Contrasting trends in floods for two sub-arctic catchments in northern Sweden – does glacier presence matter?

Our understanding is limited to how transient changes in glacier response to climate warming will influence the catchment hydrology in the Arctic and Sub-Arctic. This understanding is particularly incomplete for flooding extremes because understanding the frequency of such unusual events requires lo...

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Published in:Hydrology and Earth System Sciences
Main Authors: Dahlke, H. E., Lyon, S. W., Stedinger, J. R., Rosqvist, G., Jansson, P.
Format: Text
Language:English
Published: 2018
Subjects:
Abisko
Arctic
Kendall
Tarfala
North Atlantic
North Atlantic oscillation
Northern Sweden
permafrost
Online Access:https://doi.org/10.5194/hess-16-2123-2012
https://www.hydrol-earth-syst-sci.net/16/2123/2012/
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spelling ftcopernicus:oai:publications.copernicus.org:hess13871 2023-05-15T12:59:26+02:00 Contrasting trends in floods for two sub-arctic catchments in northern Sweden – does glacier presence matter? Dahlke, H. E. Lyon, S. W. Stedinger, J. R. Rosqvist, G. Jansson, P. 2018-09-27 application/pdf https://doi.org/10.5194/hess-16-2123-2012 https://www.hydrol-earth-syst-sci.net/16/2123/2012/ eng eng doi:10.5194/hess-16-2123-2012 https://www.hydrol-earth-syst-sci.net/16/2123/2012/ eISSN: 1607-7938 Text 2018 ftcopernicus https://doi.org/10.5194/hess-16-2123-2012 2019-12-24T09:56:10Z Our understanding is limited to how transient changes in glacier response to climate warming will influence the catchment hydrology in the Arctic and Sub-Arctic. This understanding is particularly incomplete for flooding extremes because understanding the frequency of such unusual events requires long records of observation not often available for the Arctic and Sub-Arctic. This study presents a statistical analysis of trends in the magnitude and timing of flood extremes and the mean summer discharge in two sub-arctic catchments, Tarfala and Abisko, in northern Sweden. The catchments have different glacier covers (30% and 1%, respectively). Statistically significant trends (at the 5% level) were identified for both catchments on an annual and on a seasonal scale (3-months averages) using the Mann-Kendall trend test. Stationarity of flood records was tested by analyzing trends in the flood quantiles, using generalized least squares regression. Hydrologic trends were related to observed changes in the precipitation and air temperature, and were correlated with 3-months averaged climate pattern indices (e.g. North Atlantic oscillation). Both catchments showed a statistically significant increase in the annual mean air temperature over the comparison time period of 1985–2009 (Tarfala and Abisko p <0.01), but did not show significant trends in the total precipitation (Tarfala p = 0.91, Abisko p = 0.44). Despite the similar climate evolution over the studied period in the two catchments, data showed contrasting trends in the magnitude and timing of flood peaks and the mean summer discharge. Hydrologic trends indicated an amplification of the streamflow and flood response in the highly glacierized catchment and a dampening of the response in the non-glacierized catchment. The glacierized mountain catchment showed a statistically significant increasing trend in the flood magnitudes ( p = 0.04) that is clearly correlated to the occurrence of extreme precipitation events. It also showed a significant increase in mean summer discharge ( p = 0.0002), which is significantly correlated to the decrease in glacier mass balance and the increase in air temperature ( p = 0.08). Conversely, the non-glacierized catchment showed a significant decrease in the mean summer discharge ( p = 0.01), the flood magnitudes ( p = 0.07) and an insignificant trend towards earlier flood occurrences ( p = 0.53). These trends are explained by a reduction of the winter snow pack due to higher temperatures in the winter and spring and an increasing soil water storage capacity or catchment storage due to progressively thawing permafrost. Text Abisko Arctic North Atlantic North Atlantic oscillation Northern Sweden permafrost Tarfala Copernicus Publications: E-Journals Abisko ENVELOPE(18.829,18.829,68.349,68.349) Arctic Kendall ENVELOPE(-59.828,-59.828,-63.497,-63.497) Tarfala ENVELOPE(18.608,18.608,67.914,67.914) Hydrology and Earth System Sciences 16 7 2123 2141
