Abstract / Description of output
The ability of coral reefs to engineer complex three-dimensional habitats is central to their success and the rich biodiversity they support. In tropical reefs, encrusting coralline algae bind together substrates and dead coral framework to make continuous reef structures, but beyond the photic zone, the cold-water coral Lophelia pertusa also forms large biogenic reefs, facilitated by skeletal fusion. Skeletal fusion in tropical corals can occur in closely related or juvenile individuals as a result of non-aggressive skeletal overgrowth or allogeneic tissue fusion, but contact reactions in many species result in mortality if there is no `self-recognition' on a broad species level. This study reveals areas of `flawless' skeletal fusion in Lophelia pertusa, potentially facilitated by allogeneic tissue fusion, are identified as having small aragonitic crystals or low levels of crystal organisation, and strong molecular bonding. Regardless of the mechanism, the recognition of `self' between adjacent L. pertusa colonies leads to no observable mortality, facilitates ecosystem engineering and reduces aggression-related energetic expenditure in an environment where energy conservation is crucial. The potential for self-recognition at a species level, and subsequent skeletal fusion in framework-forming cold-water corals is an important first step in understanding their significance as ecological engineers in deep-seas worldwide.
Original language | English |
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Article number | 6782 |
Number of pages | 7 |
Journal | Scientific Reports |
Volume | 4 |
DOIs | |
Publication status | Published - 27 Oct 2014 |
Keywords / Materials (for Non-textual outputs)
- MICROSATELLITE LOCI
- ALLOGENEIC FUSION
- CONTACT REACTIONS
- ALLORECOGNITION
- RELATEDNESS
- GROWTH
- OCEAN
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Skeletal fusion in the cold-water coral Lophelia pertusa.
Hennige, S. (Creator), British Oceanographic Data Centre, 2014
DOI: 10.5285/fd3287f9-f325-7f48-e043-6c86abc09b63
Dataset