Mid-Holocene thinning of David Glacier, Antarctica: Chronology and controls

Jamey Stutz; Andrew Mackintosh; Kevin Norton; Ross Whitmore; Carlo Baroni; Stewart S.R. Jamieson; Richard S. Jones; Greg Balco; Maria Cristina Salvatore; Stefano Casale; Jae Il Lee; Yeong Bae Seong; Robert McKay; Lauren J. Vargo; Daniel Lowry; Perry Spector; Marcus Christl; Susan Ivy Ochs; Luigia Di Nicola; Maria Iarossi; Finlay Stuart; Tom Woodruff

doi:10.5194/tc-15-5447-2021

Mid-Holocene thinning of David Glacier, Antarctica: Chronology and controls

Jamey Stutz^*
, Andrew Mackintosh
, Kevin Norton
, Ross Whitmore
, Carlo Baroni
, Stewart S.R. Jamieson
, Richard S. Jones
, Greg Balco
, Maria Cristina Salvatore
, Stefano Casale
, Jae Il Lee
, Yeong Bae Seong
, Robert McKay
, Lauren J. Vargo
, Daniel Lowry
, Perry Spector
, Marcus Christl
, Susan Ivy Ochs
, Luigia Di Nicola
, Maria Iarossi

Finlay Stuart, Tom Woodruff

^*Corresponding author for this work

Department of Geography Education

Research output: Contribution to journal › Article › peer-review

18 Citations (Scopus)

Abstract

Quantitative satellite observations only provide an assessment of ice sheet mass loss over the last four decades. To assess long-term drivers of ice sheet change, geological records are needed. Here we present the first millennial-scale reconstruction of David Glacier, the largest East Antarctic outlet glacier in Victoria Land. To reconstruct changes in ice thickness, we use surface exposure ages of glacial erratics deposited on nunataks adjacent to fast-flowing sections of David Glacier. We then use numerical modelling experiments to determine the drivers of glacial thinning. Thinning profiles derived from 45 10Be and 3He surface exposure ages show David Glacier experienced rapid thinning of up to 2ĝm/yr during the mid-Holocene (ĝ1/4ĝ6.5ĝka). Thinning slowed at 6ĝka, suggesting the initial formation of the Drygalski Ice Tongue at this time. Our work, along with ice thinning records from adjacent glaciers, shows simultaneous glacier thinning in this sector of the Transantarctic Mountains occurred 4-7ĝkyr after the peak period of ice thinning indicated in a suite of published ice sheet models. The timing and rapidity of the reconstructed thinning at David Glacier is similar to reconstructions in the Amundsen and Weddell embayments. To identify the drivers of glacier thinning along the David Glacier, we use a glacier flowline model designed for calving glaciers and compare modelled results against our geological data. We show that glacier thinning and marine-based grounding-line retreat are controlled by either enhanced sub-ice-shelf melting, reduced lateral buttressing or a combination of the two, leading to marine ice sheet instability. Such rapid glacier thinning events during the mid-Holocene are not fully captured in continental- or catchment-scale numerical modelling reconstructions. Together, our chronology and modelling identify and constrain the drivers of a ĝ1/4ĝ2000-year period of dynamic glacier thinning in the recent geological past.

Original language	English
Pages (from-to)	5447-5471
Number of pages	25
Journal	Cryosphere
Volume	15
Issue number	12
DOIs	https://doi.org/10.5194/tc-15-5447-2021
Publication status	Published - 2021 Dec 7

Bibliographical note

Publisher Copyright:
© Author(s) 2021. This work is distributed under the Creative Commons Attribution 4.0 License..All right reserved.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 14 Life Below Water
SDG 15 Life on Land

ASJC Scopus subject areas

Water Science and Technology
Earth-Surface Processes

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10.5194/tc-15-5447-2021

Cite this

Stutz, J., Mackintosh, A., Norton, K., Whitmore, R., Baroni, C., Jamieson, S. S. R., Jones, R. S., Balco, G., Salvatore, M. C., Casale, S., Lee, J. I., Seong, Y. B., McKay, R., Vargo, L. J., Lowry, D., Spector, P., Christl, M., Ochs, S. I., Di Nicola, L., ... Woodruff, T. (2021). Mid-Holocene thinning of David Glacier, Antarctica: Chronology and controls. Cryosphere, 15(12), 5447-5471. https://doi.org/10.5194/tc-15-5447-2021

Stutz, J, Mackintosh, A, Norton, K, Whitmore, R, Baroni, C, Jamieson, SSR, Jones, RS, Balco, G, Salvatore, MC, Casale, S, Lee, JI, Seong, YB, McKay, R, Vargo, LJ, Lowry, D, Spector, P, Christl, M, Ochs, SI, Di Nicola, L, Iarossi, M, Stuart, F & Woodruff, T 2021, 'Mid-Holocene thinning of David Glacier, Antarctica: Chronology and controls', Cryosphere, vol. 15, no. 12, pp. 5447-5471. https://doi.org/10.5194/tc-15-5447-2021

