A long-term dataset of climatic mass balance, snow conditions, and runoff in Svalbard (1957-2018)

The climate in Svalbard is undergoing amplified change compared to the global mean. This has major implications for runoff from glaciers and seasonal snow on land.We use a coupled energy balance-subsurface model, forced with downscaled regional climate model fields, and apply it to both glacier-cove...

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Main Authors:	Van Pelt, Ward, Pohjola, Veijo, Pettersson, Rickard, Marchenko, Sergey, Kohler, Jack, Luks, Bartłomiej, Ove Hagen, Jon, Schuler, Thomas V., Dunse, Thorben, Noël, Brice, Reijmer, Carleen
Other Authors:	Sub Dynamics Meteorology, Marine and Atmospheric Research
Format:	Article in Journal/Newspaper
Language:	English
Published:	2019
Subjects:	Water Science and Technology Earth-Surface Processes Ela Svalbard glacier
Online Access:	https://dspace.library.uu.nl/handle/1874/385101

id	ftunivutrecht:oai:dspace.library.uu.nl:1874/385101
record_format	openpolar
spelling	ftunivutrecht:oai:dspace.library.uu.nl:1874/385101 2023-11-12T04:17:32+01:00 A long-term dataset of climatic mass balance, snow conditions, and runoff in Svalbard (1957-2018) Van Pelt, Ward Pohjola, Veijo Pettersson, Rickard Marchenko, Sergey Kohler, Jack Luks, Bartłomiej Ove Hagen, Jon Schuler, Thomas V. Dunse, Thorben Noël, Brice Reijmer, Carleen Sub Dynamics Meteorology Marine and Atmospheric Research 2019-09-03 image/pdf https://dspace.library.uu.nl/handle/1874/385101 en eng 1994-0416 https://dspace.library.uu.nl/handle/1874/385101 info:eu-repo/semantics/OpenAccess Water Science and Technology Earth-Surface Processes Article 2019 ftunivutrecht 2023-11-01T23:21:19Z The climate in Svalbard is undergoing amplified change compared to the global mean. This has major implications for runoff from glaciers and seasonal snow on land.We use a coupled energy balance-subsurface model, forced with downscaled regional climate model fields, and apply it to both glacier-covered and land areas in Svalbard. This generates a long-term (1957-2018) distributed dataset of climatic mass balance (CMB) for the glaciers, snow conditions, and runoff with a 1km-1km spatial and 3-hourly temporal resolution. Observational data including stake measurements, automatic weather station data, and subsurface data across Svalbard are used for model calibration and validation. We find a weakly positive mean net CMB (C0.09mw.e. a-1) over the simulation period, which only fractionally compensates for mass loss through calving. Pronounced warming and a small precipitation increase lead to a spatial-mean negative net CMB trend (-0.06mw.e. a-1 decade-1), and an increase in the equilibrium line altitude (ELA) by 17m decade-1, with the largest changes in southern and central Svalbard. The retreating ELA in turn causes firn air volume to decrease by 4% decade-1, which in combination with winter warming induces a substantial reduction of refreezing in both glacier-covered and land areas (average -4% decade-1). A combination of increased melt and reduced refreezing causes glacier runoff (average 34.3 Gt a-1) to double over the simulation period, while discharge from land (average 10.6 Gt a-1) remains nearly unchanged. As a result, the relative contribution of land runoff to total runoff drops from 30% to 20% during 1957-2018. Seasonal snow on land and in glacier ablation zones is found to arrive later in autumn (C1.4 d decade-1), while no significant changes occurred on the date of snow disappearance in spring-summer. Altogether, the output of the simulation provides an extensive dataset that may be of use in a wide range of applications ranging from runoff modelling to ecosystem studies. Article in Journal/Newspaper glacier Svalbard Utrecht University Repository Ela ENVELOPE(9.642,9.642,63.170,63.170) Svalbard
institution	Open Polar
collection	Utrecht University Repository
op_collection_id	ftunivutrecht
language	English
topic	Water Science and Technology Earth-Surface Processes
