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Topographic controls on post-Oligocene changes in ice-sheet dynamics, Prydz Bay region, East Antarctica. / Taylor, J.; Siegert, M. J.; Payne, A. J.; Hambrey, M. J.; O'Brien, P. E.; Cooper, A. K.; Leitchenkov, G.

In: Geology, Vol. 32, No. 3, 01.03.2004, p. 197-200.

Research output: Contribution to journalArticlepeer-review

Harvard

Taylor, J, Siegert, MJ, Payne, AJ, Hambrey, MJ, O'Brien, PE, Cooper, AK & Leitchenkov, G 2004, 'Topographic controls on post-Oligocene changes in ice-sheet dynamics, Prydz Bay region, East Antarctica', Geology, vol. 32, no. 3, pp. 197-200. https://doi.org/10.1130/G20275.1

APA

Taylor, J., Siegert, M. J., Payne, A. J., Hambrey, M. J., O'Brien, P. E., Cooper, A. K., & Leitchenkov, G. (2004). Topographic controls on post-Oligocene changes in ice-sheet dynamics, Prydz Bay region, East Antarctica. Geology, 32(3), 197-200. https://doi.org/10.1130/G20275.1

Vancouver

Taylor J, Siegert MJ, Payne AJ, Hambrey MJ, O'Brien PE, Cooper AK et al. Topographic controls on post-Oligocene changes in ice-sheet dynamics, Prydz Bay region, East Antarctica. Geology. 2004 Mar 1;32(3):197-200. https://doi.org/10.1130/G20275.1

Author

Taylor, J. ; Siegert, M. J. ; Payne, A. J. ; Hambrey, M. J. ; O'Brien, P. E. ; Cooper, A. K. ; Leitchenkov, G. / Topographic controls on post-Oligocene changes in ice-sheet dynamics, Prydz Bay region, East Antarctica. In: Geology. 2004 ; Vol. 32, No. 3. pp. 197-200.

BibTeX

@article{bb0c08f951d64505bfd0ded13461cdb2,
title = "Topographic controls on post-Oligocene changes in ice-sheet dynamics, Prydz Bay region, East Antarctica",
abstract = "Within the general trend of post-Eocene cooling, the largest and oldest outlet of the East Antarctic Ice Sheet underwent a change from ice-cliff to ice-stream and/or ice-shelf dynamics, with an associated switch from line-source to fan sedimentation. Available geological data reveal little about the causes of these changes in ice dynamics during the Miocene Epoch, or the subsequent effects on Pliocene-Pleistocene ice-sheet history. Ice-sheet numerical modeling reveals that bed morphology was probably responsible for driving changes in both ice-sheet extent and dynamics in the Lambert-Amery system at Prydz Bay. The modeling shows how the topography and bathymetry of the Lambert graben and Prydz Bay control ice-sheet extent and flow. The changes in bathymetric volume required for shelf-edge glaciation correlate well with the Prydz Channel fan sedimentation history. This suggests a negative feedback between erosion and glaciation, whereby the current graben is overdeepened to such an extent that shelf-edge glaciation is now not possible, even if a Last Glacial Maximum environment recurs. We conclude that the erosional history of the Lambert graben and Prydz Bay in combination with the uplift histories of the surrounding mountains are responsible for the evolution of this section of the East Antarctic Ice Sheet, once the necessary initial climatic conditions for glaciation were achieved at the start of the Oligocene Epoch.",
keywords = "Antarctica, Ice sheets, Miocene, Numerical models, Pliocene",
author = "J. Taylor and Siegert, {M. J.} and Payne, {A. J.} and Hambrey, {M. J.} and O'Brien, {P. E.} and Cooper, {A. K.} and G. Leitchenkov",
year = "2004",
month = mar,
day = "1",
doi = "10.1130/G20275.1",
language = "English",
volume = "32",
pages = "197--200",
journal = "Geology",
issn = "0091-7613",
publisher = "Geological Society of America",
number = "3",

}

RIS

TY - JOUR

T1 - Topographic controls on post-Oligocene changes in ice-sheet dynamics, Prydz Bay region, East Antarctica

AU - Taylor, J.

AU - Siegert, M. J.

AU - Payne, A. J.

AU - Hambrey, M. J.

AU - O'Brien, P. E.

AU - Cooper, A. K.

AU - Leitchenkov, G.

PY - 2004/3/1

Y1 - 2004/3/1

N2 - Within the general trend of post-Eocene cooling, the largest and oldest outlet of the East Antarctic Ice Sheet underwent a change from ice-cliff to ice-stream and/or ice-shelf dynamics, with an associated switch from line-source to fan sedimentation. Available geological data reveal little about the causes of these changes in ice dynamics during the Miocene Epoch, or the subsequent effects on Pliocene-Pleistocene ice-sheet history. Ice-sheet numerical modeling reveals that bed morphology was probably responsible for driving changes in both ice-sheet extent and dynamics in the Lambert-Amery system at Prydz Bay. The modeling shows how the topography and bathymetry of the Lambert graben and Prydz Bay control ice-sheet extent and flow. The changes in bathymetric volume required for shelf-edge glaciation correlate well with the Prydz Channel fan sedimentation history. This suggests a negative feedback between erosion and glaciation, whereby the current graben is overdeepened to such an extent that shelf-edge glaciation is now not possible, even if a Last Glacial Maximum environment recurs. We conclude that the erosional history of the Lambert graben and Prydz Bay in combination with the uplift histories of the surrounding mountains are responsible for the evolution of this section of the East Antarctic Ice Sheet, once the necessary initial climatic conditions for glaciation were achieved at the start of the Oligocene Epoch.

AB - Within the general trend of post-Eocene cooling, the largest and oldest outlet of the East Antarctic Ice Sheet underwent a change from ice-cliff to ice-stream and/or ice-shelf dynamics, with an associated switch from line-source to fan sedimentation. Available geological data reveal little about the causes of these changes in ice dynamics during the Miocene Epoch, or the subsequent effects on Pliocene-Pleistocene ice-sheet history. Ice-sheet numerical modeling reveals that bed morphology was probably responsible for driving changes in both ice-sheet extent and dynamics in the Lambert-Amery system at Prydz Bay. The modeling shows how the topography and bathymetry of the Lambert graben and Prydz Bay control ice-sheet extent and flow. The changes in bathymetric volume required for shelf-edge glaciation correlate well with the Prydz Channel fan sedimentation history. This suggests a negative feedback between erosion and glaciation, whereby the current graben is overdeepened to such an extent that shelf-edge glaciation is now not possible, even if a Last Glacial Maximum environment recurs. We conclude that the erosional history of the Lambert graben and Prydz Bay in combination with the uplift histories of the surrounding mountains are responsible for the evolution of this section of the East Antarctic Ice Sheet, once the necessary initial climatic conditions for glaciation were achieved at the start of the Oligocene Epoch.

KW - Antarctica

KW - Ice sheets

KW - Miocene

KW - Numerical models

KW - Pliocene

UR - http://www.scopus.com/inward/record.url?scp=1842532892&partnerID=8YFLogxK

U2 - 10.1130/G20275.1

DO - 10.1130/G20275.1

M3 - Article

AN - SCOPUS:1842532892

VL - 32

SP - 197

EP - 200

JO - Geology

JF - Geology

SN - 0091-7613

IS - 3

ER -

ID: 35965240