BACKGROUND: Climate change causes the breakdown of the symbiotic relationships between reef-building corals and their photosynthetic symbionts (genus Symbiodinium), with thermal anomalies in 2015-2016 triggering the most widespread mass coral bleaching on record and unprecedented mortality on the Great Barrier Reef. Targeted studies using specific coral stress indicators have highlighted the complexity of the physiological processes occurring during thermal stress, but have been unable to provide a clear mechanistic understanding of coral bleaching.RESULTS: Here, we present an extensive multi-trait-based study in which we compare the thermal stress responses of two phylogenetically distinct and widely distributed coral species, Acropora mil...
High sea surface temperatures often lead to coral bleaching wherein reef-building corals lose signif...
Thermal stress causes the coral-dinoflagellate symbiosis to disassociate and the coral tissues to wh...
The ability of corals to cope with environmental change, such as increased temperature, relies on th...
Background: Climate change causes the breakdown of the symbiotic relationships between reef-building...
The functioning of coral reef systems, as biodiversity hotspots, is largely dependent on the symbiot...
Mass coral bleaching due to thermal stress represents a major threat to the integrity and functionin...
Sensitive molecular analyses show that most corals host a complement of Symbiodinium genotypes that ...
High sea surface temperatures caused global coral bleaching during 2015–2016. During this thermal st...
Coral species, one susceptible (Stylophora pistillata) and the other resistant (Platygyra ryukyuensi...
Coral bleaching poses a threat to coral reefs worldwide. As a consequence of the temperature-induced...
Coral reefs are under major threat from ocean warming. When temperatures become too high corals blea...
Coral bleaching, the loss of symbiotic dinoflagellate algae (genus Symbiodinium) and/or photosynthet...
Background: Coral bleaching events vary in severity, however, to date, the hierarchy of susceptibi...
The mutualistic relationship between corals and their unicellular dinoflagellate symbionts (Symbiodi...
Warmer than average summer sea surface temperature is one of the main drivers for coraltemperature i...
High sea surface temperatures often lead to coral bleaching wherein reef-building corals lose signif...
Thermal stress causes the coral-dinoflagellate symbiosis to disassociate and the coral tissues to wh...
The ability of corals to cope with environmental change, such as increased temperature, relies on th...
Background: Climate change causes the breakdown of the symbiotic relationships between reef-building...
The functioning of coral reef systems, as biodiversity hotspots, is largely dependent on the symbiot...
Mass coral bleaching due to thermal stress represents a major threat to the integrity and functionin...
Sensitive molecular analyses show that most corals host a complement of Symbiodinium genotypes that ...
High sea surface temperatures caused global coral bleaching during 2015–2016. During this thermal st...
Coral species, one susceptible (Stylophora pistillata) and the other resistant (Platygyra ryukyuensi...
Coral bleaching poses a threat to coral reefs worldwide. As a consequence of the temperature-induced...
Coral reefs are under major threat from ocean warming. When temperatures become too high corals blea...
Coral bleaching, the loss of symbiotic dinoflagellate algae (genus Symbiodinium) and/or photosynthet...
Background: Coral bleaching events vary in severity, however, to date, the hierarchy of susceptibi...
The mutualistic relationship between corals and their unicellular dinoflagellate symbionts (Symbiodi...
Warmer than average summer sea surface temperature is one of the main drivers for coraltemperature i...
High sea surface temperatures often lead to coral bleaching wherein reef-building corals lose signif...
Thermal stress causes the coral-dinoflagellate symbiosis to disassociate and the coral tissues to wh...
The ability of corals to cope with environmental change, such as increased temperature, relies on th...