Identification and Distribution of a Bone-eating Marine Worm (Annelida, Osedax)

Ephemeral reducing environments such as hydrothermal vents and whale falls create oases of chemosynthetic primary production in the nutrient poor deep sea. The polychaete family Siboglinidae has adapted to occupy these niches of chemical nutrition. This likely requires high levels of dispersal, eith...

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Bibliographic Details
Main Author: Waits, Damien S.
Format: Other/Unknown Material
Language:English
Published: Friday Harbor Laboratories 2014
Subjects:
Osedax
phylogenetic
whale fall
deep sea
Antarc*
Antarctica
Online Access:http://hdl.handle.net/1773/34636
id ftunivwashington:oai:digital.lib.washington.edu:1773/34636
record_format openpolar
spelling ftunivwashington:oai:digital.lib.washington.edu:1773/34636 2023-05-15T13:57:26+02:00 Identification and Distribution of a Bone-eating Marine Worm (Annelida, Osedax) Waits, Damien S. 2014-08 http://hdl.handle.net/1773/34636 en_US eng Friday Harbor Laboratories Deep Sea Biodiversity, Connectivity & Ecosystem Function;Summer 2014 http://hdl.handle.net/1773/34636 Osedax phylogenetic whale fall deep sea Other 2014 ftunivwashington 2023-03-12T18:55:20Z Ephemeral reducing environments such as hydrothermal vents and whale falls create oases of chemosynthetic primary production in the nutrient poor deep sea. The polychaete family Siboglinidae has adapted to occupy these niches of chemical nutrition. This likely requires high levels of dispersal, either through long-living larvae or a “stepping-stone” dispersal method. Here we seek to identify recently found specimens of Osedax from whalebones off the coast of Oregon and Antarctica. Once species identity was determined, we sought to elucidate connectivity between known populations of Osedax from Monterey Bay and Sagami Bay. To accomplish this, we sequenced the mitochondrial marker COI and inferred relationships through a haplotype network and maximum likelihood tree. Other/Unknown Material Antarc* Antarctica University of Washington, Seattle: ResearchWorks
institution Open Polar
collection University of Washington, Seattle: ResearchWorks
op_collection_id ftunivwashington
language English
topic Osedax
phylogenetic
whale fall
deep sea
spellingShingle Osedax
phylogenetic
whale fall
deep sea
Waits, Damien S.
Identification and Distribution of a Bone-eating Marine Worm (Annelida, Osedax)
topic_facet Osedax
phylogenetic
whale fall
deep sea
description Ephemeral reducing environments such as hydrothermal vents and whale falls create oases of chemosynthetic primary production in the nutrient poor deep sea. The polychaete family Siboglinidae has adapted to occupy these niches of chemical nutrition. This likely requires high levels of dispersal, either through long-living larvae or a “stepping-stone” dispersal method. Here we seek to identify recently found specimens of Osedax from whalebones off the coast of Oregon and Antarctica. Once species identity was determined, we sought to elucidate connectivity between known populations of Osedax from Monterey Bay and Sagami Bay. To accomplish this, we sequenced the mitochondrial marker COI and inferred relationships through a haplotype network and maximum likelihood tree.
format Other/Unknown Material
author Waits, Damien S.
author_facet Waits, Damien S.
author_sort Waits, Damien S.
title Identification and Distribution of a Bone-eating Marine Worm (Annelida, Osedax)
title_short Identification and Distribution of a Bone-eating Marine Worm (Annelida, Osedax)
title_full Identification and Distribution of a Bone-eating Marine Worm (Annelida, Osedax)
title_fullStr Identification and Distribution of a Bone-eating Marine Worm (Annelida, Osedax)
title_full_unstemmed Identification and Distribution of a Bone-eating Marine Worm (Annelida, Osedax)
title_sort identification and distribution of a bone-eating marine worm (annelida, osedax)
publisher Friday Harbor Laboratories
publishDate 2014
url http://hdl.handle.net/1773/34636
genre Antarc*
Antarctica
genre_facet Antarc*
Antarctica
op_relation Deep Sea Biodiversity, Connectivity & Ecosystem Function;Summer 2014
http://hdl.handle.net/1773/34636
_version_ 1766265107949551616

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