Photosynthetic Response to Elevated Temperature in the Symbiotic Dinoflagellate Symbiodinium microadriaticum in Culture

Elevated temperature (28-34⚬C) has been hypothesized as the primary cause of the loss of algal endosymbionts in coral reef-associated invertebrates, a phenomenon observed on a world-wide scale over the last decade. In past studies of this "bleaching" phenomenon, there has been an underlyin...

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Published in	Proceedings of the National Academy of Sciences - PNAS Vol. 89; no. 21; pp. 10302 - 10305
Main Authors	Iglesias-Prieto, Roberto, Matta, Jaime L., Robins, Wendy A., Trench, Robert K.
Format	Journal Article
Language	English
Published	Washington, DC National Academy of Sciences of the United States of America 01.11.1992 National Acad Sciences National Academy of Sciences
Subjects	Algae Animal and plant ecology Animal, plant and microbial ecology Autoecology Biological and medical sciences Bleaching Cell growth Coral reefs Fluorescence Fundamental and applied biological sciences. Psychology Heat High temperature Invertebrates Photosynthesis Plants Plants and fungi Respiration Symbiodinium microadriaticum Symbiosis Temperature Temperature Symbiotic relation Algae Oxygen emission Fluorescence Environmental factor Pyrrophycophyta In vitro Intracellular symbiosis Dissociation Inhibition Invertebrata Photosynthesis Thallophyta
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Abstract	Elevated temperature (28-34⚬C) has been hypothesized as the primary cause of the loss of algal endosymbionts in coral reef-associated invertebrates, a phenomenon observed on a world-wide scale over the last decade. In past studies of this "bleaching" phenomenon, there has been an underlying assumption that temperature adversely affects the animal hosts, the algae thereby being relegated to a more passive role. Because photosynthesis is a sensitive indicator of thermal stress in plants and has a central role in the nutrition of symbiotic invertebrates, we have tested the hypothesis that elevated temperature adversely affects photosynthesis in the symbiotic dinoflagellate Symbiodinium microadriaticum. The results, based on analyses of light-mediated O2evolution and in vivo fluorescence, indicate that photosynthesis is impaired at temperatures above 30⚬C and ceases completely at 34-36⚬C. These observations are discussed in the context of possible mechanisms that may function in the disassociation of algal-invertebrate symbioses in response to elevated temperature.
AbstractList	Elevated temperature (28-34⚬C) has been hypothesized as the primary cause of the loss of algal endosymbionts in coral reef-associated invertebrates, a phenomenon observed on a world-wide scale over the last decade. In past studies of this "bleaching" phenomenon, there has been an underlying assumption that temperature adversely affects the animal hosts, the algae thereby being relegated to a more passive role. Because photosynthesis is a sensitive indicator of thermal stress in plants and has a central role in the nutrition of symbiotic invertebrates, we have tested the hypothesis that elevated temperature adversely affects photosynthesis in the symbiotic dinoflagellate Symbiodinium microadriaticum. The results, based on analyses of light-mediated O2evolution and in vivo fluorescence, indicate that photosynthesis is impaired at temperatures above 30⚬C and ceases completely at 34-36⚬C. These observations are discussed in the context of possible mechanisms that may function in the disassociation of algal-invertebrate symbioses in response to elevated temperature. The hypothesis that elevated temperature adversely affects photosymthesis in the symbiotic dinoflagellate Symbiodinium microadriaticum is tested. The results indicate that photosynthesis is impaired at temperatures above 30 degress C and ceases completely at 34-36 degrees C. We have tested the hypothesis that elevated temperature adversely affects photosynthesis in the symbiotic dinoflagellate Symbiodinium microadriaticum . The results, based on analyses of light-mediated O sub(2) evolution and in vivo fluorescence, indicate that photosynthesis is impaired at temperature above 30 degree C and ceases completely at 34-36 degree C. The observations are discussed in the context of possible mechanisms that may function in the disassociation of algal-invertebrate symbioses in response to elevated temperature. Elevated temperature (28-34 degrees C) has been hypothesized as the primary cause of the loss of algal endosymbionts in coral reef-associated invertebrates, a phenomenon observed on a world-wide scale over the last decade. In past studies of this "bleaching" phenomenon, there has been an underlying assumption that temperature adversely affects the animal hosts, the algae thereby being relegated to a more passive role. Because photosynthesis is a sensitive indicator of thermal stress in plants and has a central role in the nutrition of symbiotic