spellingShingle	Water Science and Technology Earth-Surface Processes Van Pelt, Ward Pohjola, Veijo Pettersson, Rickard Marchenko, Sergey Kohler, Jack Luks, Bartłomiej Ove Hagen, Jon Schuler, Thomas V. Dunse, Thorben Noël, Brice Reijmer, Carleen A long-term dataset of climatic mass balance, snow conditions, and runoff in Svalbard (1957-2018)
topic_facet	Water Science and Technology Earth-Surface Processes
description	The climate in Svalbard is undergoing amplified change compared to the global mean. This has major implications for runoff from glaciers and seasonal snow on land.We use a coupled energy balance-subsurface model, forced with downscaled regional climate model fields, and apply it to both glacier-covered and land areas in Svalbard. This generates a long-term (1957-2018) distributed dataset of climatic mass balance (CMB) for the glaciers, snow conditions, and runoff with a 1km-1km spatial and 3-hourly temporal resolution. Observational data including stake measurements, automatic weather station data, and subsurface data across Svalbard are used for model calibration and validation. We find a weakly positive mean net CMB (C0.09mw.e. a-1) over the simulation period, which only fractionally compensates for mass loss through calving. Pronounced warming and a small precipitation increase lead to a spatial-mean negative net CMB trend (-0.06mw.e. a-1 decade-1), and an increase in the equilibrium line altitude (ELA) by 17m decade-1, with the largest changes in southern and central Svalbard. The retreating ELA in turn causes firn air volume to decrease by 4% decade-1, which in combination with winter warming induces a substantial reduction of refreezing in both glacier-covered and land areas (average -4% decade-1). A combination of increased melt and reduced refreezing causes glacier runoff (average 34.3 Gt a-1) to double over the simulation period, while discharge from land (average 10.6 Gt a-1) remains nearly unchanged. As a result, the relative contribution of land runoff to total runoff drops from 30% to 20% during 1957-2018. Seasonal snow on land and in glacier ablation zones is found to arrive later in autumn (C1.4 d decade-1), while no significant changes occurred on the date of snow disappearance in spring-summer. Altogether, the output of the simulation provides an extensive dataset that may be of use in a wide range of applications ranging from runoff modelling to ecosystem studies.
author2	Sub Dynamics Meteorology Marine and Atmospheric Research
format	Article in Journal/Newspaper
author	Van Pelt, Ward Pohjola, Veijo Pettersson, Rickard Marchenko, Sergey Kohler, Jack Luks, Bartłomiej Ove Hagen, Jon Schuler, Thomas V. Dunse, Thorben Noël, Brice Reijmer, Carleen
author_facet	Van Pelt, Ward Pohjola, Veijo Pettersson, Rickard Marchenko, Sergey Kohler, Jack Luks, Bartłomiej Ove Hagen, Jon Schuler, Thomas V. Dunse, Thorben Noël, Brice Reijmer, Carleen
author_sort	Van Pelt, Ward
title	A long-term dataset of climatic mass balance, snow conditions, and runoff in Svalbard (1957-2018)
title_short	A long-term dataset of climatic mass balance, snow conditions, and runoff in Svalbard (1957-2018)
title_full	A long-term dataset of climatic mass balance, snow conditions, and runoff in Svalbard (1957-2018)
title_fullStr	A long-term dataset of climatic mass balance, snow conditions, and runoff in Svalbard (1957-2018)
title_full_unstemmed	A long-term dataset of climatic mass balance, snow conditions, and runoff in Svalbard (1957-2018)
title_sort	long-term dataset of climatic mass balance, snow conditions, and runoff in svalbard (1957-2018)
publishDate	2019
url	https://dspace.library.uu.nl/handle/1874/385101
long_lat	ENVELOPE(9.642,9.642,63.170,63.170)
geographic	Ela Svalbard
geographic_facet	Ela Svalbard
genre	glacier Svalbard
genre_facet	glacier Svalbard
op_relation	1994-0416 https://dspace.library.uu.nl/handle/1874/385101
op_rights	info:eu-repo/semantics/OpenAccess
_version_	1782334385810309120

A long-term dataset of climatic mass balance, snow conditions, and runoff in Svalbard (1957-2018)

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