Entrainment and abrasion of megaclasts during submarine landsliding and their impact on flow behaviour

D.M. Hodgson; H.L. Brooks; A. Ortiz-Karpf; Y. Spychala; D.R. Lee; Christopher A L Jackson

doi:10.1144/SP477.26

Entrainment and abrasion of megaclasts during submarine landsliding and their impact on flow behaviour

D.M. Hodgson, H.L. Brooks, A. Ortiz-Karpf, Y. Spychala, D.R. Lee, Christopher A L Jackson

Research output: Chapter in Book/Report/Conference proceeding › Chapter › Academic › peer-review

Abstract

Many mass transport complexes (MTCs) contain up to kilometre-scale (mega)clasts encased in a debritic matrix. Although many megaclasts are sourced from the headwall areas, the irregular basal shear surfaces of many MTCs indicate that megaclast entrainment during the passage of flows into the deeper basin is also common. However, the mechanisms responsible for the entrainment of large blocks of substrate, and their influence on the longitudinal behaviour of the associated flows, have not been widely considered. We present examples of megaclasts from exhumed MTCs (the Neuquén Basin, Argentina and the Karoo Basin, South Africa) and MTCs imaged in three-dimensional seismic reflection data (Magdalena Fan, offshore Colombia and Santos Basin, offshore Brazil) to investigate these process–product interactions. We show that highly sheared basal surfaces are well developed in distal locations, sometimes extending beyond their associated deposit. This points to deformation and weakening of the substrate ahead of the flow, suggesting that preconditioning of the substrate by distributed shear ahead of, and to the side of, a mass flow could result in the entrainment of large fragments. An improved understanding of the interactions between flow evolution, seabed topography, and the entrainment and abrasion of megaclasts will help to refine estimates of run-out distances, and therefore the geohazard potential of submarine landslides.

Original language	English
Title of host publication	Subaqueous mass movements and their consequences
Subtitle of host publication	assessing geohazards, environmental implications and economic significance of subaqueous landslides
Editors	D.G. Lintern, D.C. Mosher, L.G. Moscardelli, P.T. Bobrowsky, C. Campbell, J.D. Chaytor, J.J. Clague, A. Georgiopoulou, P. Lajeunesse, A. Normandeau, D.J.W. Piper, M. Scherwath, C. Stacey, D. Turmel
Place of Publication	London
Publisher	Geological Society
Pages	223-240
Number of pages	18
ISBN (Print)	9781786203823
DOIs	https://doi.org/10.1144/SP477.26
Publication status	Published - 30 Sept 2019
Externally published	Yes

Publication series

Name	Geological Society of London Special Publications
Publisher	Geological Society of London
Volume	477

Access to Document

10.1144/SP477.26

Cite this

Hodgson, D. M., Brooks, H. L., Ortiz-Karpf, A., Spychala, Y., Lee, D. R., & Jackson, C. A. L. (2019). Entrainment and abrasion of megaclasts during submarine landsliding and their impact on flow behaviour. In D. G. Lintern, D. C. Mosher, L. G. Moscardelli, P. T. Bobrowsky, C. Campbell, J. D. Chaytor, J. J. Clague, A. Georgiopoulou, P. Lajeunesse, A. Normandeau, D. J. W. Piper, M. Scherwath, C. Stacey, & D. Turmel (Eds.), Subaqueous mass movements and their consequences: assessing geohazards, environmental implications and economic significance of subaqueous landslides (pp. 223-240). (Geological Society of London Special Publications; Vol. 477). Geological Society. https://doi.org/10.1144/SP477.26

Hodgson, D.M. ; Brooks, H.L. ; Ortiz-Karpf, A. et al. / Entrainment and abrasion of megaclasts during submarine landsliding and their impact on flow behaviour. Subaqueous mass movements and their consequences: assessing geohazards, environmental implications and economic significance of subaqueous landslides. editor / D.G. Lintern ; D.C. Mosher ; L.G. Moscardelli ; P.T. Bobrowsky ; C. Campbell ; J.D. Chaytor ; J.J. Clague ; A. Georgiopoulou ; P. Lajeunesse ; A. Normandeau ; D.J.W. Piper ; M. Scherwath ; C. Stacey ; D. Turmel. London : Geological Society, 2019. pp. 223-240 (Geological Society of London Special Publications).

