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- PI(s): Adrienne Sutton
- Fiscal Year Funded: 2010
Developing and expanding sensors to improve ocean acidification monitoring
Why we care:
Enhancing our ability to measure water chemistry with the best technology available is essential..
Why we care:
Enhancing our ability to measure water chemistry with the best technology available is essential..
- PI(s): Reginald Blaylock, University of Southern Mississippi
- Fiscal Year Funded: 2021, 2022, 2023, 2024
- Grant Award # NA19OAR0170354
This project brings together scientists and oyster growers to address aquaculture failures from ocean acidification conditions and to improve management and resilience...
- PI(s): Marjy Friedrichs
- Fiscal Year Funded: 2018
- Grant Award # NA18OAR0170430
- Partners: Virginia Institute of Marine Science
Acidification in brackish estuarine environments, such as the Chesapeake Bay, is intensified by coastal inputs such as runoff, atmospheric pollution and freshwater sources. The Chesapeake Bay is home to commercial..
Among the NOAA designated Large Marine Ecosystems, the Gulf
of Mexico (GOM) remains poorly understood in terms of its current OA conditions, despite its
ecological and economic significance...
of Mexico (GOM) remains poorly understood in terms of its current OA conditions, despite its
ecological and economic significance...
The U.S. Northeast Shelf Large Marine Ecosystem, supports some of the nation’s most economically valuable coastal fisheries, yet most of this revenue comes from shellfish that are sensitive to ocean..
- 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,..