Sohm Abyssal Plain: Evaluating Proximal Sediment Provenance
The southernmost part of the Sohm Abyssal Plain in the Northwest Atlantic Basin is geographically distal with respect to the major source of Quaternary terrigenous material transported from the Canadian Maritime Provinces. An assessment of the proportion of more locally introduced sediment relative...
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Smithsonian Institution Scholarly Press
1981
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| Online Access: | http://hdl.handle.net/10088/22482 |
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ftsmithonian:oai:repository.si.edu:10088/22482 |
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ftsmithonian:oai:repository.si.edu:10088/22482 2023-05-15T17:45:47+02:00 Sohm Abyssal Plain: Evaluating Proximal Sediment Provenance Stanely, Daniel Jean Taylor, Patrick T. Sheng, Harrison Stuckenrath, Robert 1981 application/pdf http://hdl.handle.net/10088/22482 unknown Smithsonian Institution Scholarly Press Smithsonian Contributions to the Marine Sciences; no. 11, 1-48 0196-0768 http://hdl.handle.net/10088/22482 1981 ftsmithonian 2020-09-09T18:33:57Z The southernmost part of the Sohm Abyssal Plain in the Northwest Atlantic Basin is geographically distal with respect to the major source of Quaternary terrigenous material transported from the Canadian Maritime Provinces. An assessment of the proportion of more locally introduced sediment relative to that derived from distal sources is based largely on size and compositional analyses of Quaternary piston core samples. These data are supplemented by radiocarbon dating of selected core samples, bottom photographs, conductivity-temperature-depth profiles, and seismic records.The premises of the study are that (a) locally derived sediment should be most abundant near high-relief bathymetric features such as seamounts and abyssal hills, and (b) such material should contain enhanced proportions of reworked volcanic debris and alteration products. Core analyses reveal that the amounts of these are directly related to proximity of volcanic ocean-bottom features, and that a significant, although not total, amount of such volcanic materials recovered from cores are derived from submarine weathering of basalt. Associated with this assemblage are nannofossils, dating from the Quaternary to the Upper Cretaceous, reworked from older strata. This increased proportion of volcanic and related products and reworked faunas near seamounts and basement rises strongly implies that such topographic features continue to serve as major source terrains. Locally derived volcanic materials, however, are usually disseminated and masked on the Sohm Abyssal Plain, particularly in sectors receiving large amounts of terrigenous turbidites and biogenic suspensates, and/or undergoing reworking by bottom currents.We propose that the volcanic fraction can serve as a useful index, or “yardstick,” to interpret the role of locally derived material in abyssal plain sedimentation. A sedimentation model is developed to illustrate the premise that as access to land-derived sources diminishes, the proportion of terrigenous components is reduced while pelagic and volcanic fractions are enhanced. Thus, sediment accumulating in abyssal plains almost totally isolated from terrigenous sources would comprise significant amounts of pelagic (including wind-blown) and volcanic components. Our model illustrates that even in an abyssal plain, such as the Sohm, which has had an important and direct access to abundant distally derived terrigenous sources, particularly during the Pliocene and Quaternary, the locally supplied reworked volcanic products account for a significant fraction of the total abyssal plain sediment fill. Other/Unknown Material Northwest Atlantic Unknown Sohm ENVELOPE(-64.800,-64.800,-66.067,-66.067) |
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Open Polar |
| collection |
Unknown |
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ftsmithonian |
| language |
unknown |
| description |
The southernmost part of the Sohm Abyssal Plain in the Northwest Atlantic Basin is geographically distal with respect to the major source of Quaternary terrigenous material transported from the Canadian Maritime Provinces. An assessment of the proportion of more locally introduced sediment relative to that derived from distal sources is based largely on size and compositional analyses of Quaternary piston core samples. These data are supplemented by radiocarbon dating of selected core samples, bottom photographs, conductivity-temperature-depth profiles, and seismic records.The premises of the study are that (a) locally derived sediment should be most abundant near high-relief bathymetric features such as seamounts and abyssal hills, and (b) such material should contain enhanced proportions of reworked volcanic debris and alteration products. Core analyses reveal that the amounts of these are directly related to proximity of volcanic ocean-bottom features, and that a significant, although not total, amount of such volcanic materials recovered from cores are derived from submarine weathering of basalt. Associated with this assemblage are nannofossils, dating from the Quaternary to the Upper Cretaceous, reworked from older strata. This increased proportion of volcanic and related products and reworked faunas near seamounts and basement rises strongly implies that such topographic features continue to serve as major source terrains. Locally derived volcanic materials, however, are usually disseminated and masked on the Sohm Abyssal Plain, particularly in sectors receiving large amounts of terrigenous turbidites and biogenic suspensates, and/or undergoing reworking by bottom currents.We propose that the volcanic fraction can serve as a useful index, or “yardstick,” to interpret the role of locally derived material in abyssal plain sedimentation. A sedimentation model is developed to illustrate the premise that as access to land-derived sources diminishes, the proportion of terrigenous components is reduced while pelagic and volcanic fractions are enhanced. Thus, sediment accumulating in abyssal plains almost totally isolated from terrigenous sources would comprise significant amounts of pelagic (including wind-blown) and volcanic components. Our model illustrates that even in an abyssal plain, such as the Sohm, which has had an important and direct access to abundant distally derived terrigenous sources, particularly during the Pliocene and Quaternary, the locally supplied reworked volcanic products account for a significant fraction of the total abyssal plain sediment fill. |
| author |
Stanely, Daniel Jean Taylor, Patrick T. Sheng, Harrison Stuckenrath, Robert |
| spellingShingle |
Stanely, Daniel Jean Taylor, Patrick T. Sheng, Harrison Stuckenrath, Robert Sohm Abyssal Plain: Evaluating Proximal Sediment Provenance |
| author_facet |
Stanely, Daniel Jean Taylor, Patrick T. Sheng, Harrison Stuckenrath, Robert |
| author_sort |
Stanely, Daniel Jean |
| title |
Sohm Abyssal Plain: Evaluating Proximal Sediment Provenance |
| title_short |
Sohm Abyssal Plain: Evaluating Proximal Sediment Provenance |
| title_full |
Sohm Abyssal Plain: Evaluating Proximal Sediment Provenance |
| title_fullStr |
Sohm Abyssal Plain: Evaluating Proximal Sediment Provenance |
| title_full_unstemmed |
Sohm Abyssal Plain: Evaluating Proximal Sediment Provenance |
| title_sort |
sohm abyssal plain: evaluating proximal sediment provenance |
| publisher |
Smithsonian Institution Scholarly Press |
| publishDate |
1981 |
| url |
http://hdl.handle.net/10088/22482 |
| long_lat |
ENVELOPE(-64.800,-64.800,-66.067,-66.067) |
| geographic |
Sohm |
| geographic_facet |
Sohm |
| genre |
Northwest Atlantic |
| genre_facet |
Northwest Atlantic |
| op_relation |
Smithsonian Contributions to the Marine Sciences; no. 11, 1-48 0196-0768 http://hdl.handle.net/10088/22482 |
| _version_ |
1766149052643147776 |