Can multi-generational exposure to ocean warming and acidification lead to the adaptation of life history and physiology in a marine metazoan?

Ocean warming and acidification are concomitant global drivers that are currently threatening the survival of marine organisms. How species will respond to these changes depends on their capacity for plastic and adaptive responses. Little is known about the mechanisms that govern plasticity and adap...

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Published in:	Journal of Experimental Biology
Main Authors:	Gibbin, Emma M., Chakravarti, Leela J., Jarrold, Michael D., Christen, Felix, Turpin, Vincent, N'Siala, Gloria Massamba, Blier, Pierre U., Calosi, Piero
Format:	Article in Journal/Newspaper
Language:	unknown
Published:	Company of Biologists 2017
Subjects:	Ocean acidification
Online Access:	https://researchonline.jcu.edu.au/53911/1/53911%20Gibbin%20et%20al%202017.pdf

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spelling	ftjamescook:oai:researchonline.jcu.edu.au:53911 2024-02-11T10:07:35+01:00 Can multi-generational exposure to ocean warming and acidification lead to the adaptation of life history and physiology in a marine metazoan? Gibbin, Emma M. Chakravarti, Leela J. Jarrold, Michael D. Christen, Felix Turpin, Vincent N'Siala, Gloria Massamba Blier, Pierre U. Calosi, Piero 2017-02-15 application/pdf https://researchonline.jcu.edu.au/53911/1/53911%20Gibbin%20et%20al%202017.pdf unknown Company of Biologists http://doi.org/10.1242/jeb.149989 https://researchonline.jcu.edu.au/53911/ https://researchonline.jcu.edu.au/53911/1/53911%20Gibbin%20et%20al%202017.pdf Gibbin, Emma M., Chakravarti, Leela J., Jarrold, Michael D., Christen, Felix, Turpin, Vincent, N'Siala, Gloria Massamba, Blier, Pierre U., and Calosi, Piero (2017) Can multi-generational exposure to ocean warming and acidification lead to the adaptation of life history and physiology in a marine metazoan? Journal of Experimental Biology, 220 (4). pp. 551-563. restricted Article PeerReviewed 2017 ftjamescook https://doi.org/10.1242/jeb.149989 2024-01-22T23:42:05Z Ocean warming and acidification are concomitant global drivers that are currently threatening the survival of marine organisms. How species will respond to these changes depends on their capacity for plastic and adaptive responses. Little is known about the mechanisms that govern plasticity and adaptability or how global changes will influence these relationships across multiple generations. Here, we exposed the emerging model marine polychaete Ophryotrocha labronica to conditions simulating ocean warming and acidification, in isolation and in combination over five generations to identify: (i) how multiple versus single global change drivers alter both juvenile and adult life-history traits; (ii) the mechanistic link between adult physiological and fitness-related life-history traits; and (iii) whether the phenotypic changes observed over multiple generations are of plastic and/or adaptive origin. Two juvenile (developmental rate; survival to sexual maturity) and two adult (average reproductive body size; fecundity) life-history traits were measured in each generation, in addition to three physiological (cellular reactive oxygen species content, mitochondrial density, mitochondrial capacity) traits. We found that multi-generational exposure to warming alone caused an increase in juvenile developmental rate, reactive oxygen species production and mitochondrial density, decreases in average reproductive body size and fecundity, and fluctuations in mitochondrial capacity, relative to control conditions. Exposure to ocean acidification alone had only minor effects on juvenile developmental rate. Remarkably, when both drivers of global change were present, only mitochondrial capacity was significantly affected, suggesting that ocean warming and acidification act as opposing vectors of stress across multiple generations. Article in Journal/Newspaper Ocean acidification James Cook University, Australia: ResearchOnline@JCU Journal of Experimental Biology
institution	Open Polar
collection	James Cook University, Australia: ResearchOnline@JCU
op_collection_id	ftjamescook
language	unknown
