17 citations as recorded by crossref.

1. The Berchtesgaden National Park (Bavaria, Germany): a platform for interdisciplinary catchment research T. Marke et al.
2. openAMUNDSEN v1.0: an open-source snow-hydrological model for mountain regions U. Strasser et al.
3. Scenarios of Future Snow Conditions in Styria (Austrian Alps) T. Marke et al.
4. Canopy effects on snow sublimation from a central Arizona Basin B. Svoma
5. ‘Teflon Basin’ or Not? A High-Elevation Catchment Transit Time Modeling Approach J. Schmieder et al.
6. Inverse modelling of snow depths U. Schlink & D. Hertel
7. Effect of meteorological forcing and snow model complexity on hydrological simulations in the Sieber catchment (Harz Mountains, Germany) K. Förster et al.
8. ESCIMO.spread (v2): parameterization of a spreadsheet-based energy balance snow model for inside-canopy conditions T. Marke et al.
9. 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. Snowmelt modelling aspects in urban areas R. Dobre et al.
11. Temperature conditions of snow mass and snow melting features in urban environments M. Mikhalev & V. Lobkina
12. Targeting high robustness in snowpack modeling for Nordic hydrological applications in limited data conditions A. Mas et al.
13. Rigorous evaluation of a soil heat transfer model for mesoscale climate change impact studies M. Muerth & W. Mauser
14. Reevaluation of transit time distributions, mean transit times and their relation to catchment topography S. Seeger & M. Weiler
15. 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.
16. What Can We Learn from Comparing Glacio-Hydrological Models? E. Stoll et al.
17. Variability of Observed Energy Fluxes during Rain-on-Snow and Clear Sky Snowmelt in a Midlatitude Mountain Environment J. Garvelmann et al.