Forecasted coral reef decline in marine biodiversity hotspots under climate change
PARRAVICINI, Valerianio
Centre de Synthèse et d’Analyse sur la Biodiversité [CESAB]
Centre de recherches insulaires et observatoire de l'environnement [CRIOBE]
Centre de Synthèse et d’Analyse sur la Biodiversité [CESAB]
Centre de recherches insulaires et observatoire de l'environnement [CRIOBE]
HEINE, Christian
Shell International Exploration & Production
EarthByte Group, School of Geosciences
Shell International Exploration & Production
EarthByte Group, School of Geosciences
MOUILLOT, David
Australian Research Council Centre of Excellence for Coral Reef Studies
Ecologie des systèmes marins côtiers [Ecosym]
< Reduce
Australian Research Council Centre of Excellence for Coral Reef Studies
Ecologie des systèmes marins côtiers [Ecosym]
Language
EN
Article de revue
This item was published in
Global Change Biology. 2015-03p. Epub ahead of print
English Abstract
Coral bleaching events threaten coral reef habitats globally and cause severe declines of local biodiversity and productivity.Related to high sea surface temperatures (SST), bleaching events are expected to increase as a ...Read more >
Coral bleaching events threaten coral reef habitats globally and cause severe declines of local biodiversity and productivity.Related to high sea surface temperatures (SST), bleaching events are expected to increase as a consequenceof future global warming. However, response to climate change is still uncertain as future low-latitude climatic conditionshave no present-day analogue. Sea surface temperatures during the Eocene epoch were warmer than forecastedchanges for the coming century, and distributions of corals during the Eocene may help to inform models forecastingthe future of coral reefs. We coupled contemporary and Eocene coral occurrences with information on their respectiveclimatic conditions to model the thermal niche of coral reefs and its potential response to projected climate change.We found that under the RCP8.5 climate change scenario, the global suitability for coral reefs may increase up to 16%by 2100, mostly due to improved suitability of higher latitudes. In contrast, in its current range, coral reef suitabilitymay decrease up to 46% by 2100. Reduction in thermal suitability will be most severe in biodiversity hotspots, especiallyin the Indo-Australian Archipelago. Our results suggest that many contemporary hotspots for coral reefs,including those that have been refugia in the past, spatially mismatch with future suitable areas for coral reefs posingchallenges to conservation actions under climate change.Read less <
English Keywords
fish
fossil
sea surface temperature
specialists
species distribution model
species richness