NSF-SNSF: Hydrology from Genes: Resolving snow and ice contributions to streamflow using e — NSF Award to Oregon State University
Hydrologic changes, such as shifting precipitation patterns and changing storage in glaciers, snowpacks, groundwater, and soils makes it increasingly complex to forecast water availability. These changes also make it challenging to accurately quantify water flow and storage. Water tracers are commonly used to determine
| Award title | NSF-SNSF: Hydrology from Genes: Resolving snow and ice contributions to streamflow using e |
|---|---|
| Award ID | 2501398 |
| Awardee | Oregon State University |
| City | CORVALLIS |
| State | OR |
| Amount obligated | $439,997 |
| Principal investigator | Stephen Good |
| Program | GVF - Global Venture Fund, WaLCZ-Water, Land, & Crit Zone |
| Start date | 09/01/2025 |
| Abstract | Hydrologic changes, such as shifting precipitation patterns and changing storage in glaciers, snowpacks, groundwater, and soils makes it increasingly complex to forecast water availability. These changes also make it challenging to accurately quantify water flow and storage. Water tracers are commonly used to determine sources of water based on field measurements. Current water tracers, such as ions and isotopes, are often limited in their ability to distinguish between water sources or pathways |
| Source | NSF Awards |
$799/mo
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