Recent changes in energy and freshwater budgets for the Godthåbsfjord catchment simulated in a 5 km regional climate model

Freshwater input to the Godthåbsfjord (Southwest Greenland) is analyzed with special attention on the melt and runoff from the ice sheet. We use the high resolution (5.5 km) HIRHAM5 regional climate model covering all of Greenland, forced by the ERA-Interim reanalysis at the lateral boundaries over...

Full description

Bibliographic Details
Main Authors: Langen, P. L., Mottram, R., Christensen, J. H., Boberg, F., Rodehacke, C. B., Stendel, M., van As, D., Ahlstrom, A. P., Mortensen, J., Rysgaard, S., Petersen, D., Svendsen, K. H., Adalgeirsdottir, G., Cappelen, J.
Format: Article in Journal/Newspaper
Language:English
Published: 2014
Subjects:
0750 Sea ice
CRYOSPHERE
0758 Remote sensing
0760 Engineering
0776 Glaciology
Greenland
glacier
Godthåbsfjord
Ice Sheet
North Greenland
Sea ice
Online Access:https://pure.au.dk/portal/da/publications/recent-changes-in-energy-and-freshwater-budgets-for-the-godthaabsfjord-catchment-simulated-in-a-5-km-regional-climate-model(acc4bc59-1b97-49ee-b18b-6aaa6c1420d0).html
http://adsabs.harvard.edu/abs/2014AGUFM.C51B0259L
id ftuniaarhuspubl:oai:pure.atira.dk:publications/acc4bc59-1b97-49ee-b18b-6aaa6c1420d0
record_format openpolar
spelling ftuniaarhuspubl:oai:pure.atira.dk:publications/acc4bc59-1b97-49ee-b18b-6aaa6c1420d0 2023-05-15T16:21:26+02:00 Recent changes in energy and freshwater budgets for the Godthåbsfjord catchment simulated in a 5 km regional climate model Langen, P. L. Mottram, R. Christensen, J. H. Boberg, F. Rodehacke, C. B. Stendel, M. van As, D. Ahlstrom, A. P. Mortensen, J. Rysgaard, S. Petersen, D. Svendsen, K. H. Adalgeirsdottir, G. Cappelen, J. 2014-12-01 https://pure.au.dk/portal/da/publications/recent-changes-in-energy-and-freshwater-budgets-for-the-godthaabsfjord-catchment-simulated-in-a-5-km-regional-climate-model(acc4bc59-1b97-49ee-b18b-6aaa6c1420d0).html http://adsabs.harvard.edu/abs/2014AGUFM.C51B0259L eng eng info:eu-repo/semantics/restrictedAccess Langen , P L , Mottram , R , Christensen , J H , Boberg , F , Rodehacke , C B , Stendel , M , van As , D , Ahlstrom , A P , Mortensen , J , Rysgaard , S , Petersen , D , Svendsen , K H , Adalgeirsdottir , G & Cappelen , J 2014 , ' Recent changes in energy and freshwater budgets for the Godthåbsfjord catchment simulated in a 5 km regional climate model ' , American Geophysical Union, Fall Meeting 2014, abstract #C51B-0259 , vol. 51 , pp. 259 . < http://adsabs.harvard.edu/abs/2014AGUFM.C51B0259L > 0750 Sea ice CRYOSPHERE 0758 Remote sensing 0760 Engineering 0776 Glaciology article 2014 ftuniaarhuspubl 2023-03-08T23:55:44Z Freshwater input to the Godthåbsfjord (Southwest Greenland) is analyzed with special attention on the melt and runoff from the ice sheet. We use the high resolution (5.5 km) HIRHAM5 regional climate model covering all of Greenland, forced by the ERA-Interim reanalysis at the lateral boundaries over the period 1989-2012. The horizontal model resolution (5.5 km) allows a high degree of detail in the representation of topography and surface types. This makes the model particularly suited for local catchment-scale analysis. The model output is compared to a range of different hydro-meteorological observations both on and off the ice sheet and is found to represent weather variability well. During this period, the ice sheet up to elevations of 2000 m experienced increasing energy input from the surface turbulent heat flux and the ice sheet above 1000 m experienced increasing energy input due to shortwave radiation. Large-scale trends show an increase in atmospheric pressure over North Greenland, southerly wind anomalies and declining cloudiness. These factors contributed to increased summer melt, which outweighed changes in annual accumulation, resulting in a decline in surface mass balance (SMB) and upward migration of the equilibrium line of more than 100 m. The associated increase in runoff to Godthåbsfjord dominates over changes in precipitation directly over the fjord and surface runoff from non-glacier land. Regressing simulated SMB on observed temperature and precipitation, we reconstruct SMB back to 1955. In this 58-year perspective, the recent SMB changes are found to be unprecedented. While low SMB has occurred before, this has previously been driven by low precipitation. The current low SMB, on the other hand, is driven by increased melting. Article in Journal/Newspaper glacier Godthåbsfjord Greenland Ice Sheet North Greenland Sea ice Aarhus University: Research Greenland
institution Open Polar
collection Aarhus University: Research
op_collection_id ftuniaarhuspubl
language English
topic 0750 Sea ice