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title = "Entrainment and abrasion of megaclasts during submarine landsliding and their impact on flow behaviour",

abstract = "Many mass transport complexes (MTCs) contain up to kilometre-scale (mega)clasts encased in a debritic matrix. Although many megaclasts are sourced from the headwall areas, the irregular basal shear surfaces of many MTCs indicate that megaclast entrainment during the passage of flows into the deeper basin is also common. However, the mechanisms responsible for the entrainment of large blocks of substrate, and their influence on the longitudinal behaviour of the associated flows, have not been widely considered. We present examples of megaclasts from exhumed MTCs (the Neuqu{\'e}n Basin, Argentina and the Karoo Basin, South Africa) and MTCs imaged in three-dimensional seismic reflection data (Magdalena Fan, offshore Colombia and Santos Basin, offshore Brazil) to investigate these process–product interactions. We show that highly sheared basal surfaces are well developed in distal locations, sometimes extending beyond their associated deposit. This points to deformation and weakening of the substrate ahead of the flow, suggesting that preconditioning of the substrate by distributed shear ahead of, and to the side of, a mass flow could result in the entrainment of large fragments. An improved understanding of the interactions between flow evolution, seabed topography, and the entrainment and abrasion of megaclasts will help to refine estimates of run-out distances, and therefore the geohazard potential of submarine landslides.",

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editor = "D.G. Lintern and D.C. Mosher and L.G. Moscardelli and P.T. Bobrowsky and C. Campbell and J.D. Chaytor and J.J. Clague and A. Georgiopoulou and P. Lajeunesse and A. Normandeau and D.J.W. Piper and M. Scherwath and C. Stacey and D. Turmel",

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Hodgson, DM, Brooks, HL, Ortiz-Karpf, A, Spychala, Y, Lee, DR & Jackson, CAL 2019, Entrainment and abrasion of megaclasts during submarine landsliding and their impact on flow behaviour. in DG Lintern, DC Mosher, LG Moscardelli, PT Bobrowsky, C Campbell, JD Chaytor, JJ Clague, A Georgiopoulou, P Lajeunesse, A Normandeau, DJW Piper, M Scherwath, C Stacey & D Turmel (eds), Subaqueous mass movements and their consequences: assessing geohazards, environmental implications and economic significance of subaqueous landslides. Geological Society of London Special Publications, vol. 477, Geological Society, London, pp. 223-240. https://doi.org/10.1144/SP477.26

Entrainment and abrasion of megaclasts during submarine landsliding and their impact on flow behaviour. / Hodgson, D.M.; Brooks, H.L.; Ortiz-Karpf, A. et al.
Subaqueous mass movements and their consequences: assessing geohazards, environmental implications and economic significance of subaqueous landslides. ed. / D.G. Lintern; D.C. Mosher; L.G. Moscardelli; P.T. Bobrowsky; C. Campbell; J.D. Chaytor; J.J. Clague; A. Georgiopoulou; P. Lajeunesse; A. Normandeau; D.J.W. Piper; M. Scherwath; C. Stacey; D. Turmel. London: Geological Society, 2019. p. 223-240 (Geological Society of London Special Publications; Vol. 477).

Research output: Chapter in Book/Report/Conference proceeding › Chapter › Academic › peer-review

TY - CHAP

T1 - Entrainment and abrasion of megaclasts during submarine landsliding and their impact on flow behaviour

AU - Hodgson, D.M.

AU - Brooks, H.L.

AU - Ortiz-Karpf, A.

AU - Spychala, Y.

AU - Lee, D.R.

