Add to ORKGStudies on the trophic ecology of scleractinian corals often include stable isotope analyses of tissue and symbiont carbon and nitrogen. These approaches have provided critical insights into the trophic sources and sinks that are essential to understanding larger-scale carbon and nitrogen budgets on coral reefs. While stable isotopes have identified most shallow water (\u3c30 m) corals as mixotrophic, with variable dependencies on autotrophic versus heterotrophic resources, corals in the mesophotic zone (~30–150 m) transition to heterotrophy with increasing depth because of decreased photosynthetic productivity. Recently, these interpretations of the stable isotope data to distinguish between autotrophy and heterotrophy have been criticized...
Understanding the natural processes that drive resource distribution and the associated response of ...
1. Reef-building corals are mixotrophic organisms that can obtain nutrition from endosymbiotic micro...
Reef building corals face an uncertain future due to the accelerating input of anthropogenic CO2 int...
Most scleractinian corals can derive nutrition either autotrophically or heterotrophically, which al...
peer reviewedRationale: The stable isotope analysis of carbon and nitrogen is a powerful tool in man...
International audienceWe used tissue delta N-15 and delta C-13 to elucidate nitrogen and carbon util...
WOS:000354114900017Reef-building corals form symbioses with dinoflagellates from the diverse genus S...
Most scleractinian corals can derive nutrition either autotrophically or heterotrophically, which al...
The physiology of mesophotic Scleractinia varies with depth in response to environmental change. Pre...
This study examines the relationship between the δ13C of the skeleton of a zooxanthellate coral (Mon...
Coral sclerochronology is a powerful tool for understanding environmental and ecological changes on ...
The pattern of resource partitioning versus depth for corals collected in February, 1983, from Jama...
Most studies on coral reefs have focused on shallow reef (<30 m) systems due to the technical limita...
We tested the hypothesis that the nitrogen (N) isotopic signature (δ15N) of coral skeletal organic m...
Photosymbiosis is a mutually beneficial relationship that many scleractinian corals have developed w...
Understanding the natural processes that drive resource distribution and the associated response of ...
1. Reef-building corals are mixotrophic organisms that can obtain nutrition from endosymbiotic micro...
Reef building corals face an uncertain future due to the accelerating input of anthropogenic CO2 int...
Most scleractinian corals can derive nutrition either autotrophically or heterotrophically, which al...
peer reviewedRationale: The stable isotope analysis of carbon and nitrogen is a powerful tool in man...
International audienceWe used tissue delta N-15 and delta C-13 to elucidate nitrogen and carbon util...
WOS:000354114900017Reef-building corals form symbioses with dinoflagellates from the diverse genus S...
Most scleractinian corals can derive nutrition either autotrophically or heterotrophically, which al...
The physiology of mesophotic Scleractinia varies with depth in response to environmental change. Pre...
This study examines the relationship between the δ13C of the skeleton of a zooxanthellate coral (Mon...
Coral sclerochronology is a powerful tool for understanding environmental and ecological changes on ...
The pattern of resource partitioning versus depth for corals collected in February, 1983, from Jama...
Most studies on coral reefs have focused on shallow reef (<30 m) systems due to the technical limita...
We tested the hypothesis that the nitrogen (N) isotopic signature (δ15N) of coral skeletal organic m...
Photosymbiosis is a mutually beneficial relationship that many scleractinian corals have developed w...
Understanding the natural processes that drive resource distribution and the associated response of ...
1. Reef-building corals are mixotrophic organisms that can obtain nutrition from endosymbiotic micro...
Reef building corals face an uncertain future due to the accelerating input of anthropogenic CO2 int...