CRYOSPHERE
0758 Remote sensing
0760 Engineering
0776 Glaciology
spellingShingle 0750 Sea ice
CRYOSPHERE
0758 Remote sensing
0760 Engineering
0776 Glaciology
Langen, P. L.
Mottram, R.
Christensen, J. H.
Boberg, F.
Rodehacke, C. B.
Stendel, M.
van As, D.
Ahlstrom, A. P.
Mortensen, J.
Rysgaard, S.
Petersen, D.
Svendsen, K. H.
Adalgeirsdottir, G.
Cappelen, J.
Recent changes in energy and freshwater budgets for the Godthåbsfjord catchment simulated in a 5 km regional climate model
topic_facet 0750 Sea ice
CRYOSPHERE
0758 Remote sensing
0760 Engineering
0776 Glaciology
description Freshwater input to the Godthåbsfjord (Southwest Greenland) is analyzed with special attention on the melt and runoff from the ice sheet. We use the high resolution (5.5 km) HIRHAM5 regional climate model covering all of Greenland, forced by the ERA-Interim reanalysis at the lateral boundaries over the period 1989-2012. The horizontal model resolution (5.5 km) allows a high degree of detail in the representation of topography and surface types. This makes the model particularly suited for local catchment-scale analysis. The model output is compared to a range of different hydro-meteorological observations both on and off the ice sheet and is found to represent weather variability well. During this period, the ice sheet up to elevations of 2000 m experienced increasing energy input from the surface turbulent heat flux and the ice sheet above 1000 m experienced increasing energy input due to shortwave radiation. Large-scale trends show an increase in atmospheric pressure over North Greenland, southerly wind anomalies and declining cloudiness. These factors contributed to increased summer melt, which outweighed changes in annual accumulation, resulting in a decline in surface mass balance (SMB) and upward migration of the equilibrium line of more than 100 m. The associated increase in runoff to Godthåbsfjord dominates over changes in precipitation directly over the fjord and surface runoff from non-glacier land. Regressing simulated SMB on observed temperature and precipitation, we reconstruct SMB back to 1955. In this 58-year perspective, the recent SMB changes are found to be unprecedented. While low SMB has occurred before, this has previously been driven by low precipitation. The current low SMB, on the other hand, is driven by increased melting.
format Article in Journal/Newspaper
author Langen, P. L.
Mottram, R.
Christensen, J. H.
Boberg, F.
Rodehacke, C. B.
Stendel, M.
van As, D.
Ahlstrom, A. P.
Mortensen, J.
Rysgaard, S.
Petersen, D.
Svendsen, K. H.
Adalgeirsdottir, G.
Cappelen, J.
author_facet Langen, P. L.
Mottram, R.
Christensen, J. H.
Boberg, F.
Rodehacke, C. B.
Stendel, M.
van As, D.
Ahlstrom, A. P.
Mortensen, J.
Rysgaard, S.
Petersen, D.
Svendsen, K. H.
Adalgeirsdottir, G.
Cappelen, J.
author_sort Langen, P. L.
title Recent changes in energy and freshwater budgets for the Godthåbsfjord catchment simulated in a 5 km regional climate model
title_short Recent changes in energy and freshwater budgets for the Godthåbsfjord catchment simulated in a 5 km regional climate model
title_full Recent changes in energy and freshwater budgets for the Godthåbsfjord catchment simulated in a 5 km regional climate model
title_fullStr Recent changes in energy and freshwater budgets for the Godthåbsfjord catchment simulated in a 5 km regional climate model
title_full_unstemmed Recent changes in energy and freshwater budgets for the Godthåbsfjord catchment simulated in a 5 km regional climate model
title_sort recent changes in energy and freshwater budgets for the godthåbsfjord catchment simulated in a 5 km regional climate model
publishDate 2014
url https://pure.au.dk/portal/da/publications/recent-changes-in-energy-and-freshwater-budgets-for-the-godthaabsfjord-catchment-simulated-in-a-5-km-regional-climate-model(acc4bc59-1b97-49ee-b18b-6aaa6c1420d0).html
http://adsabs.harvard.edu/abs/2014AGUFM.C51B0259L
geographic Greenland
geographic_facet Greenland
genre glacier
Godthåbsfjord
Greenland
Ice Sheet
North Greenland
Sea ice
genre_facet glacier
Godthåbsfjord
Greenland
Ice Sheet
North Greenland
Sea ice
op_source Langen , P L , Mottram , R , Christensen , J H , Boberg , F , Rodehacke , C B , Stendel , M , van As , D , Ahlstrom , A P , Mortensen , J , Rysgaard , S , Petersen , D , Svendsen , K H , Adalgeirsdottir , G & Cappelen , J 2014 , ' Recent changes in energy and freshwater budgets for the Godthåbsfjord catchment simulated in a 5 km regional climate model ' , American Geophysical Union, Fall Meeting 2014, abstract #C51B-0259 , vol. 51 , pp. 259 . < http://adsabs.harvard.edu/abs/2014AGUFM.C51B0259L >
op_rights info:eu-repo/semantics/restrictedAccess
_version_ 1766009430051127296

Similar Items