Deposits of flows transitional between turbidity current and debris flow
Deposits of flows transitional between turbidity current and debris flow
The relationship between submarine sediment gravity flows and the character of their deposits is poorly understood. Annular flume experiments were used to investigate the depositional dynamics and deposits of waning sediment-laden flows. Decelerating fast (>3 m/s) flows with fixed sand content (10 vol%) and variable mud content (0–17 vol%) resulted in only four deposit types. Clean sand with a mud cap that resembled a turbidity current deposit (turbidite) formed if the flow was turbulent when deposition began, or if the muddy fluid had insufficient strength to suspend the sand. The clean sand could contain structures if mud content was low (<6%) and the deceleration period was >300 s. Ungraded muddy sand with a mud cap that resembled a debris-flow deposit (debrite) formed if the flow became laminar before sand could deposit. Clean sand overlain by ungraded muddy sand and a mud cap formed either from a transitional flow or by late-stage settling of sand from a muddy suspension. These deposits resemble enigmatic submarine flow deposits called linked debrite-turbidites. The experiments provide a basis for inferring flow type from deposit character for submarine sediment-laden flows.
991-994
Sumner, Esther J.
dbba4b92-89cc-45d9-888e-d0e87e5c10ac
Talling, Peter J.
1cbac5ec-a9f8-4868-94fe-6203f30b47cf
Amy, Lawrence A.
857f581c-1529-424c-a948-91ab2fd476eb
November 2009
Sumner, Esther J.
dbba4b92-89cc-45d9-888e-d0e87e5c10ac
Talling, Peter J.
1cbac5ec-a9f8-4868-94fe-6203f30b47cf
Amy, Lawrence A.
857f581c-1529-424c-a948-91ab2fd476eb
Sumner, Esther J., Talling, Peter J. and Amy, Lawrence A.
(2009)
Deposits of flows transitional between turbidity current and debris flow.
Geology, 34 (11), .
(doi:10.1130/G30059A.1).
Abstract
The relationship between submarine sediment gravity flows and the character of their deposits is poorly understood. Annular flume experiments were used to investigate the depositional dynamics and deposits of waning sediment-laden flows. Decelerating fast (>3 m/s) flows with fixed sand content (10 vol%) and variable mud content (0–17 vol%) resulted in only four deposit types. Clean sand with a mud cap that resembled a turbidity current deposit (turbidite) formed if the flow was turbulent when deposition began, or if the muddy fluid had insufficient strength to suspend the sand. The clean sand could contain structures if mud content was low (<6%) and the deceleration period was >300 s. Ungraded muddy sand with a mud cap that resembled a debris-flow deposit (debrite) formed if the flow became laminar before sand could deposit. Clean sand overlain by ungraded muddy sand and a mud cap formed either from a transitional flow or by late-stage settling of sand from a muddy suspension. These deposits resemble enigmatic submarine flow deposits called linked debrite-turbidites. The experiments provide a basis for inferring flow type from deposit character for submarine sediment-laden flows.
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Published date: November 2009
Organisations:
Geology & Geophysics, Marine Geoscience, National Oceanography Centre,Southampton
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Local EPrints ID: 69725
URI: http://eprints.soton.ac.uk/id/eprint/69725
ISSN: 0091-7613
PURE UUID: 3c32a0e3-c0a8-434f-9398-3a4623ca5fd6
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Date deposited: 27 Nov 2009
Last modified: 13 Mar 2024 19:43
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Author:
Peter J. Talling
Author:
Lawrence A. Amy
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