Calcification in bleached and unbleached Montastraea faveolata: evaluating the role of oxygen and glycerol

All reef-building corals are symbiotic with dinoflagellates of the genus Symbiodinium , which influences many aspects of the host’s physiology including calcification. Coral calcification is a biologically controlled process performed by the host that takes place several membranes away from the site...

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Published in	Coral reefs Vol. 29; no. 4; pp. 899 - 907
Main Authors	Colombo-Pallotta, M. F., Rodríguez-Román, A., Iglesias-Prieto, R.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer-Verlag 01.12.2010 Springer Springer Nature B.V
Subjects	Animal and plant ecology Animal, plant and microbial ecology Biological and medical sciences Biomedical and Life Sciences Calcium Chemical analysis Cnidaria. Ctenaria Coral bleaching Coral reefs Freshwater & Marine Ecology Fundamental and applied biological sciences. Psychology Invertebrates Life Sciences Montastraea faveolata Oceanography Oxygen Photosynthesis Physiology Sea water ecosystems Seawater Symbiodinium Symbiosis Synecology Water analysis ASW, Caribbean Sea Symbiosis Glycerol Oxygen Coral calcification Coelenterata Coral Cnidaria Calcification Coral reef Invertebrata Scleractinia Montastraea faveolata
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Abstract	All reef-building corals are symbiotic with dinoflagellates of the genus Symbiodinium , which influences many aspects of the host’s physiology including calcification. Coral calcification is a biologically controlled process performed by the host that takes place several membranes away from the site of photosynthesis performed by the symbiont. Although it is well established that light accelerates CaCO 3 deposition in reef-building corals (commonly referred to as light-enhanced calcification), the complete physiological mechanism behind the process is not fully understood. To better comprehend the coral calcification process, a series of laboratory experiments were conducted in the major Caribbean reef-building species Montastraea faveolata , to evaluate the effect of glycerol addition and/or the super-saturation of oxygen in the seawater. These manipulations were performed in bleached and unbleached corals, to separate the effect of photosynthesis from calcification. The results suggest that under normal physiological conditions, a 42% increase in seawater oxygen concentration promotes a twofold increase in dark-calcification rates relative to controls. On the other hand, the results obtained using bleached corals suggest that glycerol is required, as a metabolic fuel, in addition to an oxygenic environment in a symbiosis that has been disrupted. Also, respiration rates in symbiotic corals that were pre-incubated in light conditions showed a kinetic limitation, whereas corals that were pre-incubated in darkness were oxygen limited, clearly emphasizing the role of oxygen in this regard. These findings indicate that calcification in symbiotic corals is not strictly a “light-enhanced” or “dark-repressed” process, but rather, the products of photosynthesis have a critical role in calcification, which should be viewed as a “photosynthesis-driven” process. The results presented here are discussed in the context of the current knowledge of the coral calcification process.
AbstractList	All reef-building corals are symbiotic with dinoflagellates of the genus Symbiodinium, which influences many aspects of the host's physiology including calcification. Coral calcification is a biologically controlled process performed by the host that takes place several membranes away from the site of photosynthesis performed by the symbiont. Although it is well established that light accelerates CaCO sub(3) deposition in reef-building corals (commonly referred to as light-enhanced calcification), the complete physiological mechanism behind the process is not fully understood. To better comprehend the coral calcification process, a series of laboratory experiments were conducted in the major Caribbean reef-building species Montastraea faveolata, to evaluate the effect of glycerol addition and/or the super-saturation of oxygen in the seawater. These manipulations were performed in bleached and unbleached corals, to separate the effect of photosynthesis from calcification. The results suggest that under normal physiological conditions, a 42% increase in seawater oxygen concentration promotes a twofold increase in dark-calcification rates relative to controls. On the other hand, the results obtained using bleached corals suggest that glycerol is required, as a metabolic fuel, in addition to an oxygenic environment in a symbiosis that has been disrupted. Also, respiration rates in symbiotic corals that were pre-incubated in light conditions showed a kinetic limitation, whereas corals that were pre-incubated in darkness were oxygen limited, clearly emphasizing the role of oxygen in this regard. These findings indicate that calcification in symbiotic corals is not strictly a "light-enhanced" or "dark-repressed" process, but rather, the products of photosynthesis have a critical role in calcification, which should be viewed as a "photosynthesis-driven" process. The results presented here are discussed in the context of the current knowledge of the coral calcification process. All reef-building corals are symbiotic with dinoflagellates of the genus Symbiodinium, which influences many aspects of the host's physiology including calcification. Coral calcification is a biologically controlled process performed by the host that takes place several membranes away from the site of photosynthesis performed by the symbiont. Although it is well established