NOAA’s Ocean Acidification Program Research Region
Related Posts
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Synthesis of data products for ocean carbonate chemistry
This review article provides an overview of 68 existing ocean carbonate chemistry data products and data product sets, encompassing a broad range of types, including compilations of cruise datasets, gap-filled observational products, model simulations, and more. It is designed to help researchers identify and access the data products that best support their scientific objectives, thereby
June 4, 2026
Editorial: Time-series observations of ocean acidification: a key tool for documenting impacts on a changing planet
Ocean acidification (OA) is a pressing global issue characterized by fundamental changes in ocean chemistry, including the reduction of pH levels, due to the absorption of increased atmospheric CO2. This phenomenon poses significant threats to marine ecosystems, affecting biodiversity, food security, and coastal economies. Time-series observations remain indispensable for documenting these changes, offering insights into
June 4, 2026
Mineral formation during shipboard ocean alkalinity enhancement experiments in the North Atlantic
Ocean alkalinity enhancement (OAE) is a carbon dioxide (CO2) removal approach that involves the addition of alkaline substances to the marine environment to increase seawater buffering capacity and allow it to absorb more atmospheric CO2. Increasing seawater alkalinity leads to an increase in the saturation state (Ω) with respect to several minerals, which may trigger
June 4, 2026
The importance of engagement with fisheries, aquaculture, and Indigenous communities in the planning and implementation of marine carbon dioxide removal (mCDR)
As climate change continues to increase in severity, the window of time available to achieve climate stabilization decreases. In addition to reducing emissions, climate solutions such as marine carbon dioxide removal (mCDR) are being considered. If mCDR is to scale from research to implementation it will impact various sectors including fisheries and aquaculture. Well-coordinated, co-developed
June 4, 2026
Ocean hypoxia: The science of climate change in the sea
The oxygen inventory of the global ocean is declining. This phenomenon, known as ocean deoxygenation, has emerged as a fundamental pathway for climate change to alter marine ecosystems. An important concern is how this global oxygen decline will manifest in coastal and oceanic systems that are already subject to low oxygen, or hypoxic conditions. There
June 4, 2026
Perspectives on Marine Carbon Dioxide Removal from the Global Ocean Acidification Observing Network
Along with other carbon monitoring groups, the ocean acidification (OA) community has been observing, modeling, and projecting the impacts of changing carbonate chemistry for over two decades. The Global Ocean Acidification Observing Network (GOA-ON) has three key goals related to these issues: (1) improve understanding of global OA conditions, (2) improve understanding of ecosystem responses
January 13, 2026
Regulation of surface carbon dioxide distributions and air–sea fluxes by temperature, biology, and mixing along the North American Atlantic Coastal Ocean Margin
The North American Atlantic Coastal Ocean Margin (NAACOM) was recognized as an atmospheric carbon dioxide (CO2) sink, with large uncertainties in its northern areas due to complex dynamics in controlling the spatiotemporal variability of surface partial pressure of CO2 (pCO2) and limited pCO2 observations. Here, we used a regional reconstructed product to investigate the spatial and seasonal variability
September 2, 2025
OA News
Ocean acidification monitoring priorities report released for Northeast
The Northeast Coastal Acidification Network (NECAN) released six priorities for ocean and coastal acidification monitoring in the Northeast U.S. and Eastern Canada.
August 13, 2025
Related Projects
See our funded projects for this Focus Area
- PI(s): Samantha Siedlecki, University of Connecticut; Shannon Meseck, NOAA National Marine Fisheries Service; Robert Murphy Jr, NOAA National Marine Fisheries Service
- Fiscal Year Funded: 2025, 2026, 2027, 2028
- Grant Award # NA25OARX017C0010-T1-01
This project will enhance the adaptive capacity of the Atlantic sea scallop fishery to ocean acidification and ocean change...
- PI(s): Emily Rivest, Virginia Institute of Marine Science
- Fiscal Year Funded: 2025, 2026, 2027, 2028
- Grant Award # NA25OARX017G0008-T1-01
This project produces a dashboard for Chesapeake Bay users to assist with adaptive strategies for ocean and coastal acidification...
- PI(s): Robert Iles, Louisiana State University
- Fiscal Year Funded: 2025, 2026, 2027
- Grant Award # NA25OARX017G0012-T1-01
This work will assess the economic and community impacts of ocean and coastal acidification within coastal Louisiana to assist adaptive planning...
- PI(s): Hekia Bodwitch (University of Alaska Southeast), Davin Holen (Alaska Sea Grant and University of Alaska, Fairbanks), Kari Lanphier (Southeast Alaska Tribal Ocean Research Consortium)
- Fiscal Year Funded: 2025, 2026, 2027, 2028
- Grant Award # NA25OARX017G0010-T1-01
This project provides tools communities and decision makers in Southeast Alaska can use for assessing vulnerability and resilience to ocean acidification and inform adaptive strategies...
