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Autori principali: Lugue, Klervi, Monaco, Cristián, Vigouroux, Erwan, Sham Koua, Manaarii, Vidal-Dupiol, Jérémie, Mitta, Guillaume, Le Luyer, Jérémy
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Pubblicazione: Zenodo 2025
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Accesso online:https://doi.org/10.5281/zenodo.13889728
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author Lugue, Klervi
Monaco, Cristián
Vigouroux, Erwan
Sham Koua, Manaarii
Vidal-Dupiol, Jérémie
Mitta, Guillaume
Le Luyer, Jérémy
author_facet Lugue, Klervi
Monaco, Cristián
Vigouroux, Erwan
Sham Koua, Manaarii
Vidal-Dupiol, Jérémie
Mitta, Guillaume
Le Luyer, Jérémy
contents <div> <div> <div> <p>Ectotherm vulnerability to climate change is predicted to increase with temperature variation. Still, translating laboratory observations of organisms' heat-stress responses to the natural fluctuating environment remains challenging. In this study, we used an integrative framework combining insights from thermal death time (TDT) curves and physiological reaction norms to precisely capture Pinctada margaritifera's thermal performance and tolerance landscape. We then applied this integrative model to predict individuals' cumulative heat injury as a function of actual temperature conditions documented at five contrasting islands across French Polynesia. Substantial injury was predicted for spats (ranging from 30.24% to 29.62%) when exposed to eight consecutive extreme low tide events in Nuku Hiva. Overall, this study highlights the potential of this framework to effectively quantify the impact of extreme events, such as marine heatwaves, and to guide resource management initiatives.</p> </div> </div> </div>
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spellingShingle Data from: Exploring thermal tolerance across time and space in a tropical bivalve, Pinctada margaritifera
Lugue, Klervi
Monaco, Cristián
Vigouroux, Erwan
Sham Koua, Manaarii
Vidal-Dupiol, Jérémie
Mitta, Guillaume
Le Luyer, Jérémy
Global warming
ontogeny
Thermal Death Time
thermal limits
Thermal tolerance
Tropical bivalve
<div> <div> <div> <p>Ectotherm vulnerability to climate change is predicted to increase with temperature variation. Still, translating laboratory observations of organisms' heat-stress responses to the natural fluctuating environment remains challenging. In this study, we used an integrative framework combining insights from thermal death time (TDT) curves and physiological reaction norms to precisely capture Pinctada margaritifera's thermal performance and tolerance landscape. We then applied this integrative model to predict individuals' cumulative heat injury as a function of actual temperature conditions documented at five contrasting islands across French Polynesia. Substantial injury was predicted for spats (ranging from 30.24% to 29.62%) when exposed to eight consecutive extreme low tide events in Nuku Hiva. Overall, this study highlights the potential of this framework to effectively quantify the impact of extreme events, such as marine heatwaves, and to guide resource management initiatives.</p> </div> </div> </div>
title Data from: Exploring thermal tolerance across time and space in a tropical bivalve, Pinctada margaritifera
topic Global warming
ontogeny
Thermal Death Time
thermal limits
Thermal tolerance
Tropical bivalve
url https://doi.org/10.5281/zenodo.13889728