description	Ocean warming and acidification are concomitant global drivers that are currently threatening the survival of marine organisms. How species will respond to these changes depends on their capacity for plastic and adaptive responses. Little is known about the mechanisms that govern plasticity and adaptability or how global changes will influence these relationships across multiple generations. Here, we exposed the emerging model marine polychaete Ophryotrocha labronica to conditions simulating ocean warming and acidification, in isolation and in combination over five generations to identify: (i) how multiple versus single global change drivers alter both juvenile and adult life-history traits; (ii) the mechanistic link between adult physiological and fitness-related life-history traits; and (iii) whether the phenotypic changes observed over multiple generations are of plastic and/or adaptive origin. Two juvenile (developmental rate; survival to sexual maturity) and two adult (average reproductive body size; fecundity) life-history traits were measured in each generation, in addition to three physiological (cellular reactive oxygen species content, mitochondrial density, mitochondrial capacity) traits. We found that multi-generational exposure to warming alone caused an increase in juvenile developmental rate, reactive oxygen species production and mitochondrial density, decreases in average reproductive body size and fecundity, and fluctuations in mitochondrial capacity, relative to control conditions. Exposure to ocean acidification alone had only minor effects on juvenile developmental rate. Remarkably, when both drivers of global change were present, only mitochondrial capacity was significantly affected, suggesting that ocean warming and acidification act as opposing vectors of stress across multiple generations.
format	Article in Journal/Newspaper
author	Gibbin, Emma M. Chakravarti, Leela J. Jarrold, Michael D. Christen, Felix Turpin, Vincent N'Siala, Gloria Massamba Blier, Pierre U. Calosi, Piero
spellingShingle	Gibbin, Emma M. Chakravarti, Leela J. Jarrold, Michael D. Christen, Felix Turpin, Vincent N'Siala, Gloria Massamba Blier, Pierre U. Calosi, Piero Can multi-generational exposure to ocean warming and acidification lead to the adaptation of life history and physiology in a marine metazoan?
author_facet	Gibbin, Emma M. Chakravarti, Leela J. Jarrold, Michael D. Christen, Felix Turpin, Vincent N'Siala, Gloria Massamba Blier, Pierre U. Calosi, Piero
author_sort	Gibbin, Emma M.
title	Can multi-generational exposure to ocean warming and acidification lead to the adaptation of life history and physiology in a marine metazoan?
title_short	Can multi-generational exposure to ocean warming and acidification lead to the adaptation of life history and physiology in a marine metazoan?
title_full	Can multi-generational exposure to ocean warming and acidification lead to the adaptation of life history and physiology in a marine metazoan?
title_fullStr	Can multi-generational exposure to ocean warming and acidification lead to the adaptation of life history and physiology in a marine metazoan?
title_full_unstemmed	Can multi-generational exposure to ocean warming and acidification lead to the adaptation of life history and physiology in a marine metazoan?
title_sort	can multi-generational exposure to ocean warming and acidification lead to the adaptation of life history and physiology in a marine metazoan?
publisher	Company of Biologists
publishDate	2017
url	https://researchonline.jcu.edu.au/53911/1/53911%20Gibbin%20et%20al%202017.pdf
genre	Ocean acidification
genre_facet	Ocean acidification
op_relation	http://doi.org/10.1242/jeb.149989 https://researchonline.jcu.edu.au/53911/ https://researchonline.jcu.edu.au/53911/1/53911%20Gibbin%20et%20al%202017.pdf Gibbin, Emma M., Chakravarti, Leela J., Jarrold, Michael D., Christen, Felix, Turpin, Vincent, N'Siala, Gloria Massamba, Blier, Pierre U., and Calosi, Piero (2017) Can multi-generational exposure to ocean warming and acidification lead to the adaptation of life history and physiology in a marine metazoan? Journal of Experimental Biology, 220 (4). pp. 551-563.
op_rights	restricted
op_doi	https://doi.org/10.1242/jeb.149989
container_title	Journal of Experimental Biology
_version_	1790606198596173824

Can multi-generational exposure to ocean warming and acidification lead to the adaptation of life history and physiology in a marine metazoan?

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