabe) and widespread (E. smilax) in their distribution. Compared to the more widely distributed species, we show that the tropically restricted E. laeta has significantly lower mean cold tolerance and lacks genetic variation for this trait. Thus, we empirically confirm in non-model organisms that low levels of genetic variation in a key ecological trait may play a role in limiting the distribution of tropically restricted species.
doi_str_mv	10.1007/s10682-013-9684-5
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We assess levels of quantitative genetic variation for cold tolerance and body size in three species of butterfly from the genus Eurema that can be classified as tropically restricted (E. laeta), tropical/subtropical (E. hecabe) and widespread (E. smilax) in their distribution. Compared to the more widely distributed species, we show that the tropically restricted E. laeta has significantly lower mean cold tolerance and lacks genetic variation for this trait. 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It has therefore been predicted that these species will be limited in their response to future climatic changes. However whether these results extend beyond Drosophila is not known. We assess levels of quantitative genetic variation for cold tolerance and body size in three species of butterfly from the genus Eurema that can be classified as tropically restricted (E. laeta), tropical/subtropical (E. hecabe) and widespread (E. smilax) in their distribution. Compared to the more widely distributed species, we show that the tropically restricted E. laeta has significantly lower mean cold tolerance and lacks genetic variation for this trait. Thus, we empirically confirm in non-model organisms that low levels of genetic variation in a key ecological trait may play a role in limiting the distribution of tropically restricted species.</abstract><cop>Cham</cop><pub>Springer-Verlag</pub><doi>10.1007/s10682-013-9684-5</doi><tpages>10</tpages></addata></record>
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subjects	Animal Ecology Animal populations biogeography Biomedical and Life Sciences Body size Butterflies Butterflies & moths Climate change Cold Cold tolerance Desiccation Dispersal Drosophila drought tolerance Ecology Evolutionary Biology Genetic aspects Genetic diversity genetic variation Life Sciences Original Paper Plant Sciences Smilax
title	Low genetic variation in cold tolerance linked to species distributions in butterflies
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