- PI(s): Katherine Mills, Gulf of Maine Research Institute; Jared Wildwistle, Gulf of Maine Research Institute
- Fiscal Year Funded: 2025, 2026, 2027
- Grant Award # NA25OARX017G0019-T1-01
This project assesses the potential risk to the shellfish industry from changing ocean chemistry and is a critical step in advancing resilience in Maine’s shellfisheries...
- PI(s): Jan Newton, University of Washington
- Fiscal Year Funded: 2025, 2026, 2027
- Grant Award # NA25OARX017G0016-T1-01
This project provides practical information and products to support adaptation planning for coastal tribes in Washington...
Related Publications
See publications produced by our funded projects for this Focus Area
- Li-Qing Jiang, Amanda Fay, Jens Daniel Müller, Luke Gregor, Alizée Roobaert, Lydia Keppler, Dustin Carroll, Siv K. Lauvset, Tim DeVries, Judith Hauck, Christian Rödenbeck, Nicolas Metzl, Andrea J. Fassbender, Jean-Pierre Gattuso, Peter Landschützer, Rik Wanninkhof, Christopher Sabine, Simone R. Alin, Mario Hoppema, Are Olsen, Matthew P. Humphreys, Kunal Chakraborty, Ana C. Franco, Kumiko Azetsu-Scott, Dorothee C. E. Bakker, Leticia Barbero, Nicholas R. Bates, Nicole Besemer, Henry C. Bittig, Albert E. Boyd, Daniel Broullón, Wei-Jun Cai, Brendan R. Carter, Thi-Tuyet-Trang Chau, Chen-Tung Arthur Chen, Frédéric Cyr, John E. Dore, Ian Enochs, Richard A. Feely, Hernan E. Garcia, Marion Gehlen, Prasanna Kanti Ghoshal, Lucas Gloege, Melchor González-Dávila, Nicolas Gruber, Debby Ianson, Yosuke Iida, Masao Ishii, Apurva Padamnabh Joshi, Esther Kennedy, Alex Kozyr, Nico Lange, Claire Lo Monaco, Derek P. Manzello, Galen A. McKinley, Natalie M. Monacci, Xose A. Padin, Ana M. Palacio-Castro, Fiz F. Pérez, J. Magdalena Santana-Casiano, Jonathan Sharp, Adrienne Sutton, Jim Swift, Toste Tanhua, Maciej Telszewski, Jens Terhaar, Ruben van Hooidonk, Anton Velo, Andrew J. Watson, Angelicque E. White, Zelun Wu, Liang Xue, Hyelim Yoo, Jiye Zeng, Guorong Zhong
- Earth System Science Data
- February 24, 2026
Citation: Jiang, L.-Q., Fay, A., Müller, J. D., Keppler, L., Carroll, D., Lauvset, S. K., DeVries, T., Hauck, J., Rödenbeck, C., Gregor, L., Metzl, N., Fassbender, A. J., Gattuso, J.-P., Landschützer, P., Wanninkhof, R., Sabine, C., Alin, S. R., Hoppema, M., Olsen, A., . . . Zeng, J. (2025). Synthesis of data products for ocean carbonate chemistry. Earth System Science Data. https://doi.org/10.5194/essd-2025-255
- Masao Ishii, Brendan R. Carter, Katsuya Toyama, Keith B. Rodgers, Richard A. Feely, Thi-Tuyet-Trang Chau, Frédéric Chevallier, Flora Desmet, Luke Gregor, Yosuke Iida, Yoshiteru Kitamura, Jens Daniel Müller, Hiroyuki Tsujino
- Global Biogeochemical Cycles
- May 3, 2025
Citation: Ishii, M., Carter, B. R., Toyama, K., Rodgers, K. B., Feely, R. A., Chau, T.-T.-T., et al. (2025). CO2 uptake in the Pacific from 1985 to 2018: A comparative assessment of observation- and model-based estimates. Global Biogeochemical Cycles, 39, e2024GB008355. https://doi.org/10.1029/2024GB008355
- L. Hošeková, T. Friedrich, B. S. Powell, C. Sabine
- JGR Oceans
- June 14, 2025
Citation: Hošeková, L., Friedrich, T., Powell, B. S., & Sabine, C. (2025). Patterns of ocean acidification emergence in the Hawaiian Islands using dynamically downscaled projections. Journal of Geophysical Research: Oceans, 130, e2024JC021903. https://doi.org/10.1029/2024JC021903
