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Enigmatic deep-water mounds on the Orphan Knoll, Labrador Sea

Enigmatic deep-water mounds on the Orphan Knoll, Labrador Sea
Enigmatic deep-water mounds on the Orphan Knoll, Labrador Sea
Deep-sea mounds can have a variety of origins and may provide hard-substrate features in depths that are normally dominated by mud. Orphan Knoll, a 2 km high bedrock horst off northeast Newfoundland, hosts more than 200 mounds, or mound complexes, of unknown composition, in water depths of 1720–2500 m. Most mounds are 10–600 m high, with average mound height 187 m, and 1–3 km wide. The study objective was to characterize the size, shape, orientation, and composition of the enigmatic Orphan Knoll mounds, in order to determine their age and origin. Archival ship-based side-scan sonar, multibeam sonar, airgun, high-resolution sparker and 3.5 kHz acoustic sub-bottom profiling, and newly acquired ship-based multibeam sonar, video transects by remotely operated vehicle (ROV), rock samples, and near-bottom multibeam sonar data were analyzed. Four mounds were studied during two ROV dives. Archival sidescan sonar data show > 200 mounds. Sparker profiles show that the mound crests are covered by condensed stratified Quaternary sediment and airgun seismic data show faults reaching near the seafloor. New multibeam sonar data show mounds are dominantly conical to elliptical in shape, but without preferred orientation or alignment. Remotely operated vehicle (ROV) transects and near-bottom multibeam showed that three mounds were rounded and symmetrically arranged, while a fourth was more asymmetrical, with steep faces on the southwestern and southeastern flanks, where finely bedded to massive sedimentary bedrock outcropped dipping 15–45°SW. Rock samples from the mounds include Eocene calcareous ooze and mid-Miocene bedded pelagic limestone. Thick ferromanganese crusts were found on many surfaces, obscuring possible outcrops from physical sampling. Polymetallic nodules were found on the slope of one mound. Ice-rafted detritus, including igneous and metamorphic rocks and Paleozoic limestone and dolostone, was common in the sediments immediately surrounding the mounds. Quaternary sub-fossil solitary scleractinian corals accumulated over a span of at least 0.18 Ma at the base of one mound. The presence of uplifted condensed Eocene-Miocene rocks on the mounds and faulting in seismic profiles suggest uplift during reactivation of old rift-related faults during the Neogene, with seabed mass wasting creating residual mounds, which were then draped by Quaternary proglacial muds. Sculpting of hemipelagic Quaternary sediment by bottom currents probably contributed to mound morphology.
Northwest Atlantic, Orphan Knoll, cold-water corals, deep-sea, mound, multibeam sonar
2296-7745
1-23
Meredyk, Shawn P.
0d97694c-0946-4e36-b9c5-c54d447c163f
Edinger, Evan
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Piper, David J. W.
2acd476d-814f-43ae-a20c-74af1234acdf
Huvenne, Veerle A. I.
f22be3e2-708c-491b-b985-a438470fa053
Hoy, Shannon
5a230b2b-d0f5-4318-86b8-8b3a2a2b58b2
Ruffman, Alan
fd748bed-5f43-4055-8828-e83e6e96181b
Meredyk, Shawn P.
0d97694c-0946-4e36-b9c5-c54d447c163f
Edinger, Evan
21f214e8-93fc-4f26-9649-5ceb8b51fe39
Piper, David J. W.
2acd476d-814f-43ae-a20c-74af1234acdf
Huvenne, Veerle A. I.
f22be3e2-708c-491b-b985-a438470fa053
Hoy, Shannon
5a230b2b-d0f5-4318-86b8-8b3a2a2b58b2
Ruffman, Alan
fd748bed-5f43-4055-8828-e83e6e96181b

Meredyk, Shawn P., Edinger, Evan, Piper, David J. W., Huvenne, Veerle A. I., Hoy, Shannon and Ruffman, Alan (2020) Enigmatic deep-water mounds on the Orphan Knoll, Labrador Sea. Frontiers in Marine Science, 6, 1-23, [744]. (doi:10.3389/fmars.2019.00744).

Record type: Article

Abstract

Deep-sea mounds can have a variety of origins and may provide hard-substrate features in depths that are normally dominated by mud. Orphan Knoll, a 2 km high bedrock horst off northeast Newfoundland, hosts more than 200 mounds, or mound complexes, of unknown composition, in water depths of 1720–2500 m. Most mounds are 10–600 m high, with average mound height 187 m, and 1–3 km wide. The study objective was to characterize the size, shape, orientation, and composition of the enigmatic Orphan Knoll mounds, in order to determine their age and origin. Archival ship-based side-scan sonar, multibeam sonar, airgun, high-resolution sparker and 3.5 kHz acoustic sub-bottom profiling, and newly acquired ship-based multibeam sonar, video transects by remotely operated vehicle (ROV), rock samples, and near-bottom multibeam sonar data were analyzed. Four mounds were studied during two ROV dives. Archival sidescan sonar data show > 200 mounds. Sparker profiles show that the mound crests are covered by condensed stratified Quaternary sediment and airgun seismic data show faults reaching near the seafloor. New multibeam sonar data show mounds are dominantly conical to elliptical in shape, but without preferred orientation or alignment. Remotely operated vehicle (ROV) transects and near-bottom multibeam showed that three mounds were rounded and symmetrically arranged, while a fourth was more asymmetrical, with steep faces on the southwestern and southeastern flanks, where finely bedded to massive sedimentary bedrock outcropped dipping 15–45°SW. Rock samples from the mounds include Eocene calcareous ooze and mid-Miocene bedded pelagic limestone. Thick ferromanganese crusts were found on many surfaces, obscuring possible outcrops from physical sampling. Polymetallic nodules were found on the slope of one mound. Ice-rafted detritus, including igneous and metamorphic rocks and Paleozoic limestone and dolostone, was common in the sediments immediately surrounding the mounds. Quaternary sub-fossil solitary scleractinian corals accumulated over a span of at least 0.18 Ma at the base of one mound. The presence of uplifted condensed Eocene-Miocene rocks on the mounds and faulting in seismic profiles suggest uplift during reactivation of old rift-related faults during the Neogene, with seabed mass wasting creating residual mounds, which were then draped by Quaternary proglacial muds. Sculpting of hemipelagic Quaternary sediment by bottom currents probably contributed to mound morphology.

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Accepted/In Press date: 14 November 2019
Published date: 30 January 2020
Keywords: Northwest Atlantic, Orphan Knoll, cold-water corals, deep-sea, mound, multibeam sonar

Identifiers

Local EPrints ID: 437799
URI: http://eprints.soton.ac.uk/id/eprint/437799
DOI: doi:10.3389/fmars.2019.00744
ISSN: 2296-7745
PURE UUID: 862f0dad-0cbe-4b39-82c5-eabae8050016
ORCID for Veerle A. I. Huvenne: ORCID iD orcid.org/0000-0001-7135-6360

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Date deposited: 17 Feb 2020 17:32
Last modified: 17 Mar 2024 02:59

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Contributors

Author: Shawn P. Meredyk
Author: Evan Edinger
Author: David J. W. Piper
Author: Veerle A. I. Huvenne ORCID iD
Author: Shannon Hoy
Author: Alan Ruffman

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