A framework for time-dependent ice sheet uncertainty quantification, applied to three West Antarctic ice streams

Recinos, Beatriz; Goldberg, Daniel; Maddison, James R.; Todd, Joe

doi:10.5194/tc-17-4241-2023

The Cryosphere

2023

DOI: 10.5194/tc-17-4241-2023

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A framework for time-dependent ice sheet uncertainty quantification, applied to three West Antarctic ice streams

Beatriz Recinos,

Daniel Goldberg,

James R. Maddison

et al.

Abstract: Abstract. Ice sheet models are the main tool to generate forecasts of ice sheet mass loss, a significant contributor to sea level rise; thus, knowing the likelihood of such projections is of critical societal importance. However, to capture the complete range of possible projections of mass loss, ice sheet models need efficient methods to quantify the forecast uncertainty. Uncertainties originate from the model structure, from the climate and ocean forcing used to run the model, and from model calibration. Her… Show more

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2024

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References 87 publications

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The effect of landfast sea ice buttressing on ice dynamic speedup in the Larsen B embayment, Antarctica

Surawy-Stepney,

Hogg,

Cornford

et al. 2024

The Cryosphere

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Abstract. We observe the evacuation of 11-year-old landfast sea ice in the Larsen B embayment on the East Antarctic Peninsula in January 2022, which was in part triggered by warm atmospheric conditions and strong offshore winds. This evacuation of sea ice was closely followed by major changes in the calving behaviour and dynamics of a subset of the ocean-terminating glaciers in the region. We show using satellite measurements that, following a decade of gradual slow-down, Hektoria, Green, and Crane glaciers sped up by approximately 20 %–50 % between February and the end of 2022, each increasing in speed by more than 100 m a−1. Circumstantially, this is attributable to their transition into tidewater glaciers following the loss of their ice shelves after the landfast sea ice evacuation. However, a question remains as to whether the landfast sea ice could have influenced the dynamics of these glaciers, or the stability of their ice shelves, through a buttressing effect akin to that of confined ice shelves on grounded ice streams. We show, with a series of diagnostic modelling experiments, that direct landfast sea ice buttressing had a negligible impact on the dynamics of the grounded ice streams. Furthermore, we suggest that the loss of landfast sea ice buttressing could have impacted the dynamics of the rheologically weak ice shelves, in turn diminishing their stability over time; however, the accompanying shifts in the distributions of resistive stress within the ice shelves would have been minor. This indicates that this loss of buttressing by landfast sea ice is likely to have been a secondary process in the ice shelf disaggregation compared to, for example, increased ocean swell or the drivers of the initial landfast sea ice disintegration.

show abstract

The effect of landfast sea ice buttressing on ice dynamic speedup in the Larsen B embayment, Antarctica

Surawy-Stepney,

Hogg,

Cornford

et al. 2024

The Cryosphere

View full text Add to dashboard Cite

show abstract

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A framework for time-dependent ice sheet uncertainty quantification, applied to three West Antarctic ice streams

Cited by 1 publication

References 87 publications

The effect of landfast sea ice buttressing on ice dynamic speedup in the Larsen B embayment, Antarctica

The effect of landfast sea ice buttressing on ice dynamic speedup in the Larsen B embayment, Antarctica

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