William R. Bryant scite author profile

No comprehensive scheme yet exists to describe the depositional products of submarine sediment failures at the scale of piston cores, resulting in misinterpretation of failure deposits and overuse of the genetic term ‘debris flow’. Ninety‐nine sediment cores (0·5 to 20 m in length), from offshore eastern Canada and the Gulf of Mexico, are used to propose a descriptive sedimentary facies scheme with genetic implications for mass‐transport deposits. Seven facies are distinguished: (i) allochthonous stratified sediment; (ii) distorted stratified sediment; (iii) clast‐supported hard‐mud‐clast conglomerate; (iv) matrix‐supported mud‐clast conglomerate; (v) thin mud‐clast conglomerate (<0·8 m thick); (vi) diamicton; and (vii) sorted sand‐gravel deposits (≥0·05 m thick). Seven genetic types of deposits are recognized. (i) Slumping of coherent sediment blocks (facies I). (ii) Slump and slide deposits (facies I and II). (iii) Debris‐avalanche deposits (hard sediment of facies I and II overlain by facies III). (iv) Low‐viscosity or large‐scale, high‐viscosity, cohesive debris flow deposits (facies IV, may have I, II, and III). (v) Very low‐viscosity debris flow deposits (facies V). (vi) Cohesionless debris flow deposits (facies VI). (vii) High‐density turbidity currents (facies VII). Vertical transitions between the genetic types were analysed by Markov chain analysis. Although sedimentological transitions are inferred between deposits of slides and cohesive debris flows, their spatial distribution indicates that a cohesive debris flow forms principally in the initial stages of a sediment failure, suggesting that transformation depends mostly on the strength of the sediments. A genetic link is suggested for cohesionless debris flow deposits, which originate from the disintegration of sandy sediment on the upper continental slope, and the closely related turbidity current deposits. Debris avalanches are common in sedimentary marine environments with steep slopes (>10°). In many cases, geometrical and seismic characteristics of debris avalanche, slide and debris flow are similar, requiring core data to verify transport process.

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Permeability of unconsolidated and consolidated marine sediments, gulf of Mexico

Bryant

Hottman

Trabant

1975

Marine Geotechnology

127

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Association of gas hydrates and oil seepage in the Gulf of Mexico

Brooks

Cox

Bryant

et al. 1986

Organic Geochemistry

220

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The PedsQL™ Multidimensional Fatigue Scale in pediatric obesity: Feasibility, reliability and validity

Varni¹,

Limbers²,

Bryant³

et al. 2009

Int. J. of Pediatric Obesity

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Sedimentological history of Bryant Canyon area, northwest Gulf of Mexico, during the last 135 kyr (Marine Isotope Stages 1–6): A proxy record of Mississippi River discharge

Tripsanas

Bryant

Slowey

et al. 2007

Palaeogeography, Palaeoclimatology, Palaeoecology

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William R. Bryant

Submarine mass‐transport facies: new perspectives on flow processes from cores on the eastern North American margin

Permeability of unconsolidated and consolidated marine sediments, gulf of Mexico

Association of gas hydrates and oil seepage in the Gulf of Mexico

The PedsQL™ Multidimensional Fatigue Scale in pediatric obesity: Feasibility, reliability and validity

Sedimentological history of Bryant Canyon area, northwest Gulf of Mexico, during the last 135 kyr (Marine Isotope Stages 1–6): A proxy record of Mississippi River discharge

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