Environmental forcing by submarine canyons: Evidence between two closely situated cold-water coral mounds (Porcupine Bank Canyon and Western Porcupine Bank, NE Atlantic)

Within the Porcupine Bank Canyon (NE Atlantic), cold-water coral (CWC) mounds are mostly found clustered along the canyon lip, with individual disconnected mounds occurring nearby on the western Porcupine Bank. Remotely operated vehicle-mounted vibrocoring was utilized to acquire cores from both of...

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Published in:Marine Geology
Main Authors: O'Reilly, Luke, Fentimen, Robin, Butschek, Felix, Titschack, Jürgen, Lim, Aaron, Moore, Niamh, O'Connor, O.J., Appah, John, Harris, Kimberley, Vennemann, Torsten, Wheeler, Andrew J.
Format: Article in Journal/Newspaper
Language:unknown
Published: Zenodo 2022
Subjects:
North Atlantic
Online Access:https://doi.org/10.1016/j.margeo.2022.106930
id ftzenodo:oai:zenodo.org:7342159
record_format openpolar
spelling ftzenodo:oai:zenodo.org:7342159 2024-09-15T18:24:19+00:00 Environmental forcing by submarine canyons: Evidence between two closely situated cold-water coral mounds (Porcupine Bank Canyon and Western Porcupine Bank, NE Atlantic) O'Reilly, Luke Fentimen, Robin Butschek, Felix Titschack, Jürgen Lim, Aaron Moore, Niamh O'Connor, O.J. Appah, John Harris, Kimberley Vennemann, Torsten Wheeler, Andrew J. 2022-10-29 https://doi.org/10.1016/j.margeo.2022.106930 unknown Zenodo https://zenodo.org/communities/iatlantic-project-collection https://zenodo.org/communities/eu https://doi.org/10.1016/j.margeo.2022.106930 oai:zenodo.org:7342159 info:eu-repo/semantics/openAccess Creative Commons Attribution 4.0 International https://creativecommons.org/licenses/by/4.0/legalcode info:eu-repo/semantics/article 2022 ftzenodo https://doi.org/10.1016/j.margeo.2022.106930 2024-07-27T01:14:24Z Within the Porcupine Bank Canyon (NE Atlantic), cold-water coral (CWC) mounds are mostly found clustered along the canyon lip, with individual disconnected mounds occurring nearby on the western Porcupine Bank. Remotely operated vehicle-mounted vibrocoring was utilized to acquire cores from both of these sites. This study is the first to employ this novel method when aiming to precisely sample two closely situated areas. Radiometric ages constrain the records from the early to mid-Holocene (9.1 to 5.6 ka BP). The cores were then subjected to 3D segmented computer tomography to capture mound formation stages. The cores were then further examined using stable isotopes and benthic foraminiferal assemblages, to constrain the paleoenvironmental variation that influenced CWC mound formation of each site. In total, mound aggradation rate in the Porcupine Bank Canyon and western Porcupine Bank was comparable to other Holocene CWC mounds situated off western Ireland. Results derived from multiproxy analysis, show that regional climatic shifts define the environmental conditions that allow positive coral mound formation. In addition, the aggradation rate of coral mounds is higher adjacent to the Porcupine Bank Canyon than on the western Porcupine Bank. Benthic foraminifera assemblages and planktic foraminiferal δ 13 C reveal that higher quality organic matter is more readily available closer to the canyon lip. As such, we hypothesize that coral mound formation in the region is likely controlled by an interplay between enhanced shelf currents and the existence of the Eastern North Atlantic Water-Mediterranean Outflow Water-Transition Zone. The geomorphology of the canyon promotes upwelling of these water masses that are enriched in particles, including food and sediment supply. The higher availability of these particles support the development and succession of ecological hotspots along the canyon lip and adjacent areas of the seafloor. These observations provide a glimpse into the role that submarine canyons play in ... Article in Journal/Newspaper North Atlantic Zenodo Marine Geology 454 106930
institution Open Polar
collection Zenodo
op_collection_id ftzenodo
language unknown