AU - Jackson, Christopher A L

PY - 2019/9/30

Y1 - 2019/9/30

N2 - Many mass transport complexes (MTCs) contain up to kilometre-scale (mega)clasts encased in a debritic matrix. Although many megaclasts are sourced from the headwall areas, the irregular basal shear surfaces of many MTCs indicate that megaclast entrainment during the passage of flows into the deeper basin is also common. However, the mechanisms responsible for the entrainment of large blocks of substrate, and their influence on the longitudinal behaviour of the associated flows, have not been widely considered. We present examples of megaclasts from exhumed MTCs (the Neuquén Basin, Argentina and the Karoo Basin, South Africa) and MTCs imaged in three-dimensional seismic reflection data (Magdalena Fan, offshore Colombia and Santos Basin, offshore Brazil) to investigate these process–product interactions. We show that highly sheared basal surfaces are well developed in distal locations, sometimes extending beyond their associated deposit. This points to deformation and weakening of the substrate ahead of the flow, suggesting that preconditioning of the substrate by distributed shear ahead of, and to the side of, a mass flow could result in the entrainment of large fragments. An improved understanding of the interactions between flow evolution, seabed topography, and the entrainment and abrasion of megaclasts will help to refine estimates of run-out distances, and therefore the geohazard potential of submarine landslides.

AB - Many mass transport complexes (MTCs) contain up to kilometre-scale (mega)clasts encased in a debritic matrix. Although many megaclasts are sourced from the headwall areas, the irregular basal shear surfaces of many MTCs indicate that megaclast entrainment during the passage of flows into the deeper basin is also common. However, the mechanisms responsible for the entrainment of large blocks of substrate, and their influence on the longitudinal behaviour of the associated flows, have not been widely considered. We present examples of megaclasts from exhumed MTCs (the Neuquén Basin, Argentina and the Karoo Basin, South Africa) and MTCs imaged in three-dimensional seismic reflection data (Magdalena Fan, offshore Colombia and Santos Basin, offshore Brazil) to investigate these process–product interactions. We show that highly sheared basal surfaces are well developed in distal locations, sometimes extending beyond their associated deposit. This points to deformation and weakening of the substrate ahead of the flow, suggesting that preconditioning of the substrate by distributed shear ahead of, and to the side of, a mass flow could result in the entrainment of large fragments. An improved understanding of the interactions between flow evolution, seabed topography, and the entrainment and abrasion of megaclasts will help to refine estimates of run-out distances, and therefore the geohazard potential of submarine landslides.

U2 - 10.1144/SP477.26

DO - 10.1144/SP477.26

M3 - Chapter

SN - 9781786203823

T3 - Geological Society of London Special Publications

SP - 223

EP - 240

BT - Subaqueous mass movements and their consequences

A2 - Lintern, D.G.

A2 - Mosher, D.C.

A2 - Moscardelli, L.G.

A2 - Bobrowsky, P.T.

A2 - Campbell, C.

A2 - Chaytor, J.D.

A2 - Clague, J.J.

A2 - Georgiopoulou, A.

A2 - Lajeunesse, P.

A2 - Normandeau, A.

A2 - Piper, D.J.W.

A2 - Scherwath, M.

A2 - Stacey, C.

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PB - Geological Society

CY - London

ER -

Hodgson DM, Brooks HL, Ortiz-Karpf A, Spychala Y, Lee DR, Jackson CAL. Entrainment and abrasion of megaclasts during submarine landsliding and their impact on flow behaviour. In Lintern DG, Mosher DC, Moscardelli LG, Bobrowsky PT, Campbell C, Chaytor JD, Clague JJ, Georgiopoulou A, Lajeunesse P, Normandeau A, Piper DJW, Scherwath M, Stacey C, Turmel D, editors, Subaqueous mass movements and their consequences: assessing geohazards, environmental implications and economic significance of subaqueous landslides. London: Geological Society. 2019. p. 223-240. (Geological Society of London Special Publications). doi: 10.1144/SP477.26

Entrainment and abrasion of megaclasts during submarine landsliding and their impact on flow behaviour

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