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Joachim Meyer
Boise State UniversityMeeting roles in:
Multi-year evaluation of spatially distributed snow water equivalent datasets to aid in operational streamflow forecasting
From Pixels to Operational Forecasting: Assessing a Distributed Process-based Snowmelt Model informed by Remotely Sensed Snow Albedo Across the Upper Colorado River Headwater Basins
The Changing Greenland Ice-bioscape System: New Data, Tools, and Insights
Standardizing SnowEx data discovery and access through a central database and open-source client library
Recent iSnobal Enhancements: Assessing Improvements from an Updated Representation of the Radiative Balance Using Geostationary Satellite Cloud Cover in the Upper Colorado River Basin
Evaluating iSnobal Model Performance in Wildfire-Impacted Basins: the Role of Landcover Parametrizations
Improving Snow Energy Balance Models with In-Situ Observations of Albedo Decay and Recovery Following Colorado’s Cameron Peak Wildfire
Physically Based Modeling to Inform Operational Snowmelt Predictions in the Northeastern United States
Recent iSnobal enhancements: Improving radiation forcing inputs through integrated topographic downscaling and cloud parameterization in the Upper Colorado River Basin
Spatiotemporal Measurements of Snow Density through the Integration of UAV-lidar and Ground-penetrating Radar Surveys
Remote Sensing of the Cryosphere: Seasonal Snow I Oral
Remote Sensing of the Cryosphere: Seasonal Snow II Poster
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