Collaborative Research: ULTRA-Data: Developing global riverine solute regime and synchrony — NSF Award to Oregon State University
Rivers are vital to life, providing drinking water and supporting agriculture, recreation, transportation, and fisheries. However, changes on land can alter runoff in ways that negatively impact river ecosystems and water quality. The goal of this research is to better understand and predict changes in river chemistry
| Award title | Collaborative Research: ULTRA-Data: Developing global riverine solute regime and synchrony |
|---|---|
| Award ID | 2454066 |
| Awardee | Oregon State University |
| City | CORVALLIS |
| State | OR |
| Amount obligated | $292,970 |
| Principal investigator | Pamela Sullivan |
| Program | Ecosystem Science |
| Start date | 08/01/2025 |
| Abstract | Rivers are vital to life, providing drinking water and supporting agriculture, recreation, transportation, and fisheries. However, changes on land can alter runoff in ways that negatively impact river ecosystems and water quality. The goal of this research is to better understand and predict changes in river chemistry at the global scale. The investigators will (re)use publicly available water chemistry and flow data from more than 450 rivers across all seven continents. Novel machine learning a |
| Source | NSF Awards |
$799/mo
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