description Within the Porcupine Bank Canyon (NE Atlantic), cold-water coral (CWC) mounds are mostly found clustered along the canyon lip, with individual disconnected mounds occurring nearby on the western Porcupine Bank. Remotely operated vehicle-mounted vibrocoring was utilized to acquire cores from both of these sites. This study is the first to employ this novel method when aiming to precisely sample two closely situated areas. Radiometric ages constrain the records from the early to mid-Holocene (9.1 to 5.6 ka BP). The cores were then subjected to 3D segmented computer tomography to capture mound formation stages. The cores were then further examined using stable isotopes and benthic foraminiferal assemblages, to constrain the paleoenvironmental variation that influenced CWC mound formation of each site. In total, mound aggradation rate in the Porcupine Bank Canyon and western Porcupine Bank was comparable to other Holocene CWC mounds situated off western Ireland. Results derived from multiproxy analysis, show that regional climatic shifts define the environmental conditions that allow positive coral mound formation. In addition, the aggradation rate of coral mounds is higher adjacent to the Porcupine Bank Canyon than on the western Porcupine Bank. Benthic foraminifera assemblages and planktic foraminiferal δ 13 C reveal that higher quality organic matter is more readily available closer to the canyon lip. As such, we hypothesize that coral mound formation in the region is likely controlled by an interplay between enhanced shelf currents and the existence of the Eastern North Atlantic Water-Mediterranean Outflow Water-Transition Zone. The geomorphology of the canyon promotes upwelling of these water masses that are enriched in particles, including food and sediment supply. The higher availability of these particles support the development and succession of ecological hotspots along the canyon lip and adjacent areas of the seafloor. These observations provide a glimpse into the role that submarine canyons play in ...
format Article in Journal/Newspaper
author O'Reilly, Luke
Fentimen, Robin
Butschek, Felix
Titschack, Jürgen
Lim, Aaron
Moore, Niamh
O'Connor, O.J.
Appah, John
Harris, Kimberley
Vennemann, Torsten
Wheeler, Andrew J.
spellingShingle O'Reilly, Luke
Fentimen, Robin
Butschek, Felix
Titschack, Jürgen
Lim, Aaron
Moore, Niamh
O'Connor, O.J.
Appah, John
Harris, Kimberley
Vennemann, Torsten
Wheeler, Andrew J.
Environmental forcing by submarine canyons: Evidence between two closely situated cold-water coral mounds (Porcupine Bank Canyon and Western Porcupine Bank, NE Atlantic)
author_facet O'Reilly, Luke
Fentimen, Robin
Butschek, Felix
Titschack, Jürgen
Lim, Aaron
Moore, Niamh
O'Connor, O.J.
Appah, John
Harris, Kimberley
Vennemann, Torsten
Wheeler, Andrew J.
author_sort O'Reilly, Luke
title Environmental forcing by submarine canyons: Evidence between two closely situated cold-water coral mounds (Porcupine Bank Canyon and Western Porcupine Bank, NE Atlantic)
title_short Environmental forcing by submarine canyons: Evidence between two closely situated cold-water coral mounds (Porcupine Bank Canyon and Western Porcupine Bank, NE Atlantic)
title_full Environmental forcing by submarine canyons: Evidence between two closely situated cold-water coral mounds (Porcupine Bank Canyon and Western Porcupine Bank, NE Atlantic)
title_fullStr Environmental forcing by submarine canyons: Evidence between two closely situated cold-water coral mounds (Porcupine Bank Canyon and Western Porcupine Bank, NE Atlantic)
title_full_unstemmed Environmental forcing by submarine canyons: Evidence between two closely situated cold-water coral mounds (Porcupine Bank Canyon and Western Porcupine Bank, NE Atlantic)
title_sort environmental forcing by submarine canyons: evidence between two closely situated cold-water coral mounds (porcupine bank canyon and western porcupine bank, ne atlantic)
publisher Zenodo
publishDate 2022
url https://doi.org/10.1016/j.margeo.2022.106930
genre North Atlantic
genre_facet North Atlantic
op_relation https://zenodo.org/communities/iatlantic-project-collection
https://zenodo.org/communities/eu
https://doi.org/10.1016/j.margeo.2022.106930
oai:zenodo.org:7342159
op_rights info:eu-repo/semantics/openAccess
Creative Commons Attribution 4.0 International
https://creativecommons.org/licenses/by/4.0/legalcode
op_doi https://doi.org/10.1016/j.margeo.2022.106930
container_title Marine Geology
container_volume 454
container_start_page 106930
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