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Holocene Ice-Flow Speedup in the Vicinity of the South Pole (2018)

Lilien, David A. ; Fudge, T. J. ; Koutnik, Michelle R. ; [et al.]

American Geophysical Union

In: Geophysical Research Letters. 2018; 45(13): 6557-6565. Published 2018 Jun 22. doi: 10.1029/2018gl078253.

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Publication Date: 2018-06-22

Description: The South Pole Ice Core (SPICEcore) was drilled at least 180 km from an ice-flow divide. Thus, the annual-equivalent layer thicknesses in the core are affected by spatial variations in accumulation upstream in addition to temporal variations in regional accumulation. We use a new method to compare the SPICEcore accumulation record, derived by correcting measured layer thicknesses for thinning, with an accumulation record derived from new GPS and radar measurements upstream. When ice speeds are modeled as increasing by 15% since 10 ka, the upstream accumulation explains 77% of the variance in the SPICEcore-derived accumulation (versus 22% without speedup). This result demonstrates that the ice-flow direction and spatial pattern of accumulation were stable throughout the Holocene. The 15% speedup in turn suggests a slight (3–4%) steepening or thickening of the ice-sheet interior and provides a new constraint on the evolution of the East Antarctic Ice Sheet following the glacial termination. ©2018. American Geophysical Union. All Rights Reserved.

Print ISSN: 0094-8276

Electronic ISSN: 1944-8007

Topics: Geosciences , Physics

Published by American Geophysical Union

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Melt at grounding line controls observed and future retreat of Smith, Pope, and Kohler glaciers (2019)

Lilien, David A. ; Joughin, Ian ; Smith, Benjamin ; [et al.]

Copernicus

In: The Cryosphere. 2019; 13(11): 2817-2834. Published 2019 Nov 05. doi: 10.5194/tc-13-2817-2019.

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Publication Date: 2019-11-05

Description: Smith, Pope, and Kohler glaciers and the corresponding Crosson and Dotson ice shelves have undergone speedup, thinning, and rapid grounding-line retreat in recent years, leaving them in a state likely conducive to future retreat. We conducted a suite of numerical model simulations of these glaciers and compared the results to observations to determine the processes controlling their recent evolution. The model simulations indicate that the state of these glaciers in the 1990s was not inherently unstable, i.e., that small perturbations to the grounding line would not necessarily have caused the large retreat that has been observed. Instead, sustained, elevated melt at the grounding line was needed to cause the observed retreat. Weakening of the margins of Crosson Ice Shelf may have hastened the onset of grounding-line retreat but is unlikely to have initiated these rapid changes without an accompanying increase in melt. In the simulations that most closely match the observed thinning, speedup, and retreat, modeled grounding-line retreat and ice loss continue unabated throughout the 21st century, and subsequent retreat along Smith Glacier's trough appears likely. Given the rapid progression of grounding-line retreat in the model simulations, thinning associated with the retreat of Smith Glacier may reach the ice divide and undermine a portion of the Thwaites catchment as quickly as changes initiated at the Thwaites terminus.

Print ISSN: 1994-0416

Electronic ISSN: 1994-0424

Topics: Geography , Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Advection (non-climate) impact on the South Pole Ice Core (2019)

Fudge, Tyler J. ; Lilien, David A. ; Koutnik, Michelle ; [et al.]

Copernicus

In: Climate of the Past Discussions. 2019; 1-26. Published 2019 Jun 19. doi: 10.5194/cp-2019-66. [early online release]

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Publication Date: 2019-06-19

Description: The South Pole Ice Core (SPICEcore), which spans the past 54,300 years, was drilled far from an ice divide such that ice recovered at depth originated at a location upstream of the current core site. If the climate is different upstream, the climate history recovered from the core will be a combination of the upstream conditions advected to the core site and the temporal changes we seek to recover. Here, we evaluate the impact of ice advection on two fundamental records from SPICEcore: accumulation rate and water isotopes. We determined the past locations of ice deposition based on GPS measurements of the modern velocity field spanning 100 km upstream where ice of ~ 20 ka age would likely have originated. Beyond 100 km, there are no velocity measurements, but ice likely originates from Titan Dome, an additional 90 km distant. Shallow radar measurements extending 100 km upstream from the core site reveal large (~ 20 %) variations in accumulation but no significant trend. Water isotope ratios, measured at 12.5 km intervals for the first 100 km of the flowline, show a decrease with elevation (and distance upstream) of -0.008 ‰ m−1 for δ18O. Advection therefore adds approximately 1 ‰ for δ18O to the LGM-to-modern change. Assuming a lapse rate of 10 °C per km of elevation, the LGM-to-modern temperature change is ~ 1.5 °C greater than if the ice had been deposited at a fixed location.

Print ISSN: 1814-9340

Electronic ISSN: 1814-9359

Topics: Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Elevated melt causes varied response of Crosson and Dotson Ice Shelves in West Antarctica (2018)

Lilien, David A. ; Joughin, Ian ; Smith, Benjamin ; [et al.]

