Coral reef monitoring in the Iles Eparses, Mozambique Channel (2011–2013)

Monitoring of coral reefs has become a major tool for understanding how they are changing, and for managing them in a context of increasing degradation of coastal ecosystems. The Global Coral Reef Monitoring Network (GCRMN) has near-global coverage, but there are few remote sites free of direct huma...

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Veröffentlicht in:	Acta oecologica (Montrouge) 2016-04, Vol.72, p.62-71
Hauptverfasser:	Chabanet, P., Bigot, L., Nicet, J.-B., Durville, P., Massé, L., Mulochau, T., Russo, C., Tessier, E., Obura, D.
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Sprache:	eng
Schlagworte:	algae anthropogenic activities benthic organisms biomass bleaching center of diversity climate change community structure Coral reefs corals ecosystems Fish biomass fish communities fish health GCRMN islands Life Sciences Marine monitoring Mozambique Channel predators Remote areas sharks surveys temperature Western Indian Ocean
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creator	Chabanet, P. Bigot, L. Nicet, J.-B. Durville, P. Massé, L. Mulochau, T. Russo, C. Tessier, E. Obura, D.
description	Monitoring of coral reefs has become a major tool for understanding how they are changing, and for managing them in a context of increasing degradation of coastal ecosystems. The Global Coral Reef Monitoring Network (GCRMN) has near-global coverage, but there are few remote sites free of direct human impact that can serve as reference sites. This study provides baseline data for the French Iles Eparses in the Mozambique Channel, Western Indian Ocean (WIO), whose coral reefs are little known owing to their limited accessibility, and have been free from fishing pressure for over 20 years. Surveys of coral reef health and fish community structure were undertaken at four of the islands (Europa, Bassas da India, Juan de Nova and Glorieuses) in 2011–2013. Monitoring was conducted using standardized GCRMN methods for benthos and fish communities, at the highest taxonomic level. Benthic cover showed a latitudinal gradient, with higher coral cover and conversely lower algae cover (60% and 14% respectively) in the south of the Mozambique Channel. This could be due to the geomorphology of the islands, the latitudinal temperature gradient, and/or the history of chronic stress and bleaching events during the last decades. Fish also showed a latitudinal gradient with higher diversity in the north, in a center of diversity for the western Indian Ocean already recognized for corals. An exceptional biomass fish was recorded (approximately 3500 kg/ha excluding sharks, compared to a maximum of 1400 kg/ha elsewhere in the WIO). The presence of large predators and sharks in all the islands as well as the absence of fleshy benthic algae were indicators of the good health of the reef systems. Nevertheless, these islands are beginning to experience illegal fishing, particularly in the north of the Mozambique Channel, demonstrating their vulnerability to exploitation and the need to protect them as reference sites for coral reef studies, including of climate change impacts, for the region and globally. •Baseline study for the French Iles Eparses in the Mozambique Channel (SW Indian Ocean).•Benthic and fish community surveys with GCRMN methods at the highest taxonomic level.•Latitudinal gradient for coral and fish communities along the Mozambique Channel.•Exceptional fish biomass was recorded which represent reference values for pristine coral reefs.•Good health of the reef systems presence of large predators and sharks, and absence of fleshy algae.
doi_str_mv	10.1016/j.actao.2015.10.010
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The Global Coral Reef Monitoring Network (GCRMN) has near-global coverage, but there are few remote sites free of direct human impact that can serve as reference sites. This study provides baseline data for the French Iles Eparses in the Mozambique Channel, Western Indian Ocean (WIO), whose coral reefs are little known owing to their limited accessibility, and have been free from fishing pressure for over 20 years. Surveys of coral reef health and fish community structure were undertaken at four of the islands (Europa, Bassas da India, Juan de Nova and Glorieuses) in 2011–2013. Monitoring was conducted using standardized GCRMN methods for benthos and fish communities, at the highest taxonomic level. Benthic cover showed a latitudinal gradient, with higher coral cover and conversely lower algae cover (60% and 14% respectively) in the south of the Mozambique Channel. This could be due to the geomorphology of the islands, the latitudinal temperature gradient, and/or the history of chronic stress and bleaching events during the last decades. Fish also showed a latitudinal gradient with higher diversity in the north, in a center of diversity for the western Indian Ocean already recognized for corals. An exceptional biomass fish was recorded (approximately 3500 kg/ha excluding sharks, compared to a maximum of 1400 kg/ha elsewhere in the WIO). The presence of large predators and sharks in all the islands as well as the absence of fleshy benthic algae were indicators of the good health of the reef systems. 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The Global Coral Reef Monitoring Network (GCRMN) has near-global coverage, but there are few remote sites free of direct human impact that can serve as reference sites. This study provides baseline data for the French Iles Eparses in the Mozambique Channel, Western Indian Ocean (WIO), whose coral reefs are little known owing to their limited accessibility, and have been free from fishing pressure for over 20 years. Surveys of coral reef health and fish community structure were undertaken at four of the islands (Europa, Bassas da India, Juan de Nova and Glorieuses) in 2011–2013. Monitoring was conducted using standardized GCRMN methods for benthos and fish communities, at the highest taxonomic level. Benthic cover showed a latitudinal gradient, with higher coral cover and conversely lower algae cover (60% and 14% respectively) in the south of the Mozambique Channel. This could be due to the geomorphology of the islands, the latitudinal temperature gradient, and/or the history of chronic stress and bleaching events during the last decades. Fish also showed a latitudinal gradient with higher diversity in the north, in a center of diversity for the western Indian Ocean already recognized for corals. An exceptional biomass fish was recorded (approximately 3500 kg/ha excluding sharks, compared to a maximum of 1400 kg/ha elsewhere in the WIO). The presence of large predators and sharks in all the islands as well as the absence of fleshy benthic algae were indicators of the good health of the reef systems. Nevertheless, these islands are beginning to experience illegal fishing, particularly in the north of the Mozambique Channel, demonstrating their vulnerability to exploitation and the need to protect them as reference sites for coral reef studies, including of climate change impacts, for the region and globally. •Baseline study for the French Iles Eparses in the Mozambique Channel (SW Indian Ocean).•Benthic and fish community surveys with GCRMN methods at the highest taxonomic level.•Latitudinal gradient for coral and fish communities along the Mozambique Channel.•Exceptional fish biomass was recorded which represent reference values for pristine coral reefs.•Good health of the reef systems <=> presence of large predators and sharks, and absence of fleshy algae.</abstract><pub>Elsevier Masson SAS</pub><doi>10.1016/j.actao.2015.10.010</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0003-2256-6649</orcidid><orcidid>https://orcid.org/0000-0001-7600-943X</orcidid></addata></record>
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subjects	algae anthropogenic activities benthic organisms biomass bleaching center of diversity climate change community structure Coral reefs corals ecosystems Fish biomass fish communities fish health GCRMN islands Life Sciences Marine monitoring Mozambique Channel predators Remote areas sharks surveys temperature Western Indian Ocean
title	Coral reef monitoring in the Iles Eparses, Mozambique Channel (2011–2013)
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