Add to ORKGABSTRACT: Deep-water. ahermatypie coral mounds are present at water depths of 1,000-1,300 mon the lower slope north of Little Bahama Bank. The mounds are patchily distributed over a minimum area of 2,500 kin: and typically display 5-40 m of relief above the surrounding sea bottom. A diverse benthic ommunity exists on these apparently unlithified mounds, including 11 genera nd 16 species of ahermatypic coral (Bathypsammia, Cary
Thanatofacies and the skeletonized components of the living facies, from which they originate have b...
Currents play a vital role in sustaining and developing deep water benthic habitats by mobilising fo...
Mesophotic coral ecosystems in the Indo-Pacific remain relatively unexplored, particularly at lower ...
Scleractinian cold-water corals are widely distributed in seaways and basins of the North Atlantic O...
Mounds associated with the cold water coral Lophelia pertusa are widespread in the North Atlantic, a...
Cold-water coral carbonate mounds, created by framework-building scleractinian corals, are also impo...
Cold-water coral mound morphology and development are thought to be controlled primarily by current ...
We report the finding of monospecific scleractinian (i.e. Lophelia pertusa) reefs from the Uruguayan...
These datasets were used to describe the diversity, ecology and role of non-scleractinian corals on ...
Ahermatypic Seleractinia are very common throughout the tropical western Atlantic, both in number of...
This study characterizes the microbial community composition over Haas Mound, one of the most promin...
Eight deep-water coral sites were surveyed in November 2005 during 11 dives with the Johnson-Sea-Lin...
Carbonate mounds found in a broad band from about 325 to 700 m along the western margin of Little Ba...
Corals have long been associated with warm and shallow water in tropical settings. Nevertheless an i...
The extent of the cold-water coral mounds in the modern ocean basins has been recently revealed by n...
Thanatofacies and the skeletonized components of the living facies, from which they originate have b...
Currents play a vital role in sustaining and developing deep water benthic habitats by mobilising fo...
Mesophotic coral ecosystems in the Indo-Pacific remain relatively unexplored, particularly at lower ...
Scleractinian cold-water corals are widely distributed in seaways and basins of the North Atlantic O...
Mounds associated with the cold water coral Lophelia pertusa are widespread in the North Atlantic, a...
Cold-water coral carbonate mounds, created by framework-building scleractinian corals, are also impo...
Cold-water coral mound morphology and development are thought to be controlled primarily by current ...
We report the finding of monospecific scleractinian (i.e. Lophelia pertusa) reefs from the Uruguayan...
These datasets were used to describe the diversity, ecology and role of non-scleractinian corals on ...
Ahermatypic Seleractinia are very common throughout the tropical western Atlantic, both in number of...
This study characterizes the microbial community composition over Haas Mound, one of the most promin...
Eight deep-water coral sites were surveyed in November 2005 during 11 dives with the Johnson-Sea-Lin...
Carbonate mounds found in a broad band from about 325 to 700 m along the western margin of Little Ba...
Corals have long been associated with warm and shallow water in tropical settings. Nevertheless an i...
The extent of the cold-water coral mounds in the modern ocean basins has been recently revealed by n...
Thanatofacies and the skeletonized components of the living facies, from which they originate have b...
Currents play a vital role in sustaining and developing deep water benthic habitats by mobilising fo...
Mesophotic coral ecosystems in the Indo-Pacific remain relatively unexplored, particularly at lower ...