Different environmental response strategies in sympatric corals from Pacific Islands

Barbara Porro; Thamilla Zamoum; Didier Forcioli; Eric Gilson; Adrien Poquet; Eugenio Di Franco; Stéphanie Barnay-Verdier; Fabien Lombard; Christian R. Voolstra; Benjamin C.C. Hume; Pierre E. Galand; Clémentine Moulin; Emilie Boissin; Guillaume Bourdin; Guillaume Iwankow; Julie Poulain; Sarah Romac; Sylvain Agostini; Bernard Banaigs; Emmanuel Boss; Chris Bowler; Colomban de Vargas; Eric Douville; Michel Flores; Stéphane Pesant; Stéphanie Reynaud; Matthew B. Sullivan; Shinichi Sunagawa; Olivier P. Thomas; Romain Troublé; Rebecca Vega Thurber; Patrick Wincker; Didier Zoccola; Serge Planes; Denis Allemand; Eric Röttinger; Paola Furla

doi:10.1038/s43247-023-00946-8

Different environmental response strategies in sympatric corals from Pacific Islands

Barbara Porro, Thamilla Zamoum, Didier Forcioli, Eric Gilson, Adrien Poquet, Eugenio Di Franco, Stéphanie Barnay-Verdier, Fabien Lombard, Christian R. Voolstra, Benjamin C.C. Hume, Pierre E. Galand, Clémentine Moulin, Emilie Boissin, Guillaume Bourdin, Guillaume Iwankow, Julie Poulain, Sarah Romac, Sylvain Agostini, Bernard Banaigs, Emmanuel BossChris Bowler, Colomban de Vargas, Eric Douville, Michel Flores, Stéphane Pesant, Stéphanie Reynaud, Matthew B. Sullivan, Shinichi Sunagawa, Olivier P. Thomas, Romain Troublé, Rebecca Vega Thurber, Patrick Wincker, Didier Zoccola, Serge Planes, Denis Allemand, Eric Röttinger, Paola Furla

Sustainable World

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3 Citations (Scopus)

Abstract

Coral reefs are severely threatened by global and local environmental changes. However, susceptibility to perturbations and subsequent mortality varies among coral species. In this study, we tested the contribution of genetic and environmental conditions to coral’s phenotypic response in Pocillopora spp. and Porites spp. sampled together at a large ecological and temporal scale throughout the Pacific Ocean. We assessed coral phenotype signatures using a multi-biomarker approach (animal and symbiont biomasses, protein carbonylation and ubiquitination and total antioxidant capacities). In both genera, we highlighted a strong anticorrelation between the redox state and the animal and symbiont biomasses. In addition, Pocillopora exhibited high phenotypic plasticity, responding to various environmental variables such as temperature, nutrients, phosphate, and carbonate chemistry. In contrast, Porites displayed more robust phenotypes influenced by both genetics and past climate events. In conclusion, co-located coral species display different phenotypic response strategies that are influenced by different environmental conditions.

Original language	English
Article number	311
Journal	Communications Earth and Environment
Volume	4
Issue number	1
DOIs	https://doi.org/10.1038/s43247-023-00946-8
Publication status	Published - Dec 2023

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Porro, B., Zamoum, T., Forcioli, D., Gilson, E., Poquet, A., Di Franco, E., Barnay-Verdier, S., Lombard, F., Voolstra, C. R., Hume, B. C. C., Galand, P. E., Moulin, C., Boissin, E., Bourdin, G., Iwankow, G., Poulain, J., Romac, S., Agostini, S., Banaigs, B., ... Furla, P. (2023). Different environmental response strategies in sympatric corals from Pacific Islands. Communications Earth and Environment, 4(1), Article 311. https://doi.org/10.1038/s43247-023-00946-8

@article{37a5d85573ab4cc2982cde0f129c8f8b,

title = "Different environmental response strategies in sympatric corals from Pacific Islands",

abstract = "Coral reefs are severely threatened by global and local environmental changes. However, susceptibility to perturbations and subsequent mortality varies among coral species. In this study, we tested the contribution of genetic and environmental conditions to coral{\textquoteright}s phenotypic response in Pocillopora spp. and Porites spp. sampled together at a large ecological and temporal scale throughout the Pacific Ocean. We assessed coral phenotype signatures using a multi-biomarker approach (animal and symbiont biomasses, protein carbonylation and ubiquitination and total antioxidant capacities). In both genera, we highlighted a strong anticorrelation between the redox state and the animal and symbiont biomasses. In addition, Pocillopora exhibited high phenotypic plasticity, responding to various environmental variables such as temperature, nutrients, phosphate, and carbonate chemistry. In contrast, Porites displayed more robust phenotypes influenced by both genetics and past climate events. In conclusion, co-located coral species display different phenotypic response strategies that are influenced by different environmental conditions.",

author = "Barbara Porro and Thamilla Zamoum and Didier Forcioli and Eric Gilson and Adrien Poquet and \{Di Franco\}, Eugenio and St{\'e}phanie Barnay-Verdier and Fabien Lombard and Voolstra, \{Christian R.\} and Hume, \{Benjamin C.C.\} and Galand, \{Pierre E.\} and Cl{\'e}mentine Moulin and Emilie Boissin and Guillaume Bourdin and Guillaume Iwankow and Julie Poulain and Sarah Romac and Sylvain Agostini and Bernard Banaigs and Emmanuel Boss and Chris Bowler and \{de Vargas\}, Colomban and Eric Douville and Michel Flores and St{\'e}phane Pesant and St{\'e}phanie Reynaud and Sullivan, \{Matthew B.\} and Shinichi Sunagawa and Thomas, \{Olivier P.\} and Romain Troubl{\'e} and Thurber, \{Rebecca Vega\} and Patrick Wincker and Didier Zoccola and Serge Planes and Denis Allemand and Eric R{\"o}ttinger and Paola Furla",

