Collaborative Research: Linking 3He/4He with eruptive behavior: A time series analysis of — NSF Award to Woods Hole Oceanographic
Approximately 800 million people live in regions that are directly exposed to volcanic hazards, yet eruptions remain difficult to forecast. In some cases, earthquakes and ground swelling have been used to predict imminent volcanic eruptions. In other instances, changes in volcanic gas emissions have been used to infer
| Award title | Collaborative Research: Linking 3He/4He with eruptive behavior: A time series analysis of |
|---|---|
| Award ID | 2232531 |
| Awardee | Woods Hole Oceanographic Institution |
| City | WOODS HOLE |
| State | MA |
| Amount obligated | $523,946 |
| Principal investigator | Forrest Horton |
| Program | Petrology and Geochemistry |
| Start date | 02/15/2023 |
| Abstract | Approximately 800 million people live in regions that are directly exposed to volcanic hazards, yet eruptions remain difficult to forecast. In some cases, earthquakes and ground swelling have been used to predict imminent volcanic eruptions. In other instances, changes in volcanic gas emissions have been used to infer changes in volcanic activity because gas emissions are thought to be linked to the ascent of magmas beneath volcanoes preceding eruptions. This project explores the possibility tha |
| Source | NSF Awards |
$799/mo
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