Copernicus

In: The Cryosphere Discussions. 2018; 1-28. Published 2018 Jan 02. doi: 10.5194/tc-2017-248. [early online release]

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Publication Date: 2018-01-02

Description: Crosson and Dotson Ice Shelves are two of the most rapidly changing outlets in West Antarctica, displaying both significant thinning and grounding-line retreat in recent decades. We used remotely sensed datasets to investigate the processes controlling their changes in speed and grounding-line position over the past 20 years. We combined these observations with inverse modeling of the viscosity of the ice shelves to understand how weakening of the shelves affected this speedup. These ice shelves have lost mass continuously since the 1990s, and we find that this loss is primarily a result of melt beneath Dotson. High melt rates persisted over the period covered by our observations (1996–2014), with the highest rates beneath areas that ungrounded during this time. Grounding line flux exceeded basinwide accumulation by about a factor of two throughout the study period, consistent with earlier studies, resulting in significant loss of grounded as well as floating ice. The near doubling of Crosson's speed in some areas during this time likely is the result of weakening of its margins and retreat of its grounding line. This speedup contrasts with Dotson, which has continued to move slowly despite high, increasing melt rates near its grounding line. Our results indicate that changes to melt rates began before 1996, and suggest that observed increases in melt in the 2000s compounded an ongoing retreat of this system. Advection of a channel along Dotson, as well as the grounding-line position of Kohler Glacier, suggest that Dotson experienced a change in flow around the 1970s, which may be the initial cause of its continuing retreat.

Print ISSN: 1994-0432

Electronic ISSN: 1994-0440

Topics: Geography , Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Melt at grounding line controls observed and future retreat of Smith, Pope, and Kohler Glaciers (2019)

Lilien, David A. ; Joughin, Ian ; Smith, Benjamin ; [et al.]

Copernicus

In: The Cryosphere Discussions. 2019; 1-29. Published 2019 May 10. doi: 10.5194/tc-2019-105. [early online release]

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Publication Date: 2019-05-10

Description: Smith, Pope, and Kohler Glaciers and the corresponding Crosson and Dotson Ice Shelves have undergone speedup, thinning, and rapid grounding-line retreat in recent years, leaving them in a state likely conducive to future retreat. We conducted a suite of numerical model simulations of these glaciers and compared the results to observations to determine the processes controlling their recent evolution. The model simulations indicate that the state of these glaciers in the 1990s was not inherently unstable, i.e. that small perturbations to the grounding line would not necessarily have caused the large retreat that has been observed. Instead, sustained, elevated melt at the grounding line was needed to cause the observed retreat. Weakening of the margins of Crosson Ice Shelf may have hastened the onset of grounding-line retreat but is unlikely to have initiated these rapid changes without an accompanying increase in melt. In the simulations that most closely match the observed thinning, speedup, and retreat, modeled grounding-line retreat and ice loss continue unabated throughout the 21st century, and subsequent retreat along Smith Glacier’s trough appears likely. Given the rapid progression of grounding-line retreat in the model simulations, thinning associated with the retreat of Smith Glacier may reach the ice divide and undermine a portion of the Thwaites catchment as quickly as changes initiated at the Thwaites terminus.

Print ISSN: 1994-0432

Electronic ISSN: 1994-0440

Topics: Geography , Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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Changes in flow of Crosson and Dotson ice shelves, West Antarctica, in response to elevated melt (2018)

Lilien, David A. ; Joughin, Ian ; Smith, Benjamin ; [et al.]

Copernicus

In: The Cryosphere. 2018; 12(4): 1415-1431. Published 2018 Apr 19. doi: 10.5194/tc-12-1415-2018.

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Publication Date: 2018-04-19

Description: Crosson and Dotson ice shelves are two of the most rapidly changing outlets in West Antarctica, displaying both significant thinning and grounding-line retreat in recent decades. We used remotely sensed measurements of velocity and ice geometry to investigate the processes controlling their changes in speed and grounding-line position over the past 20 years. We combined these observations with inverse modeling of the viscosity of the ice shelves to understand how weakening of the shelves affected this speedup. These ice shelves have lost mass continuously since the 1990s, and we find that this loss results from increasing melt beneath both shelves and the increasing speed of Crosson. High melt rates persisted over the period covered by our observations (1996–2014), with the highest rates beneath areas that ungrounded during this time. Grounding-line flux exceeded basin-wide accumulation by about a factor of 2 throughout the study period, consistent with earlier studies, resulting in significant loss of grounded as well as floating ice. The near doubling of Crosson's speed in some areas during this time is likely the result of weakening of its margins and retreat of its grounding line. This speedup contrasts with Dotson, which has maintained its speed despite increasingly high melt rates near its grounding line, likely a result of the sustained competency of the shelf. Our results indicate that changes to melt rates began before 1996 and suggest that observed increases in melt in the 2000s compounded an ongoing retreat of this system. Advection of a channel along Dotson, as well as the grounding-line position of Kohler Glacier, suggests that Dotson experienced a change in flow around the 1970s, which may be the initial cause of its continuing retreat.

Print ISSN: 1994-0416

Electronic ISSN: 1994-0424

Topics: Geography , Geosciences

Published by Copernicus on behalf of European Geosciences Union.

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