note = "Publisher Copyright: {\textcopyright} 2023, Springer Nature Limited.",

year = "2023",

month = dec,

doi = "10.1038/s43247-023-00946-8",

language = "English",

volume = "4",

journal = "Communications Earth and Environment",

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Porro, B, Zamoum, T, Forcioli, D, Gilson, E, Poquet, A, Di Franco, E, Barnay-Verdier, S, Lombard, F, Voolstra, CR, Hume, BCC, Galand, PE, Moulin, C, Boissin, E, Bourdin, G, Iwankow, G, Poulain, J, Romac, S, Agostini, S, Banaigs, B, Boss, E, Bowler, C, de Vargas, C, Douville, E, Flores, M, Pesant, S, Reynaud, S, Sullivan, MB, Sunagawa, S, Thomas, OP, Troublé, R, Thurber, RV, Wincker, P, Zoccola, D, Planes, S, Allemand, D, Röttinger, E & Furla, P 2023, 'Different environmental response strategies in sympatric corals from Pacific Islands', Communications Earth and Environment, vol. 4, no. 1, 311. https://doi.org/10.1038/s43247-023-00946-8

TY - JOUR

T1 - Different environmental response strategies in sympatric corals from Pacific Islands

AU - Porro, Barbara

AU - Zamoum, Thamilla

AU - Forcioli, Didier

AU - Gilson, Eric

AU - Poquet, Adrien

AU - Di Franco, Eugenio

AU - Barnay-Verdier, Stéphanie

AU - Lombard, Fabien

AU - Voolstra, Christian R.

AU - Hume, Benjamin C.C.

AU - Galand, Pierre E.

AU - Moulin, Clémentine

AU - Boissin, Emilie

AU - Bourdin, Guillaume

AU - Iwankow, Guillaume

AU - Poulain, Julie

AU - Romac, Sarah

AU - Agostini, Sylvain

AU - Banaigs, Bernard

AU - Boss, Emmanuel

AU - Bowler, Chris

AU - de Vargas, Colomban

AU - Douville, Eric

AU - Flores, Michel

AU - Pesant, Stéphane

AU - Reynaud, Stéphanie

AU - Sullivan, Matthew B.

AU - Sunagawa, Shinichi

AU - Thomas, Olivier P.

AU - Troublé, Romain

AU - Thurber, Rebecca Vega

AU - Wincker, Patrick

AU - Zoccola, Didier

AU - Planes, Serge

AU - Allemand, Denis

AU - Röttinger, Eric

AU - Furla, Paola

PY - 2023/12

Y1 - 2023/12

N2 - Coral reefs are severely threatened by global and local environmental changes. However, susceptibility to perturbations and subsequent mortality varies among coral species. In this study, we tested the contribution of genetic and environmental conditions to coral’s phenotypic response in Pocillopora spp. and Porites spp. sampled together at a large ecological and temporal scale throughout the Pacific Ocean. We assessed coral phenotype signatures using a multi-biomarker approach (animal and symbiont biomasses, protein carbonylation and ubiquitination and total antioxidant capacities). In both genera, we highlighted a strong anticorrelation between the redox state and the animal and symbiont biomasses. In addition, Pocillopora exhibited high phenotypic plasticity, responding to various environmental variables such as temperature, nutrients, phosphate, and carbonate chemistry. In contrast, Porites displayed more robust phenotypes influenced by both genetics and past climate events. In conclusion, co-located coral species display different phenotypic response strategies that are influenced by different environmental conditions.

AB - Coral reefs are severely threatened by global and local environmental changes. However, susceptibility to perturbations and subsequent mortality varies among coral species. In this study, we tested the contribution of genetic and environmental conditions to coral’s phenotypic response in Pocillopora spp. and Porites spp. sampled together at a large ecological and temporal scale throughout the Pacific Ocean. We assessed coral phenotype signatures using a multi-biomarker approach (animal and symbiont biomasses, protein carbonylation and ubiquitination and total antioxidant capacities). In both genera, we highlighted a strong anticorrelation between the redox state and the animal and symbiont biomasses. In addition, Pocillopora exhibited high phenotypic plasticity, responding to various environmental variables such as temperature, nutrients, phosphate, and carbonate chemistry. In contrast, Porites displayed more robust phenotypes influenced by both genetics and past climate events. In conclusion, co-located coral species display different phenotypic response strategies that are influenced by different environmental conditions.

UR - https://www.scopus.com/pages/publications/85169907098

U2 - 10.1038/s43247-023-00946-8

DO - 10.1038/s43247-023-00946-8

M3 - Article

AN - SCOPUS:85169907098

SN - 2662-4435

VL - 4

JO - Communications Earth and Environment

JF - Communications Earth and Environment

IS - 1

M1 - 311

ER -

Different environmental response strategies in sympatric corals from Pacific Islands

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