Does Encapsulation Protect Embryos from the Effects of Ocean Acidification? The Example of Crepidula fornicata

Early life history stages of marine organisms are generally thought to be more sensitive to environmental stress than adults. Although most marine invertebrates are broadcast spawners, some species are brooders and/or protect their embryos in egg or capsules. Brooding and encapsulation strategies ar...

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Autores principales: Noisette, Fanny, Comtet, Thierry, Legrand, Erwann, Bordeyne, François, Davoult, Dominique, Martin, Sophie
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3966861/
https://www.ncbi.nlm.nih.gov/pubmed/24671195
http://dx.doi.org/10.1371/journal.pone.0093021
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author Noisette, Fanny
Comtet, Thierry
Legrand, Erwann
Bordeyne, François
Davoult, Dominique
Martin, Sophie
author_facet Noisette, Fanny
Comtet, Thierry
Legrand, Erwann
Bordeyne, François
Davoult, Dominique
Martin, Sophie
author_sort Noisette, Fanny
collection PubMed
description Early life history stages of marine organisms are generally thought to be more sensitive to environmental stress than adults. Although most marine invertebrates are broadcast spawners, some species are brooders and/or protect their embryos in egg or capsules. Brooding and encapsulation strategies are typically assumed to confer greater safety and protection to embryos, although little is known about the physico-chemical conditions within egg capsules. In the context of ocean acidification, the protective role of encapsulation remains to be investigated. To address this issue, we conducted experiments on the gastropod Crepidula fornicata. This species broods its embryos within capsules located under the female and veliger larvae are released directly into the water column. C. fornicata adults were reared at the current level of CO(2) partial pressure (pCO(2)) (390 μatm) and at elevated levels (750 and 1400 μatm) before and after fertilization and until larval release, such that larval development occurred entirely at a given pCO(2). The pCO(2) effects on shell morphology, the frequency of abnormalities and mineralization level were investigated on released larvae. Shell length decreased by 6% and shell surface area by 11% at elevated pCO(2) (1400 μatm). The percentage of abnormalities was 1.5- to 4-fold higher at 750 μatm and 1400 μatm pCO(2), respectively, than at 390 μatm. The intensity of birefringence, used as a proxy for the mineralization level of the larval shell, also decreased with increasing pCO(2). These negative results are likely explained by increased intracapsular acidosis due to elevated pCO(2) in extracapsular seawater. The encapsulation of C. fornicata embryos did not protect them against the deleterious effects of a predicted pCO(2) increase. Nevertheless, C. fornicata larvae seemed less affected than other mollusk species. Further studies are needed to identify the critical points of the life cycle in this species in light of future ocean acidification.
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spelling pubmed-39668612014-03-31 Does Encapsulation Protect Embryos from the Effects of Ocean Acidification? The Example of Crepidula fornicata Noisette, Fanny Comtet, Thierry Legrand, Erwann Bordeyne, François Davoult, Dominique Martin, Sophie PLoS One Research Article Early life history stages of marine organisms are generally thought to be more sensitive to environmental stress than adults. Although most marine invertebrates are broadcast spawners, some species are brooders and/or protect their embryos in egg or capsules. Brooding and encapsulation strategies are typically assumed to confer greater safety and protection to embryos, although little is known about the physico-chemical conditions within egg capsules. In the context of ocean acidification, the protective role of encapsulation remains to be investigated. To address this issue, we conducted experiments on the gastropod Crepidula fornicata. This species broods its embryos within capsules located under the female and veliger larvae are released directly into the water column. C. fornicata adults were reared at the current level of CO(2) partial pressure (pCO(2)) (390 μatm) and at elevated levels (750 and 1400 μatm) before and after fertilization and until larval release, such that larval development occurred entirely at a given pCO(2). The pCO(2) effects on shell morphology, the frequency of abnormalities and mineralization level were investigated on released larvae. Shell length decreased by 6% and shell surface area by 11% at elevated pCO(2) (1400 μatm). The percentage of abnormalities was 1.5- to 4-fold higher at 750 μatm and 1400 μatm pCO(2), respectively, than at 390 μatm. The intensity of birefringence, used as a proxy for the mineralization level of the larval shell, also decreased with increasing pCO(2). These negative results are likely explained by increased intracapsular acidosis due to elevated pCO(2) in extracapsular seawater. The encapsulation of C. fornicata embryos did not protect them against the deleterious effects of a predicted pCO(2) increase. Nevertheless, C. fornicata larvae seemed less affected than other mollusk species. Further studies are needed to identify the critical points of the life cycle in this species in light of future ocean acidification. Public Library of Science 2014-03-26 /pmc/articles/PMC3966861/ /pubmed/24671195 http://dx.doi.org/10.1371/journal.pone.0093021 Text en © 2014 Noisette et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Noisette, Fanny
Comtet, Thierry
Legrand, Erwann
Bordeyne, François
Davoult, Dominique
Martin, Sophie
Does Encapsulation Protect Embryos from the Effects of Ocean Acidification? The Example of Crepidula fornicata
title Does Encapsulation Protect Embryos from the Effects of Ocean Acidification? The Example of Crepidula fornicata
title_full Does Encapsulation Protect Embryos from the Effects of Ocean Acidification? The Example of Crepidula fornicata
title_fullStr Does Encapsulation Protect Embryos from the Effects of Ocean Acidification? The Example of Crepidula fornicata
title_full_unstemmed Does Encapsulation Protect Embryos from the Effects of Ocean Acidification? The Example of Crepidula fornicata
title_short Does Encapsulation Protect Embryos from the Effects of Ocean Acidification? The Example of Crepidula fornicata
title_sort does encapsulation protect embryos from the effects of ocean acidification? the example of crepidula fornicata
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3966861/
https://www.ncbi.nlm.nih.gov/pubmed/24671195
http://dx.doi.org/10.1371/journal.pone.0093021
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