Articles | Volume 3, issue 2
https://doi.org/10.5194/gmd-3-643-2010
© Author(s) 2010. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
https://doi.org/10.5194/gmd-3-643-2010
© Author(s) 2010. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
12 Nov 2010
ESCIMO.spread – a spreadsheet-based point snow surface energy balance model to calculate hourly snow water equivalent and melt rates for historical and changing climate conditions
U. Strasser
Department of Geography, Karl-Franzens University of Graz (KFU), Heinrichstr. 36, 8010 Graz, Austria
T. Marke
Department of Geography, Karl-Franzens University of Graz (KFU), Heinrichstr. 36, 8010 Graz, Austria
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Cited
19 citations as recorded by crossref.
- The Berchtesgaden National Park (Bavaria, Germany): a platform for interdisciplinary catchment research T. Marke et al. 10.1007/s12665-013-2317-z
- openAMUNDSEN v1.0: an open-source snow-hydrological model for mountain regions U. Strasser et al. 10.5194/gmd-17-6775-2024
- Scenarios of Future Snow Conditions in Styria (Austrian Alps) T. Marke et al. 10.1175/JHM-D-14-0035.1
- Canopy effects on snow sublimation from a central Arizona Basin B. Svoma 10.1002/2016JD025184
- ‘Teflon Basin’ or Not? A High-Elevation Catchment Transit Time Modeling Approach J. Schmieder et al. 10.3390/hydrology6040092
- Inverse modelling of snow depths U. Schlink & D. Hertel 10.1016/j.envsoft.2018.01.010
- Effect of meteorological forcing and snow model complexity on hydrological simulations in the Sieber catchment (Harz Mountains, Germany) K. Förster et al. 10.5194/hess-18-4703-2014
- ESCIMO.spread (v2): parameterization of a spreadsheet-based energy balance snow model for inside-canopy conditions T. Marke et al. 10.5194/gmd-9-633-2016
- Snow model comparison to simulate snow depth evolution and sublimation at point scale in the semi-arid Andes of Chile A. Voordendag et al. 10.5194/tc-15-4241-2021
- Snowmelt modelling aspects in urban areas R. Dobre et al. 10.1016/j.proeng.2017.11.138
- Temperature conditions of snow mass and snow melting features in urban environments M. Mikhalev & V. Lobkina 10.1088/1755-1315/324/1/012035
- Targeting high robustness in snowpack modeling for Nordic hydrological applications in limited data conditions A. Mas et al. 10.1016/j.jhydrol.2018.07.071
- Rigorous evaluation of a soil heat transfer model for mesoscale climate change impact studies M. Muerth & W. Mauser 10.1016/j.envsoft.2012.02.017
- Reevaluation of transit time distributions, mean transit times and their relation to catchment topography S. Seeger & M. Weiler 10.5194/hess-18-4751-2014
- Uncertainties in Snowpack Simulations—Assessing the Impact of Model Structure, Parameter Choice, and Forcing Data Error on Point‐Scale Energy Balance Snow Model Performance D. Günther et al. 10.1029/2018WR023403
- What Can We Learn from Comparing Glacio-Hydrological Models? E. Stoll et al. 10.3390/atmos11090981
- Variability of Observed Energy Fluxes during Rain-on-Snow and Clear Sky Snowmelt in a Midlatitude Mountain Environment J. Garvelmann et al. 10.1175/JHM-D-13-0187.1
- Infiltration under snow cover: Modeling approaches and predictive uncertainty J. Meeks et al. 10.1016/j.jhydrol.2016.12.042
- Snow Hydrology in Central Europe L. Holko et al. 10.1111/j.1749-8198.2011.00412.x
17 citations as recorded by crossref.
- The Berchtesgaden National Park (Bavaria, Germany): a platform for interdisciplinary catchment research T. Marke et al. 10.1007/s12665-013-2317-z
- openAMUNDSEN v1.0: an open-source snow-hydrological model for mountain regions U. Strasser et al. 10.5194/gmd-17-6775-2024
- Scenarios of Future Snow Conditions in Styria (Austrian Alps) T. Marke et al. 10.1175/JHM-D-14-0035.1
- Canopy effects on snow sublimation from a central Arizona Basin B. Svoma 10.1002/2016JD025184
- ‘Teflon Basin’ or Not? A High-Elevation Catchment Transit Time Modeling Approach J. Schmieder et al. 10.3390/hydrology6040092
- Inverse modelling of snow depths U. Schlink & D. Hertel 10.1016/j.envsoft.2018.01.010
- Effect of meteorological forcing and snow model complexity on hydrological simulations in the Sieber catchment (Harz Mountains, Germany) K. Förster et al. 10.5194/hess-18-4703-2014
- ESCIMO.spread (v2): parameterization of a spreadsheet-based energy balance snow model for inside-canopy conditions T. Marke et al. 10.5194/gmd-9-633-2016
- Snow model comparison to simulate snow depth evolution and sublimation at point scale in the semi-arid Andes of Chile A. Voordendag et al. 10.5194/tc-15-4241-2021
- Snowmelt modelling aspects in urban areas R. Dobre et al. 10.1016/j.proeng.2017.11.138
- Temperature conditions of snow mass and snow melting features in urban environments M. Mikhalev & V. Lobkina 10.1088/1755-1315/324/1/012035
- Targeting high robustness in snowpack modeling for Nordic hydrological applications in limited data conditions A. Mas et al. 10.1016/j.jhydrol.2018.07.071
- Rigorous evaluation of a soil heat transfer model for mesoscale climate change impact studies M. Muerth & W. Mauser 10.1016/j.envsoft.2012.02.017
- Reevaluation of transit time distributions, mean transit times and their relation to catchment topography S. Seeger & M. Weiler 10.5194/hess-18-4751-2014
- Uncertainties in Snowpack Simulations—Assessing the Impact of Model Structure, Parameter Choice, and Forcing Data Error on Point‐Scale Energy Balance Snow Model Performance D. Günther et al. 10.1029/2018WR023403
- What Can We Learn from Comparing Glacio-Hydrological Models? E. Stoll et al. 10.3390/atmos11090981
- Variability of Observed Energy Fluxes during Rain-on-Snow and Clear Sky Snowmelt in a Midlatitude Mountain Environment J. Garvelmann et al. 10.1175/JHM-D-13-0187.1
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