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abstract = "Quantitative satellite observations only provide an assessment of ice sheet mass loss over the last four decades. To assess long-term drivers of ice sheet change, geological records are needed. Here we present the first millennial-scale reconstruction of David Glacier, the largest East Antarctic outlet glacier in Victoria Land. To reconstruct changes in ice thickness, we use surface exposure ages of glacial erratics deposited on nunataks adjacent to fast-flowing sections of David Glacier. We then use numerical modelling experiments to determine the drivers of glacial thinning. Thinning profiles derived from 45 10Be and 3He surface exposure ages show David Glacier experienced rapid thinning of up to 2ĝm/yr during the mid-Holocene (ĝ1/4ĝ6.5ĝka). Thinning slowed at 6ĝka, suggesting the initial formation of the Drygalski Ice Tongue at this time. Our work, along with ice thinning records from adjacent glaciers, shows simultaneous glacier thinning in this sector of the Transantarctic Mountains occurred 4-7ĝkyr after the peak period of ice thinning indicated in a suite of published ice sheet models. The timing and rapidity of the reconstructed thinning at David Glacier is similar to reconstructions in the Amundsen and Weddell embayments. To identify the drivers of glacier thinning along the David Glacier, we use a glacier flowline model designed for calving glaciers and compare modelled results against our geological data. We show that glacier thinning and marine-based grounding-line retreat are controlled by either enhanced sub-ice-shelf melting, reduced lateral buttressing or a combination of the two, leading to marine ice sheet instability. Such rapid glacier thinning events during the mid-Holocene are not fully captured in continental- or catchment-scale numerical modelling reconstructions. Together, our chronology and modelling identify and constrain the drivers of a ĝ1/4ĝ2000-year period of dynamic glacier thinning in the recent geological past.",

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AU - Baroni, Carlo

AU - Jamieson, Stewart S.R.

AU - Jones, Richard S.

AU - Balco, Greg

AU - Salvatore, Maria Cristina

AU - Casale, Stefano

AU - Lee, Jae Il

AU - Seong, Yeong Bae

AU - McKay, Robert

AU - Vargo, Lauren J.

AU - Lowry, Daniel

AU - Spector, Perry

AU - Christl, Marcus

AU - Ochs, Susan Ivy

AU - Di Nicola, Luigia

AU - Iarossi, Maria

AU - Stuart, Finlay

AU - Woodruff, Tom

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N2 - Quantitative satellite observations only provide an assessment of ice sheet mass loss over the last four decades. To assess long-term drivers of ice sheet change, geological records are needed. Here we present the first millennial-scale reconstruction of David Glacier, the largest East Antarctic outlet glacier in Victoria Land. To reconstruct changes in ice thickness, we use surface exposure ages of glacial erratics deposited on nunataks adjacent to fast-flowing sections of David Glacier. We then use numerical modelling experiments to determine the drivers of glacial thinning. Thinning profiles derived from 45 10Be and 3He surface exposure ages show David Glacier experienced rapid thinning of up to 2ĝm/yr during the mid-Holocene (ĝ1/4ĝ6.5ĝka). Thinning slowed at 6ĝka, suggesting the initial formation of the Drygalski Ice Tongue at this time. Our work, along with ice thinning records from adjacent glaciers, shows simultaneous glacier thinning in this sector of the Transantarctic Mountains occurred 4-7ĝkyr after the peak period of ice thinning indicated in a suite of published ice sheet models. The timing and rapidity of the reconstructed thinning at David Glacier is similar to reconstructions in the Amundsen and Weddell embayments. To identify the drivers of glacier thinning along the David Glacier, we use a glacier flowline model designed for calving glaciers and compare modelled results against our geological data. We show that glacier thinning and marine-based grounding-line retreat are controlled by either enhanced sub-ice-shelf melting, reduced lateral buttressing or a combination of the two, leading to marine ice sheet instability. Such rapid glacier thinning events during the mid-Holocene are not fully captured in continental- or catchment-scale numerical modelling reconstructions. Together, our chronology and modelling identify and constrain the drivers of a ĝ1/4ĝ2000-year period of dynamic glacier thinning in the recent geological past.

AB - Quantitative satellite observations only provide an assessment of ice sheet mass loss over the last four decades. To assess long-term drivers of ice sheet change, geological records are needed. Here we present the first millennial-scale reconstruction of David Glacier, the largest East Antarctic outlet glacier in Victoria Land. To reconstruct changes in ice thickness, we use surface exposure ages of glacial erratics deposited on nunataks adjacent to fast-flowing sections of David Glacier. We then use numerical modelling experiments to determine the drivers of glacial thinning. Thinning profiles derived from 45 10Be and 3He surface exposure ages show David Glacier experienced rapid thinning of up to 2ĝm/yr during the mid-Holocene (ĝ1/4ĝ6.5ĝka). Thinning slowed at 6ĝka, suggesting the initial formation of the Drygalski Ice Tongue at this time. Our work, along with ice thinning records from adjacent glaciers, shows simultaneous glacier thinning in this sector of the Transantarctic Mountains occurred 4-7ĝkyr after the peak period of ice thinning indicated in a suite of published ice sheet models. The timing and rapidity of the reconstructed thinning at David Glacier is similar to reconstructions in the Amundsen and Weddell embayments. To identify the drivers of glacier thinning along the David Glacier, we use a glacier flowline model designed for calving glaciers and compare modelled results against our geological data. We show that glacier thinning and marine-based grounding-line retreat are controlled by either enhanced sub-ice-shelf melting, reduced lateral buttressing or a combination of the two, leading to marine ice sheet instability. Such rapid glacier thinning events during the mid-Holocene are not fully captured in continental- or catchment-scale numerical modelling reconstructions. Together, our chronology and modelling identify and constrain the drivers of a ĝ1/4ĝ2000-year period of dynamic glacier thinning in the recent geological past.

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Mid-Holocene thinning of David Glacier, Antarctica: Chronology and controls

Abstract

Bibliographical note

UN SDGs

ASJC Scopus subject areas

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