Partner: University of Maryland
- PI(s): Jeremy Testa
- Fiscal Year Funded: 2023, 2024, 2025
- Grant Award # NA23OAR0170517
This project will evaluate the feasibility, cost, and potential for carbon dioxide removal by alkalinity addition via existing wastewater treatment discharges...
- PI(s): Cristina Schultz
- Fiscal Year Funded: 2023, 2024, 2025, 2026
- Grant Award # NA23OAR0170511
This project will develop a modeling framework capable of resolving a range of marine carbon dioxide removal concerns related to durability, additionality, verifiability, and other aspects of sediment processes in..
- PI(s): Jeremy Testa
- Fiscal Year Funded: 2018
- Grant Award # NA15NOS4780184
- Partners: University of Maryland
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Publication(s):
- Decoupling of Estuarine Hypoxia and Acidification as Revealed by Historical Water Quality Data
- Eutrophication, Harmful Algae, Oxygen Depletion, and Acidification
- Assessing drivers of estuarine pH: A comparative analysis of the continental U.S.A.’s two largest estuaries
- Chesapeake Bay acidification buffered by spatially decoupled carbonate mineral cycling
- Understanding Anthropogenic Impacts on pH and Aragonite Saturation State in Chesapeake Bay: Insights From a 30-Year Model Study
The wild oyster industry has suffered repeated collapses in the Chesapeake Bay due to overharvesting, disease, and declining environmental conditions. How future conditions will affect the Eastern oyster remain uncertain,..