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Simulations of Firn Processes Over the Greenland and Antarctic Ice Sheets: 1980-2021
by
Neumann, Thomas A
, Zwally, H Jay
, Medley, Brooke
, Stevens, C Max
, Smith, Benjamin E
in
Air
/ Air content
/ Altimetry
/ Analysis
/ Antarctic ice sheet
/ Densification
/ Density profiles
/ Earth Resources and Remote Sensing
/ Empirical models
/ Evolution
/ Firn
/ Glaciation
/ Greenland ice sheet
/ Ice
/ Ice sheets
/ Mass
/ Mass balance
/ Meltwater
/ Modelling
/ Reduction
/ Runoff
/ Simulation
/ Simulation methods
/ Snow
2022
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Simulations of Firn Processes Over the Greenland and Antarctic Ice Sheets: 1980-2021
by
Neumann, Thomas A
, Zwally, H Jay
, Medley, Brooke
, Stevens, C Max
, Smith, Benjamin E
in
Air
/ Air content
/ Altimetry
/ Analysis
/ Antarctic ice sheet
/ Densification
/ Density profiles
/ Earth Resources and Remote Sensing
/ Empirical models
/ Evolution
/ Firn
/ Glaciation
/ Greenland ice sheet
/ Ice
/ Ice sheets
/ Mass
/ Mass balance
/ Meltwater
/ Modelling
/ Reduction
/ Runoff
/ Simulation
/ Simulation methods
/ Snow
2022
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Simulations of Firn Processes Over the Greenland and Antarctic Ice Sheets: 1980-2021
by
Neumann, Thomas A
, Zwally, H Jay
, Medley, Brooke
, Stevens, C Max
, Smith, Benjamin E
in
Air
/ Air content
/ Altimetry
/ Analysis
/ Antarctic ice sheet
/ Densification
/ Density profiles
/ Earth Resources and Remote Sensing
/ Empirical models
/ Evolution
/ Firn
/ Glaciation
/ Greenland ice sheet
/ Ice
/ Ice sheets
/ Mass
/ Mass balance
/ Meltwater
/ Modelling
/ Reduction
/ Runoff
/ Simulation
/ Simulation methods
/ Snow
2022
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Simulations of Firn Processes Over the Greenland and Antarctic Ice Sheets: 1980-2021
Journal Article
Simulations of Firn Processes Over the Greenland and Antarctic Ice Sheets: 1980-2021
2022
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Overview
Conversion of altimetry-derived ice-sheet volume change to mass requires an understanding of the evolution of the combined ice and air content within the firn column. In the absence of suitable techniques to observe the changes to the firn column across the entirety of an ice sheet, the firn column processes are typically modeled. Here, we present new simulations of firn processes over the Greenland and Antarctic ice sheets (GrIS and AIS) using the Community Firn Model and atmospheric reanalysis variables for more than four decades. A data set of more than 250 measured depth–density profiles from both ice sheets provides the basis of the calibration of the dry-snow densification scheme. The resulting scheme results in a reduction in the rate of densification, relative to a commonly used semi-empirical model, through a decreased dependence on the accumulation rate, a proxy for overburden stress. The 1980–2020 modeled firn column runoff, when combined with atmospheric variables from MERRA-2, generates realistic mean integrated surface mass balance values for the Greenland (+390 Gt yr(exp −1)) and Antarctic (+2612 Gt yr(exp −1)) ice sheets when compared to published model-ensemble means. We find that seasonal volume changes associated with firn air content are on average approximately 2.5 times larger than those associated with mass fluxes from surface processes for the AIS and 1.5 times larger for the GrIS; however, when averaged over multiple years, ice and air-volume fluctuations within the firn column are of comparable magnitudes. Between 1996 and 2019, the Greenland Ice Sheet lost nearly 5% of its firn air content, indicating a reduction in the total meltwater retention capability. Nearly all (94 %) of the meltwater produced over the Antarctic Ice Sheet is retained within the firn column through infiltration and refreezing.
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