invertebrates, we have tested the hypothesis that elevated temperature adversely affects photosynthesis in the symbiotic dinoflagellate Symbiodinium microadriaticum. The results, based on analyses of light-mediated O2 evolution and in vivo fluorescence, indicate that photosynthesis is impaired at temperatures above 30 degrees C and ceases completely at 34-36 degrees C. These observations are discussed in the context of possible mechanisms that may function in the disassociation of algal-invertebrate symbioses in response to elevated temperature.Elevated temperature (28-34 degrees C) has been hypothesized as the primary cause of the loss of algal endosymbionts in coral reef-associated invertebrates, a phenomenon observed on a world-wide scale over the last decade. In past studies of this "bleaching" phenomenon, there has been an underlying assumption that temperature adversely affects the animal hosts, the algae thereby being relegated to a more passive role. Because photosynthesis is a sensitive indicator of thermal stress in plants and has a central role in the nutrition of symbiotic invertebrates, we have tested the hypothesis that elevated temperature adversely affects photosynthesis in the symbiotic dinoflagellate Symbiodinium microadriaticum. The results, based on analyses of light-mediated O2 evolution and in vivo fluorescence, indicate that photosynthesis is impaired at temperatures above 30 degrees C and ceases completely at 34-36 degrees C. These observations are discussed in the context of possible mechanisms that may function in the disassociation of algal-invertebrate symbioses in response to elevated temperature. Elevated temperature (28-34 degrees C) has been hypothesized as the primary cause of the loss of algal endosymbionts in coral reef-associated invertebrates, a phenomenon observed on a world-wide scale over the last decade. In past studies of this "bleaching" phenomenon, there has been an underlying assumption that temperature adversely affects the animal hosts, the algae thereby being relegated to a more passive role. Because photosynthesis is a sensitive indicator of thermal stress in plants and has a central role in the nutrition of symbiotic invertebrates, we have tested the hypothesis that elevated temperature adversely affects photosynthesis in the symbiotic dinoflagellate Symbiodinium microadriaticum. The results, based on analyses of light-mediated O2 evolution and in vivo fluorescence, indicate that photosynthesis is impaired at temperatures above 30 degrees C and ceases completely at 34-36 degrees C. These observations are discussed in the context of possible mechanisms that may function in the disassociation of algal-invertebrate symbioses in response to elevated temperature.
Author	Matta, Jaime L. Trench, Robert K. Iglesias-Prieto, Roberto Robins, Wendy A.
AuthorAffiliation	Department of Biological Sciences and the Marine Science Institute, University of California, Santa Barbara, CA 93106, USA
AuthorAffiliation_xml	– name: Department of Biological Sciences and the Marine Science Institute, University of California, Santa Barbara, CA 93106, USA
Author_xml	– sequence: 1 givenname: Roberto surname: Iglesias-Prieto fullname: Iglesias-Prieto, Roberto – sequence: 2 givenname: Jaime L. surname: Matta fullname: Matta, Jaime L. – sequence: 3 givenname: Wendy A. surname: Robins fullname: Robins, Wendy A. – sequence: 4 givenname: Robert K. surname: Trench fullname: Trench, Robert K.
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Keywords	Temperature Symbiotic relation Algae Oxygen emission Fluorescence Environmental factor Pyrrophycophyta In vitro Intracellular symbiosis Dissociation Inhibition Invertebrata Photosynthesis Thallophyta
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Snippet	Elevated temperature (28-34⚬C) has been hypothesized as the primary cause of the loss of algal endosymbionts in coral reef-associated invertebrates, a... Elevated temperature (28-34 degrees C) has been hypothesized as the primary cause of the loss of algal endosymbionts in coral reef-associated invertebrates, a... The hypothesis that elevated temperature adversely affects photosymthesis in the symbiotic dinoflagellate Symbiodinium microadriaticum is tested. The results... We have tested the hypothesis that elevated temperature adversely affects photosynthesis in the symbiotic dinoflagellate Symbiodinium microadriaticum . The...
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SubjectTerms	Algae Animal and plant ecology Animal, plant and microbial ecology Autoecology Biological and medical sciences Bleaching Cell growth Coral reefs Fluorescence Fundamental and applied biological sciences. Psychology Heat High temperature Invertebrates Photosynthesis Plants Plants and fungi Respiration Symbiodinium microadriaticum Symbiosis Temperature
Title	Photosynthetic Response to Elevated Temperature in the Symbiotic Dinoflagellate Symbiodinium microadriaticum in Culture
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