Collaborative Research: Revealing RNA Virus and Host Population Dynamics Across Marine Oxy — NSF Award to Woods Hole Oceanographic
Warmer ocean temperatures are leading to expanding oxygen loss within Earth’s oceans, negatively impacting global fisheries. Microbial processes exacerbate ocean deoxygenation and in low oxygen conditions facilitate the production of gases, including nitrous oxide and methane, that can have feedbacks on atmospheric and
| Award title | Collaborative Research: Revealing RNA Virus and Host Population Dynamics Across Marine Oxy |
|---|---|
| Award ID | 2452072 |
| Awardee | Woods Hole Oceanographic Institution |
| City | WOODS HOLE |
| State | MA |
| Amount obligated | $630,389 |
| Principal investigator | Maria Pachiadaki |
| Program | BIOLOGICAL OCEANOGRAPHY |
| Start date | 09/01/2025 |
| Abstract | Warmer ocean temperatures are leading to expanding oxygen loss within Earth’s oceans, negatively impacting global fisheries. Microbial processes exacerbate ocean deoxygenation and in low oxygen conditions facilitate the production of gases, including nitrous oxide and methane, that can have feedbacks on atmospheric and ocean chemistry. Despite the significant role of microbes, little is known about controls on microbial processes within oxygen-depleted marine waters, including the impact of vira |
| Source | NSF Awards |
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