Epigenetic-induced alterations in sex-ratios in response to climate change: An epigenetic trap?

We hypothesize that under the predicted scenario of climate change epigenetically mediated environmental sex determination could become an epigenetic trap. Epigenetically regulated environmental sex determination is a mechanism by which species can modulate their breeding strategies to accommodate e...

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Veröffentlicht in:	BioEssays 2016-10, Vol.38 (10), p.950-958
Hauptverfasser:	Consuegra, Sofia, Rodríguez López, Carlos M.
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Sprache:	eng
Schlagworte:	Animal species Animals Climate Change Ecological conditions Environmental changes Environmental regulations environmental sex determination Epigenesis, Genetic Epigenetics maladaptation mating system methylation Natural populations Plant species Plants - genetics Sex Determination Processes - genetics Sex Ratio Sexes Temperature temperature-dependent sex determination
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creator	Consuegra, Sofia Rodríguez López, Carlos M.
description	We hypothesize that under the predicted scenario of climate change epigenetically mediated environmental sex determination could become an epigenetic trap. Epigenetically regulated environmental sex determination is a mechanism by which species can modulate their breeding strategies to accommodate environmental change. Growing evidence suggests that epigenetic mechanisms may play a key role in phenotypic plasticity and in the rapid adaptation of species to environmental change, through the capacity of organisms to maintain a non‐genetic plastic memory of the environmental and ecological conditions experienced by their parents. However, inherited epigenetic variation could also be maladaptive, becoming an epigenetic trap. This is because environmental sex determination can alter sex ratios by increasing the survival of one of the sexes at the expense of negative fitness consequences for the other, which could lead not only to the collapse of natural populations, but also have an impact in farmed animal and plant species. Methylome by environment interactions can regulate sex determination helping species to rapidly adapt to changing environments. However, under the predicted global warming conditions this adaptive strategy could become an epigenetic trap by creating extreme imbalances in sex ratios, which could affect both natural populations and farmed animal and plant species.
doi_str_mv	10.1002/bies.201600058
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subjects	Animal species Animals Climate Change Ecological conditions Environmental changes Environmental regulations environmental sex determination Epigenesis, Genetic Epigenetics maladaptation mating system methylation Natural populations Plant species Plants - genetics Sex Determination Processes - genetics Sex Ratio Sexes Temperature temperature-dependent sex determination
title	Epigenetic-induced alterations in sex-ratios in response to climate change: An epigenetic trap?
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