Modis Snowline Elevation Changes During Snowmelt Runoff Events in Europe

This study evaluates MODIS snow cover characteristics for large number of snowmelt runoff events in 145 catchments from 9 countries in Europe. The analysis is based on open discharge daily time series from the Global Runoff Data Center database and daily MODIS snow cover data. Runoff events are iden...

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Published in	Journal of Hydrology and Hydromechanics Vol. 67; no. 1; pp. 101 - 109
Main Authors	Parajka, Juraj, Bezak, Nejc, Burkhart, John, Hauksson, Bjarki, Holko, Ladislav, Hundecha, Yeshewa, Jenicek, Michal, Krajčí, Pavel, Mangini, Walter, Molnar, Peter, Riboust, Philippe, Rizzi, Jonathan, Sensoy, Aynur, Thirel, Guillaume, Viglione, Alberto
Format	Journal Article
Language	English
Published	Bratislava Sciendo 01.03.2019 De Gruyter Poland Slovenska Akademia Vied, Ustav Hydrologie De Gruyter Open
Subjects	Base flow Base runoff Catchment area Catchments Cloud cover Clouds Duration Elevation Europe Flow separation Hydrologic data Identification MODIS Runoff Runoff events Sciences of the Universe Snow Snow cover Snow cover conditions Snow cover data Snowline Snowline elevation Snowmelt Snowmelt runoff Spatial variations Europe Snowmelt Snowline elevation Runoff events Europe MODIS
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Abstract	This study evaluates MODIS snow cover characteristics for large number of snowmelt runoff events in 145 catchments from 9 countries in Europe. The analysis is based on open discharge daily time series from the Global Runoff Data Center database and daily MODIS snow cover data. Runoff events are identified by a base flow separation approach. The MODIS snow cover characteristics are derived from Terra 500 m observations (MOD10A1 dataset, V005) in the period 2000-2015 and include snow cover area, cloud coverage, regional snowline elevation (RSLE) and its changes during the snowmelt runoff events. The snowmelt events are identified by using estimated RSLE changes during a runoff event. The results indicate that in the majority of catchments there are between 3 and 6 snowmelt runoff events per year. The mean duration between the start and peak of snowmelt runoff events is about 3 days and the proportion of snowmelt events in all runoff events tends to increase with the maximum elevation of catchments. Clouds limit the estimation of snow cover area and RSLE, particularly for dates of runoff peaks. In most of the catchments, the median of cloud coverage during runoff peaks is larger than 80%. The mean minimum RSLE, which represents the conditions at the beginning of snowmelt events, is situated approximately at the mean catchment elevation. It means that snowmelt events do not start only during maximum snow cover conditions, but also after this maximum. The mean RSLE during snowmelt peaks is on average 170 m lower than at the start of the snowmelt events, but there is a large regional variability.
