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A 1-D modelling study of Arctic sea-ice salinity
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Zeitschriftentitel: | The Cryosphere |
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Personen und Körperschaften: | , |
In: | The Cryosphere, 9, 2015, 1, S. 305-329 |
Format: | E-Article |
Sprache: | Englisch |
veröffentlicht: |
Copernicus GmbH
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Schlagwörter: |
author_facet |
Griewank, P. J. Notz, D. Griewank, P. J. Notz, D. |
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author |
Griewank, P. J. Notz, D. |
spellingShingle |
Griewank, P. J. Notz, D. The Cryosphere A 1-D modelling study of Arctic sea-ice salinity Earth-Surface Processes Water Science and Technology |
author_sort |
griewank, p. j. |
spelling |
Griewank, P. J. Notz, D. 1994-0424 Copernicus GmbH Earth-Surface Processes Water Science and Technology http://dx.doi.org/10.5194/tc-9-305-2015 <jats:p>Abstract. We use a 1-D model to study how salinity evolves in Arctic sea ice. To do so, we first explore how sea-ice surface melt and flooding can be incorporated into the 1-D thermodynamic Semi-Adaptive Multi-phase Sea-Ice Model (SAMSIM) presented by Griewank and Notz (2013). We introduce flooding and a flushing parametrization which treats sea ice as a hydraulic network of horizontal and vertical fluxes. Forcing SAMSIM with 36 years of ERA-interim atmospheric reanalysis data, we obtain a modelled Arctic sea-ice salinity that agrees well with ice-core measurements. The simulations thus allow us to identify the main drivers of the observed mean salinity profile in Arctic sea ice. Our results show a 1.5–4 g kg−1 decrease of bulk salinity via gravity drainage after ice growth has ceased and before flushing sets in, which hinders approximating bulk salinity from ice thickness beyond the first growth season. In our simulations, salinity interannual variability of first-year ice is mostly restricted to the top 20 cm. We find that ice thickness, thermal resistivity, freshwater column, and stored energy change by less than 5% on average when the full salinity parametrization is replaced with a prescribed salinity profile.</jats:p> A 1-D modelling study of Arctic sea-ice salinity The Cryosphere |
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title |
A 1-D modelling study of Arctic sea-ice salinity |
title_unstemmed |
A 1-D modelling study of Arctic sea-ice salinity |
title_full |
A 1-D modelling study of Arctic sea-ice salinity |
title_fullStr |
A 1-D modelling study of Arctic sea-ice salinity |
title_full_unstemmed |
A 1-D modelling study of Arctic sea-ice salinity |
title_short |
A 1-D modelling study of Arctic sea-ice salinity |
title_sort |
a 1-d modelling study of arctic sea-ice salinity |
topic |
Earth-Surface Processes Water Science and Technology |
url |
http://dx.doi.org/10.5194/tc-9-305-2015 |
publishDate |
2015 |
physical |
305-329 |
description |
<jats:p>Abstract. We use a 1-D model to study how salinity evolves in Arctic sea ice. To do so, we first explore how sea-ice surface melt and flooding can be incorporated into the 1-D thermodynamic Semi-Adaptive Multi-phase Sea-Ice Model (SAMSIM) presented by Griewank and Notz (2013). We introduce flooding and a flushing parametrization which treats sea ice as a hydraulic network of horizontal and vertical fluxes. Forcing SAMSIM with 36 years of ERA-interim atmospheric reanalysis data, we obtain a modelled Arctic sea-ice salinity that agrees well with ice-core measurements. The simulations thus allow us to identify the main drivers of the observed mean salinity profile in Arctic sea ice. Our results show a 1.5–4 g kg−1 decrease of bulk salinity via gravity drainage after ice growth has ceased and before flushing sets in, which hinders approximating bulk salinity from ice thickness beyond the first growth season. In our simulations, salinity interannual variability of first-year ice is mostly restricted to the top 20 cm. We find that ice thickness, thermal resistivity, freshwater column, and stored energy change by less than 5% on average when the full salinity parametrization is replaced with a prescribed salinity profile.</jats:p> |
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author | Griewank, P. J., Notz, D. |
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author_sort | griewank, p. j. |
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container_title | The Cryosphere |
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description | <jats:p>Abstract. We use a 1-D model to study how salinity evolves in Arctic sea ice. To do so, we first explore how sea-ice surface melt and flooding can be incorporated into the 1-D thermodynamic Semi-Adaptive Multi-phase Sea-Ice Model (SAMSIM) presented by Griewank and Notz (2013). We introduce flooding and a flushing parametrization which treats sea ice as a hydraulic network of horizontal and vertical fluxes. Forcing SAMSIM with 36 years of ERA-interim atmospheric reanalysis data, we obtain a modelled Arctic sea-ice salinity that agrees well with ice-core measurements. The simulations thus allow us to identify the main drivers of the observed mean salinity profile in Arctic sea ice. Our results show a 1.5–4 g kg−1 decrease of bulk salinity via gravity drainage after ice growth has ceased and before flushing sets in, which hinders approximating bulk salinity from ice thickness beyond the first growth season. In our simulations, salinity interannual variability of first-year ice is mostly restricted to the top 20 cm. We find that ice thickness, thermal resistivity, freshwater column, and stored energy change by less than 5% on average when the full salinity parametrization is replaced with a prescribed salinity profile.</jats:p> |
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spelling | Griewank, P. J. Notz, D. 1994-0424 Copernicus GmbH Earth-Surface Processes Water Science and Technology http://dx.doi.org/10.5194/tc-9-305-2015 <jats:p>Abstract. We use a 1-D model to study how salinity evolves in Arctic sea ice. To do so, we first explore how sea-ice surface melt and flooding can be incorporated into the 1-D thermodynamic Semi-Adaptive Multi-phase Sea-Ice Model (SAMSIM) presented by Griewank and Notz (2013). We introduce flooding and a flushing parametrization which treats sea ice as a hydraulic network of horizontal and vertical fluxes. Forcing SAMSIM with 36 years of ERA-interim atmospheric reanalysis data, we obtain a modelled Arctic sea-ice salinity that agrees well with ice-core measurements. The simulations thus allow us to identify the main drivers of the observed mean salinity profile in Arctic sea ice. Our results show a 1.5–4 g kg−1 decrease of bulk salinity via gravity drainage after ice growth has ceased and before flushing sets in, which hinders approximating bulk salinity from ice thickness beyond the first growth season. In our simulations, salinity interannual variability of first-year ice is mostly restricted to the top 20 cm. We find that ice thickness, thermal resistivity, freshwater column, and stored energy change by less than 5% on average when the full salinity parametrization is replaced with a prescribed salinity profile.</jats:p> A 1-D modelling study of Arctic sea-ice salinity The Cryosphere |
spellingShingle | Griewank, P. J., Notz, D., The Cryosphere, A 1-D modelling study of Arctic sea-ice salinity, Earth-Surface Processes, Water Science and Technology |
title | A 1-D modelling study of Arctic sea-ice salinity |
title_full | A 1-D modelling study of Arctic sea-ice salinity |
title_fullStr | A 1-D modelling study of Arctic sea-ice salinity |
title_full_unstemmed | A 1-D modelling study of Arctic sea-ice salinity |
title_short | A 1-D modelling study of Arctic sea-ice salinity |
title_sort | a 1-d modelling study of arctic sea-ice salinity |
title_unstemmed | A 1-D modelling study of Arctic sea-ice salinity |
topic | Earth-Surface Processes, Water Science and Technology |
url | http://dx.doi.org/10.5194/tc-9-305-2015 |