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description Our understanding is limited to how transient changes in glacier response to climate warming will influence the catchment hydrology in the Arctic and Sub-Arctic. This understanding is particularly incomplete for flooding extremes because understanding the frequency of such unusual events requires long records of observation not often available for the Arctic and Sub-Arctic. This study presents a statistical analysis of trends in the magnitude and timing of flood extremes and the mean summer discharge in two sub-arctic catchments, Tarfala and Abisko, in northern Sweden. The catchments have different glacier covers (30% and 1%, respectively). Statistically significant trends (at the 5% level) were identified for both catchments on an annual and on a seasonal scale (3-months averages) using the Mann-Kendall trend test. Stationarity of flood records was tested by analyzing trends in the flood quantiles, using generalized least squares regression. Hydrologic trends were related to observed changes in the precipitation and air temperature, and were correlated with 3-months averaged climate pattern indices (e.g. North Atlantic oscillation). Both catchments showed a statistically significant increase in the annual mean air temperature over the comparison time period of 1985–2009 (Tarfala and Abisko p <0.01), but did not show significant trends in the total precipitation (Tarfala p = 0.91, Abisko p = 0.44). Despite the similar climate evolution over the studied period in the two catchments, data showed contrasting trends in the magnitude and timing of flood peaks and the mean summer discharge. Hydrologic trends indicated an amplification of the streamflow and flood response in the highly glacierized catchment and a dampening of the response in the non-glacierized catchment. The glacierized mountain catchment showed a statistically significant increasing trend in the flood magnitudes ( p = 0.04) that is clearly correlated to the occurrence of extreme precipitation events. It also showed a significant increase in mean summer discharge ( p = 0.0002), which is significantly correlated to the decrease in glacier mass balance and the increase in air temperature ( p = 0.08). Conversely, the non-glacierized catchment showed a significant decrease in the mean summer discharge ( p = 0.01), the flood magnitudes ( p = 0.07) and an insignificant trend towards earlier flood occurrences ( p = 0.53). These trends are explained by a reduction of the winter snow pack due to higher temperatures in the winter and spring and an increasing soil water storage capacity or catchment storage due to progressively thawing permafrost.
format Text
author Dahlke, H. E.
Lyon, S. W.
Stedinger, J. R.
Rosqvist, G.
Jansson, P.
spellingShingle Dahlke, H. E.
Lyon, S. W.
Stedinger, J. R.
Rosqvist, G.
Jansson, P.
Contrasting trends in floods for two sub-arctic catchments in northern Sweden – does glacier presence matter?
author_facet Dahlke, H. E.
Lyon, S. W.
Stedinger, J. R.
Rosqvist, G.
Jansson, P.
author_sort Dahlke, H. E.
title Contrasting trends in floods for two sub-arctic catchments in northern Sweden – does glacier presence matter?
title_short Contrasting trends in floods for two sub-arctic catchments in northern Sweden – does glacier presence matter?
title_full Contrasting trends in floods for two sub-arctic catchments in northern Sweden – does glacier presence matter?
title_fullStr Contrasting trends in floods for two sub-arctic catchments in northern Sweden – does glacier presence matter?
title_full_unstemmed Contrasting trends in floods for two sub-arctic catchments in northern Sweden – does glacier presence matter?
title_sort contrasting trends in floods for two sub-arctic catchments in northern sweden – does glacier presence matter?
publishDate 2018
url https://doi.org/10.5194/hess-16-2123-2012
https://www.hydrol-earth-syst-sci.net/16/2123/2012/
long_lat ENVELOPE(18.829,18.829,68.349,68.349)
ENVELOPE(-59.828,-59.828,-63.497,-63.497)
ENVELOPE(18.608,18.608,67.914,67.914)
geographic Abisko
Arctic
Kendall
Tarfala
geographic_facet Abisko
Arctic
Kendall
Tarfala
genre Abisko
Arctic
North Atlantic
North Atlantic oscillation
Northern Sweden
permafrost
Tarfala
genre_facet Abisko
Arctic
North Atlantic
North Atlantic oscillation
Northern Sweden
permafrost
Tarfala
op_source eISSN: 1607-7938
op_relation doi:10.5194/hess-16-2123-2012
https://www.hydrol-earth-syst-sci.net/16/2123/2012/
op_doi https://doi.org/10.5194/hess-16-2123-2012
container_title Hydrology and Earth System Sciences
container_volume 16
container_issue 7
container_start_page 2123
op_container_end_page 2141
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