Bone-eating worms and wood-eating bivalves: characterising the ecology of deep-sea organic falls from multiple ocean basins
Large organic inputs to the deep seafloor such as the remains of whales or pieces of wood are termed ‘organic falls’. Despite over 30 years of research on these interesting deep-sea habitats, we still have only a basic understanding of their taxonomic composition and for some ocean basins, no natura...
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ftsouthampton:oai:eprints.soton.ac.uk:361854 2023-07-30T03:59:15+02:00 Bone-eating worms and wood-eating bivalves: characterising the ecology of deep-sea organic falls from multiple ocean basins Amon, Diva Joan 2014-01-27 text https://eprints.soton.ac.uk/361854/ https://eprints.soton.ac.uk/361854/1/Amon%252C%2520Diva_PhD.pdf en English eng https://eprints.soton.ac.uk/361854/1/Amon%252C%2520Diva_PhD.pdf Amon, Diva Joan (2014) Bone-eating worms and wood-eating bivalves: characterising the ecology of deep-sea organic falls from multiple ocean basins. University of Southampton, Ocean and Earth Sciences, Doctoral Thesis, 186pp. Thesis NonPeerReviewed 2014 ftsouthampton 2023-07-09T21:51:20Z Large organic inputs to the deep seafloor such as the remains of whales or pieces of wood are termed ‘organic falls’. Despite over 30 years of research on these interesting deep-sea habitats, we still have only a basic understanding of their taxonomic composition and for some ocean basins, no natural or experimental studies have ever been conducted. The degree of connectivity between these isolated habitats, as well as how quickly organic matter is remineralised by specialist organic-fall fauna (e.g bone-eating Osedax worms and wood-eating Xylophaga molluscs) is poorly known. In this thesis, I report the discovery of the first Antarctic whale fall and the diverse assemblage of fauna encrusting it (Chapter 2). The microdistribution of fauna on the whale bones provided evidence for the ‘oil-gradient’ hypothesis that more lipid-rich bones support a greater abundance of sulfophilic bacterial mats, which are also correlated with the abundance of grazing fauna. The abundance of Osedax species on bones however, showed a negative correlation with the bacterial-mat cover, and hence the greatest abundance was on bones predicted to have the lowest lipid content. The Osedax species discovered were investigated in detail (Chapter 3) and revealed two new species and a third previously-known species; Osedax rogersi sp. nov., Osedax crouchi sp. nov. (described in this thesis and associated paper) and Osedax antarcticus. The new species, O. crouchi as well as another new species, Osedax nordenskioeldi sp. nov. (also described in this thesis and associated paper) and Osedax antarcticus were also found on implanted whale bones off Smith Island in the Bransfield Strait. These two localities are approximately 1800 km apart demonstrating the remarkable dispersal capability of species within this genus. As well as the Antarctic study, I report on wood and bone-colonisation experiments on the Southwest Indian Ridge at two seamounts. A large number of species were found colonising the deployments; 53 species at Coral Seamount and 38 ... Thesis Antarc* Antarctic antarcticus Bransfield Strait Smith Island University of Southampton: e-Prints Soton Antarctic Bransfield Strait Indian Smith Island ENVELOPE(-62.520,-62.520,-62.981,-62.981) The Antarctic |
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Open Polar |
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University of Southampton: e-Prints Soton |
| op_collection_id |
ftsouthampton |
| language |
English |
| description |
Large organic inputs to the deep seafloor such as the remains of whales or pieces of wood are termed ‘organic falls’. Despite over 30 years of research on these interesting deep-sea habitats, we still have only a basic understanding of their taxonomic composition and for some ocean basins, no natural or experimental studies have ever been conducted. The degree of connectivity between these isolated habitats, as well as how quickly organic matter is remineralised by specialist organic-fall fauna (e.g bone-eating Osedax worms and wood-eating Xylophaga molluscs) is poorly known. In this thesis, I report the discovery of the first Antarctic whale fall and the diverse assemblage of fauna encrusting it (Chapter 2). The microdistribution of fauna on the whale bones provided evidence for the ‘oil-gradient’ hypothesis that more lipid-rich bones support a greater abundance of sulfophilic bacterial mats, which are also correlated with the abundance of grazing fauna. The abundance of Osedax species on bones however, showed a negative correlation with the bacterial-mat cover, and hence the greatest abundance was on bones predicted to have the lowest lipid content. The Osedax species discovered were investigated in detail (Chapter 3) and revealed two new species and a third previously-known species; Osedax rogersi sp. nov., Osedax crouchi sp. nov. (described in this thesis and associated paper) and Osedax antarcticus. The new species, O. crouchi as well as another new species, Osedax nordenskioeldi sp. nov. (also described in this thesis and associated paper) and Osedax antarcticus were also found on implanted whale bones off Smith Island in the Bransfield Strait. These two localities are approximately 1800 km apart demonstrating the remarkable dispersal capability of species within this genus. As well as the Antarctic study, I report on wood and bone-colonisation experiments on the Southwest Indian Ridge at two seamounts. A large number of species were found colonising the deployments; 53 species at Coral Seamount and 38 ... |
| format |
Thesis |
| author |
Amon, Diva Joan |
| spellingShingle |
Amon, Diva Joan Bone-eating worms and wood-eating bivalves: characterising the ecology of deep-sea organic falls from multiple ocean basins |
| author_facet |
Amon, Diva Joan |
| author_sort |
Amon, Diva Joan |
| title |
Bone-eating worms and wood-eating bivalves: characterising the ecology of deep-sea organic falls from multiple ocean basins |
| title_short |
Bone-eating worms and wood-eating bivalves: characterising the ecology of deep-sea organic falls from multiple ocean basins |
| title_full |
Bone-eating worms and wood-eating bivalves: characterising the ecology of deep-sea organic falls from multiple ocean basins |
| title_fullStr |
Bone-eating worms and wood-eating bivalves: characterising the ecology of deep-sea organic falls from multiple ocean basins |
| title_full_unstemmed |
Bone-eating worms and wood-eating bivalves: characterising the ecology of deep-sea organic falls from multiple ocean basins |
| title_sort |
bone-eating worms and wood-eating bivalves: characterising the ecology of deep-sea organic falls from multiple ocean basins |
| publishDate |
2014 |
| url |
https://eprints.soton.ac.uk/361854/ https://eprints.soton.ac.uk/361854/1/Amon%252C%2520Diva_PhD.pdf |
| long_lat |
ENVELOPE(-62.520,-62.520,-62.981,-62.981) |
| geographic |
Antarctic Bransfield Strait Indian Smith Island The Antarctic |
| geographic_facet |
Antarctic Bransfield Strait Indian Smith Island The Antarctic |
| genre |
Antarc* Antarctic antarcticus Bransfield Strait Smith Island |
| genre_facet |
Antarc* Antarctic antarcticus Bransfield Strait Smith Island |
| op_relation |
https://eprints.soton.ac.uk/361854/1/Amon%252C%2520Diva_PhD.pdf Amon, Diva Joan (2014) Bone-eating worms and wood-eating bivalves: characterising the ecology of deep-sea organic falls from multiple ocean basins. University of Southampton, Ocean and Earth Sciences, Doctoral Thesis, 186pp. |
| _version_ |
1772809992499363840 |