that light accelerates CaCO^sub 3^ deposition in reef-building corals (commonly referred to as light-enhanced calcification), the complete physiological mechanism behind the process is not fully understood. To better comprehend the coral calcification process, a series of laboratory experiments were conducted in the major Caribbean reef-building species Montastraea faveolata, to evaluate the effect of glycerol addition and/or the super-saturation of oxygen in the seawater. These manipulations were performed in bleached and unbleached corals, to separate the effect of photosynthesis from calcification. The results suggest that under normal physiological conditions, a 42% increase in seawater oxygen concentration promotes a twofold increase in dark-calcification rates relative to controls. On the other hand, the results obtained using bleached corals suggest that glycerol is required, as a metabolic fuel, in addition to an oxygenic environment in a symbiosis that has been disrupted. Also, respiration rates in symbiotic corals that were pre-incubated in light conditions showed a kinetic limitation, whereas corals that were pre-incubated in darkness were oxygen limited, clearly emphasizing the role of oxygen in this regard. These findings indicate that calcification in symbiotic corals is not strictly a "light-enhanced" or "dark-repressed" process, but rather, the products of photosynthesis have a critical role in calcification, which should be viewed as a "photosynthesis-driven" process. The results presented here are discussed in the context of the current knowledge of the coral calcification process.[PUBLICATION ABSTRACT] All reef-building corals are symbiotic with dinoflagellates of the genus Symbiodinium , which influences many aspects of the host’s physiology including calcification. Coral calcification is a biologically controlled process performed by the host that takes place several membranes away from the site of photosynthesis performed by the symbiont. Although it is well established that light accelerates CaCO 3 deposition in reef-building corals (commonly referred to as light-enhanced calcification), the complete physiological mechanism behind the process is not fully understood. To better comprehend the coral calcification process, a series of laboratory experiments were conducted in the major Caribbean reef-building species Montastraea faveolata , to evaluate the effect of glycerol addition and/or the super-saturation of oxygen in the seawater. These manipulations were performed in bleached and unbleached corals, to separate the effect of photosynthesis from calcification. The results suggest that under normal physiological conditions, a 42% increase in seawater oxygen concentration promotes a twofold increase in dark-calcification rates relative to controls. On the other hand, the results obtained using bleached corals suggest that glycerol is required, as a metabolic fuel, in addition to an oxygenic environment in a symbiosis that has been disrupted. Also, respiration rates in symbiotic corals that were pre-incubated in light conditions showed a kinetic limitation, whereas corals that were pre-incubated in darkness were oxygen limited, clearly emphasizing the role of oxygen in this regard. These findings indicate that calcification in symbiotic corals is not strictly a “light-enhanced” or “dark-repressed” process, but rather, the products of photosynthesis have a critical role in calcification, which should be viewed as a “photosynthesis-driven” process. The results presented here are discussed in the context of the current knowledge of the coral calcification process.
Author	Iglesias-Prieto, R. Colombo-Pallotta, M. F. Rodríguez-Román, A.
Author_xml	– sequence: 1 givenname: M. F. surname: Colombo-Pallotta fullname: Colombo-Pallotta, M. F. email: colombo@cmarl.unam.mx, flormihal@hotmail.com organization: Unidad Académica de Sistemas Arrecifales, Instituto de Ciencias del Mar y Limnología, Universidad Nacional Autónoma de México – sequence: 2 givenname: A. surname: Rodríguez-Román fullname: Rodríguez-Román, A. organization: Unidad Académica de Sistemas Arrecifales, Instituto de Ciencias del Mar y Limnología, Universidad Nacional Autónoma de México – sequence: 3 givenname: R. surname: Iglesias-Prieto fullname: Iglesias-Prieto, R. organization: Unidad Académica de Sistemas Arrecifales, Instituto de Ciencias del Mar y Limnología, Universidad Nacional Autónoma de México
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Keywords	Symbiosis Glycerol Oxygen Coral calcification Coelenterata Coral Cnidaria Calcification Coral reef Invertebrata Scleractinia Montastraea faveolata
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Snippet	All reef-building corals are symbiotic with dinoflagellates of the genus Symbiodinium , which influences many aspects of the host’s physiology including... All reef-building corals are symbiotic with dinoflagellates of the genus Symbiodinium, which influences many aspects of the host's physiology including...
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SubjectTerms	Animal and plant ecology Animal, plant and microbial ecology Biological and medical sciences Biomedical and Life Sciences Calcium Chemical analysis Cnidaria. Ctenaria Coral bleaching Coral reefs Freshwater & Marine Ecology Fundamental and applied biological sciences. Psychology Invertebrates Life Sciences Montastraea faveolata Oceanography Oxygen Photosynthesis Physiology Sea water ecosystems Seawater Symbiodinium Symbiosis Synecology Water analysis
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Title	Calcification in bleached and unbleached Montastraea faveolata: evaluating the role of oxygen and glycerol
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