AbstractList	This study evaluates MODIS snow cover characteristics for large number of snowmelt runoff events in 145 catchments from 9 countries in Europe. The analysis is based on open discharge daily time series from the Global Runoff Data Center database and daily MODIS snow cover data. Runoff events are identified by a base flow separation approach. The MODIS snow cover characteristics are derived from Terra 500 m observations (MOD10A1 dataset, V005) in the period 2000–2015 and include snow cover area, cloud coverage, regional snowline elevation (RSLE) and its changes during the snowmelt runoff events. The snowmelt events are identified by using estimated RSLE changes during a runoff event. The results indicate that in the majority of catchments there are between 3 and 6 snowmelt runoff events per year. The mean duration between the start and peak of snowmelt runoff events is about 3 days and the proportion of snowmelt events in all runoff events tends to increase with the maximum elevation of catchments. Clouds limit the estimation of snow cover area and RSLE, particularly for dates of runoff peaks. In most of the catchments, the median of cloud coverage during runoff peaks is larger than 80%. The mean minimum RSLE, which represents the conditions at the beginning of snowmelt events, is situated approximately at the mean catchment elevation. It means that snowmelt events do not start only during maximum snow cover conditions, but also after this maximum. The mean RSLE during snowmelt peaks is on average 170 m lower than at the start of the snowmelt events, but there is a large regional variability. Abstract This study evaluates MODIS snow cover characteristics for large number of snowmelt runoff events in 145 catchments from 9 countries in Europe. The analysis is based on open discharge daily time series from the Global Runoff Data Center database and daily MODIS snow cover data. Runoff events are identified by a base flow separation approach. The MODIS snow cover characteristics are derived from Terra 500 m observations (MOD10A1 dataset, V005) in the period 2000-2015 and include snow cover area, cloud coverage, regional snowline elevation (RSLE) and its changes during the snowmelt runoff events. The snowmelt events are identified by using estimated RSLE changes during a runoff event. The results indicate that in the majority of catchments there are between 3 and 6 snowmelt runoff events per year. The mean duration between the start and peak of snowmelt runoff events is about 3 days and the proportion of snowmelt events in all runoff events tends to increase with the maximum elevation of catchments. Clouds limit the estimation of snow cover area and RSLE, particularly for dates of runoff peaks. In most of the catchments, the median of cloud coverage during runoff peaks is larger than 80%. The mean minimum RSLE, which represents the conditions at the beginning of snowmelt events, is situated approximately at the mean catchment elevation. It means that snowmelt events do not start only during maximum snow cover conditions, but also after this maximum. The mean RSLE during snowmelt peaks is on average 170 m lower than at the start of the snowmelt events, but there is a large regional variability.
Author	Jenicek, Michal Riboust, Philippe Hauksson, Bjarki Viglione, Alberto Hundecha, Yeshewa Holko, Ladislav Thirel, Guillaume Molnar, Peter Bezak, Nejc Sensoy, Aynur Parajka, Juraj Krajčí, Pavel Burkhart, John Mangini, Walter Rizzi, Jonathan
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Cites_doi	10.5194/hess-19-2101-2015 10.1002/wrcr.20532 10.3390/rs4082432 10.1016/j.jhydrol.2017.05.049 10.1126/science.aan2506 10.1002/hyp.7151 10.1002/hyp.6891 10.1002/hyp.5784 10.5194/hessd-11-12531-2014 10.1201/b11279-9 10.1002/(SICI)1099-1085(19990415)13:5<701::AID-HYP774>3.0.CO;2-2 10.5194/hess-16-2365-2012 10.3390/rs70100169 10.1016/j.rse.2011.01.006 10.1080/02626667.2018.1444766 10.5194/hess-10-679-2006 10.2478/johh-2018-0004 10.1002/2013JD021024 10.1007/BF00508898 10.1029/2002WR001952 10.1175/2009JCLI2951.1 10.1016/j.jhydrol.2014.08.064
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Snippet	This study evaluates MODIS snow cover characteristics for large number of snowmelt runoff events in 145 catchments from 9 countries in Europe. The analysis is... Abstract This study evaluates MODIS snow cover characteristics for large number of snowmelt runoff events in 145 catchments from 9 countries in Europe. The...
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StartPage	101
SubjectTerms	Base flow Base runoff Catchment area Catchments Cloud cover Clouds Duration Elevation Europe Flow separation Hydrologic data Identification MODIS Runoff Runoff events Sciences of the Universe Snow Snow cover Snow cover conditions Snow cover data Snowline Snowline elevation Snowmelt Snowmelt runoff Spatial variations
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Title	Modis Snowline Elevation Changes During Snowmelt Runoff Events in Europe
URI	http://www.degruyter.com/doi/10.2478/johh-2018-0011 https://www.proquest.com/docview/2168016735 http://hdl.handle.net/10852/70519 https://hal.sorbonne-universite.fr/hal-01935383 https://doaj.org/article/b9b4d9dc2fce4c26a3fc2f63b95df844
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