Early development and molecular plasticity in the Mediterranean sea urchin Paracentrotus lividus exposed to CO2-driven acidification
Early development and molecular plasticity in the Mediterranean sea urchin Paracentrotus lividus exposed to CO2-driven acidification
Ocean acidification is predicted to have significant effects on benthic calcifying invertebrates, in particular on their early developmental stages. Echinoderm larvae could be particularly vulnerable to decreased pH, with major consequences for adult populations. The objective of this study was to understand how ocean acidification would affect the initial life stages of the sea urchin Paracentrotus lividus, a common species that is widely distributed in the Mediterranean Sea and the NE Atlantic. The effects of decreased pH (elevated P(CO(2))) were investigated through physiological and molecular analyses on both embryonic and larval stages. Eggs and larvae were reared in Mediterranean seawater at six pH levels, i.e. pH(T) 8.1, 7.9, 7.7, 7.5, 7.25 and 7.0. Fertilization success, survival, growth and calcification rates were monitored over a 3 day period. The expression of genes coding for key proteins involved in development and biomineralization was also monitored. Paracentrotus lividus appears to be extremely resistant to low pH, with no effect on fertilization success or larval survival. Larval growth was slowed when exposed to low pH but with no direct impact on relative larval morphology or calcification down to pH(T) 7.25. Consequently, at a given time, larvae exposed to low pH were present at a normal but delayed larval stage. More surprisingly, candidate genes involved in development and biomineralization were upregulated by factors of up to 26 at low pH. Our results revealed plasticity at the gene expression level that allows a normal, but delayed, development under low pH conditions.
1357-1368
Martin, Sophie
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Richier, Sophie
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Pedrotti, Maria-Luiza
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Dupont, Sam
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Castejon, Charlotte
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Gerakis, Yannis
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Kerros, Marie-Emmanuelle
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Oberhänsli, François
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Teyssié, Jean-Louis
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Jeffree, Ross
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Gattuso, Jean-Pierre
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15 April 2011
Martin, Sophie
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Richier, Sophie
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Pedrotti, Maria-Luiza
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Dupont, Sam
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Castejon, Charlotte
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Gerakis, Yannis
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Kerros, Marie-Emmanuelle
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Oberhänsli, François
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Teyssié, Jean-Louis
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Jeffree, Ross
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Gattuso, Jean-Pierre
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Martin, Sophie, Richier, Sophie, Pedrotti, Maria-Luiza, Dupont, Sam, Castejon, Charlotte, Gerakis, Yannis, Kerros, Marie-Emmanuelle, Oberhänsli, François, Teyssié, Jean-Louis, Jeffree, Ross and Gattuso, Jean-Pierre
(2011)
Early development and molecular plasticity in the Mediterranean sea urchin Paracentrotus lividus exposed to CO2-driven acidification.
Journal of Experimental Biology, 214 (8), .
(doi:10.1242/jeb.051169).
(PMID:21430213)
Abstract
Ocean acidification is predicted to have significant effects on benthic calcifying invertebrates, in particular on their early developmental stages. Echinoderm larvae could be particularly vulnerable to decreased pH, with major consequences for adult populations. The objective of this study was to understand how ocean acidification would affect the initial life stages of the sea urchin Paracentrotus lividus, a common species that is widely distributed in the Mediterranean Sea and the NE Atlantic. The effects of decreased pH (elevated P(CO(2))) were investigated through physiological and molecular analyses on both embryonic and larval stages. Eggs and larvae were reared in Mediterranean seawater at six pH levels, i.e. pH(T) 8.1, 7.9, 7.7, 7.5, 7.25 and 7.0. Fertilization success, survival, growth and calcification rates were monitored over a 3 day period. The expression of genes coding for key proteins involved in development and biomineralization was also monitored. Paracentrotus lividus appears to be extremely resistant to low pH, with no effect on fertilization success or larval survival. Larval growth was slowed when exposed to low pH but with no direct impact on relative larval morphology or calcification down to pH(T) 7.25. Consequently, at a given time, larvae exposed to low pH were present at a normal but delayed larval stage. More surprisingly, candidate genes involved in development and biomineralization were upregulated by factors of up to 26 at low pH. Our results revealed plasticity at the gene expression level that allows a normal, but delayed, development under low pH conditions.
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Published date: 15 April 2011
Organisations:
Ocean Biochemistry & Ecosystems
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Local EPrints ID: 341900
URI: http://eprints.soton.ac.uk/id/eprint/341900
ISSN: 0022-0949
PURE UUID: b192e410-9b74-4718-a3de-10cb1d99c177
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Date deposited: 09 Aug 2012 10:20
Last modified: 14 Mar 2024 11:45
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Author:
Sophie Martin
Author:
Sophie Richier
Author:
Maria-Luiza Pedrotti
Author:
Sam Dupont
Author:
Charlotte Castejon
Author:
Yannis Gerakis
Author:
Marie-Emmanuelle Kerros
Author:
François Oberhänsli
Author:
Jean-Louis Teyssié
Author:
Ross Jeffree
Author:
Jean-Pierre Gattuso
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