EGU24-4160, updated on 08 Mar 2024
https://doi.org/10.5194/egusphere-egu24-4160
EGU General Assembly 2024
© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Water Availability Assessment in the Upper Colorado River Basin

Matthew Miller1, Natalie Day2, Jesse Dickinson3, John Engott4, Casey Jones5, Jacob Knight3, Patrick Longley2, Samuel Lopez6, Melissa Masbruch6, Morgan McDonnell6, Olivia Miller6, Noah Schmadel7, Fred Tillman3, and Daniel Wise7
Matthew Miller et al.
  • 1US Geological Survey, Boulder, Colorado, United States of America (mamiller@usgs.gov)
  • 2U.S. Geological Survey, Grand Junction, Colorado, United States of America
  • 3U.S. Geological Survey, Tucson, Arizona, United States of America
  • 4U.S. Geological Survey, Sacramento, California, United States of America
  • 5U.S. Geological Survey, Columbia, South Carolina, United States of America
  • 6U.S. Geological Survey, Salt Lake City, Utah, United States of America
  • 7U.S. Geological Survey, Portland, Oregon, United States of America

The lack of comprehensive water supply prediction capacity in most areas of the U.S. poses challenges in evaluating water availability. In order to improve water availability prediction and assessment, in 2019, the U.S. Geological Survey initiated planning efforts to intensively study five medium-sized basins throughout the U.S. over the next decade, including the Upper Colorado River Basin (UCOL). Research in the UCOL aims to provide insight into how past, present, and future snow conditions – including amount, timing, melt, and transitions from snow- to rain-dominated systems – impact water supply (quantity and quality) and the ability to meet demand. A specific emphasis is placed on how these processes affect water budget components and dissolved solids concentration and loading in the UCOL. A fully integrated groundwater-surface water hydrologic model (GSFLOW), and temporally dynamic dissolved solids models (SPARROW) that explicitly represent the groundwater contribution to dissolved solids loading to streams are being applied to meet the study objective. Comprehensive information on water diversion and groundwater pumping has been compiled and is being explicitly represented in the models to better represent human demand.  Temporal and spatial patterns in predicted water quantity and quality conditions are being evaluated in the context of past and projected future changes, summarized over 30-year time periods, in snow metrics.  Historical trends in multiple snow metrics, water budget components, groundwater levels, and dissolved solids provide context for evaluations of current conditions and motivation for further investigation and modeling. The tools and concepts developed in the UCOL will contribute to ongoing work in the other regional study basins as well as a forthcoming national water availability assessment. 

How to cite: Miller, M., Day, N., Dickinson, J., Engott, J., Jones, C., Knight, J., Longley, P., Lopez, S., Masbruch, M., McDonnell, M., Miller, O., Schmadel, N., Tillman, F., and Wise, D.: Water Availability Assessment in the Upper Colorado River Basin, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-4160, https://doi.org/10.5194/egusphere-egu24-4160, 2024.