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Stressful environments induce novel phenotypic variation: hierarchical reaction norms for sperm performance of a pervasive invader

Genetic variation for phenotypic plasticity is ubiquitous and important. However, the scale of such variation including the relative variability present in reaction norms among different hierarchies of biological organization (e.g., individuals, populations, and closely related species) is unknown....

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Detalles Bibliográficos
Autores principales: Purchase, Craig F, Moreau, Darek T R
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Blackwell Publishing Ltd 2012
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3492782/
https://www.ncbi.nlm.nih.gov/pubmed/23145341
http://dx.doi.org/10.1002/ece3.364
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author Purchase, Craig F
Moreau, Darek T R
author_facet Purchase, Craig F
Moreau, Darek T R
author_sort Purchase, Craig F
collection PubMed
description Genetic variation for phenotypic plasticity is ubiquitous and important. However, the scale of such variation including the relative variability present in reaction norms among different hierarchies of biological organization (e.g., individuals, populations, and closely related species) is unknown. Complicating interpretation is a trade-off in environmental scale. As plasticity can only be inferred over the range of environments tested, experiments focusing on fine tuned responses to normal or benign conditions may miss cryptic phenotypic variation expressed under novel or stressful environments. Here, we sought to discern the presence and shape of plasticity in the performance of brown trout sperm as a function of optimal to extremely stressful river pH, and demarcate if the reaction norm varies among genotypes. Our overarching goal was to determine if deteriorating environmental quality increases expressed variation among individuals. A more applied aim was to ascertain whether maintaining sperm performance over a wide pH range could help explain how brown trout are able to invade diverse river systems when transplanted outside of their native range. Individuals differed in their reaction norms of phenotypic expression of an important trait in response to environmental change. Cryptic variation was revealed under stressful conditions, evidenced through increasing among-individual variability. Importantly, data on population averages masked this variability in plasticity. In addition, canalized reaction norms in sperm swimming velocities of many individuals over a very large range in water chemistry may help explain why brown trout are able to colonize a wide variety of habitats.
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spelling pubmed-34927822012-11-09 Stressful environments induce novel phenotypic variation: hierarchical reaction norms for sperm performance of a pervasive invader Purchase, Craig F Moreau, Darek T R Ecol Evol Original Research Genetic variation for phenotypic plasticity is ubiquitous and important. However, the scale of such variation including the relative variability present in reaction norms among different hierarchies of biological organization (e.g., individuals, populations, and closely related species) is unknown. Complicating interpretation is a trade-off in environmental scale. As plasticity can only be inferred over the range of environments tested, experiments focusing on fine tuned responses to normal or benign conditions may miss cryptic phenotypic variation expressed under novel or stressful environments. Here, we sought to discern the presence and shape of plasticity in the performance of brown trout sperm as a function of optimal to extremely stressful river pH, and demarcate if the reaction norm varies among genotypes. Our overarching goal was to determine if deteriorating environmental quality increases expressed variation among individuals. A more applied aim was to ascertain whether maintaining sperm performance over a wide pH range could help explain how brown trout are able to invade diverse river systems when transplanted outside of their native range. Individuals differed in their reaction norms of phenotypic expression of an important trait in response to environmental change. Cryptic variation was revealed under stressful conditions, evidenced through increasing among-individual variability. Importantly, data on population averages masked this variability in plasticity. In addition, canalized reaction norms in sperm swimming velocities of many individuals over a very large range in water chemistry may help explain why brown trout are able to colonize a wide variety of habitats. Blackwell Publishing Ltd 2012-10 2012-09-13 /pmc/articles/PMC3492782/ /pubmed/23145341 http://dx.doi.org/10.1002/ece3.364 Text en © 2012 Published by Blackwell Publishing Ltd. http://creativecommons.org/licenses/by/2.5/ Re-use of this article is permitted in accordance with the Creative Commons Deed, Attribution 2.5, which does not permit commercial exploitation.
spellingShingle Original Research
Purchase, Craig F
Moreau, Darek T R
Stressful environments induce novel phenotypic variation: hierarchical reaction norms for sperm performance of a pervasive invader
title Stressful environments induce novel phenotypic variation: hierarchical reaction norms for sperm performance of a pervasive invader
title_full Stressful environments induce novel phenotypic variation: hierarchical reaction norms for sperm performance of a pervasive invader
title_fullStr Stressful environments induce novel phenotypic variation: hierarchical reaction norms for sperm performance of a pervasive invader
title_full_unstemmed Stressful environments induce novel phenotypic variation: hierarchical reaction norms for sperm performance of a pervasive invader
title_short Stressful environments induce novel phenotypic variation: hierarchical reaction norms for sperm performance of a pervasive invader
title_sort stressful environments induce novel phenotypic variation: hierarchical reaction norms for sperm performance of a pervasive invader
topic Original Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3492782/
https://www.ncbi.nlm.nih.gov/pubmed/23145341
http://dx.doi.org/10.1002/ece3.364
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