Pacific Islands - NOAA Ocean Acidification Program

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Research Regions
Pacific Islands
The Pacific Islands are greatly affected by worldwide ocean changes threatening important coral reefs, species and fisheries that are vital for the economy and culture. Researchers study the direct and indirect effects of ocean acidification to develop ways to manage the impacts on the environment and communities.
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Monitoring OA alongside the health of coral reefs and other marine species
The Pacific Islands region covers a vast area and includes the Exclusive Economic Zones surrounding the State of Hawaiʻi, the Territories of American Samoa and Guam, the Commonwealth of the Northern Marianas Islands, and the U.S. Pacific Remote Island Areas. While much of the region is uninhabited and federally protected, it is home to biologically-diverse coral reef ecosystems and a number of threatened or endangered species. It also supports culturally and economically valuable commercial, subsistence and recreational fisheries. These ecosystems generally experience relatively low levels of local anthropogenic stress. However, global forcing including basin-wide climate variability such as the El Niño Southern Oscillation and the Pacific Decadal Oscillation, and global change significantly impacts this region.
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Tracking progress of ocean acidification research in the Pacific Islands
The Pacific Islands Region includes the Exclusive Economic Zones surrounding the State of Hawai'i, the Territories of American Samoa and Guam, the Commonwealth of the Northern Marianas Islands and the U.S. Pacific Remote Island Areas.
The research goals in the Pacific Islands Region are to:
Maintain existing and develop new ocean acidification monitoring sites co-located with biological surveys of coral reef and broader marine ecosystems to improve understanding of ocean acidification progression and response to be used in real-time forecasts for risk assessment and decision making
Integrate physical, chemical, biological, and ecological data to assess ecosystem-wide direct and indirect impacts of ocean acidification, with an emphasis on key Pacific marine species
Couple environmental, ecological, human-use, and non-use valuation models to assess ocean acidification impacts to human well-being and develop effective ecosystem-based management strategies and relevant science communication tools.
The following charts represent the
mid-point progress
in implementing research actions that focus on the Pacific Islands Region according to the
NOAA Ocean, Coastal, and Great Lakes Acidification Research Plan
NOAA invests in research and activities toward meeting goals that improve our ability to understand and predict environmental change, species and ecosystem to response to changing ocean chemistry, and the human impacts of these changes. The report card below summarizes
progress over the past five years
toward meeting these goals for the Pacific Islands Region, measured by the number of major actions toward meeting this goal: good progress (4+ actions), some progress (1-3 actions) and no known progress.
Good overall progress
Some progress
No known progress
Environmental Change
There are eight environmental change actions: three have good overall progress, four have made some progress and one has no known progress.
Tracking ocean acidification close to shore in the Pacific Islands helps us see how water chemistry changes and affects coral reefs. Combining this with studies of reef life gives us critical information for managing these ecosystems. Expanding ocean monitoring programs in different ocean zones will also improve our understanding and predictions of impacts. Additionally, using data and models to create regional maps can highlight high-risk areas and vulnerable species, aiding in effective planning and policy.
Biological Sensisitivity
There are eight biological sensitivity actions: one has good overall progress, four have made some progress and three have no known progress.
Understanding how ocean acidification affects marine species in the Pacific Islands requires more ecological monitoring, lab experiments on less-studied species, and combining existing data on key species’ responses. While research focuses on coastal and open ocean fisheries and protected species, we need better information on how changing water chemistry impacts their food webs and habitats to manage them effectively. To assess the full effects of ocean acidification and other stressors on marine ecosystems, fisheries, and protected species to improve management, researchers are combining various types of data on a large scale.
Human Dimensions
There are six human dimension actions: five have made some progress and one has no known progress.
Combining environmental and ecological information with how humans use resources in ecosystem models will help us understand how ocean acidification impacts industries and the communities that rely on the ocean in the Pacific Islands. To create effective management strategies for these islands, researchers are looking at trends in biological health, and the communities’ perceptions and vulnerabilities. The goal of this research is to share clear information about ocean acidification and its potential impacts on the environment, economy and society.
Featured Research Projects
Environmental Change
Long-term Assessment of Ocean Acidification and Coral Reef Health
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Biological Sensitivity
Assessing Alkalinity Enhancement on Coral Reef Calcifiers
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Human Dimensions
Aquaculture Research and Outreach Assessing Ocean Acidification Mitigation
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OAP Funded Projects
Fatoata: Sami a Taeao (Tomorrow’s Ocean)
PI(s): Vera Peck, Fatoata
Fiscal Year Funded: 2024, 2025, 2026
Grant Award # NA25OARX017G0001-T1-01
Partners:
Fatoata
National Marine Sanctuary of American Samoa
This project provides new ocean acidification education to communities in American Samoa...
Project Summary >
Patterns, trends, and future projections in Pacific coral reef carbonate budgets
PI(s): Hannah Barkley, NOAA Pacific Islands Fisheries Science Center
Fiscal Year Funded: 2024, 2025, 2026
Partners:
Atlantic Oceanographic & Meteorological Laboratory (AOML)
Cooperative Institute for Marine and Atmospheric Research (CIMAR)
Cooperative Institute For Marine And Atmospheric Studies (CIMAS)
NOAA Pacific Islands Fisheries Science Center
University of Hawaii
This project synthesizes coral reef carbon budget and environmental data to develop decision-support tools for potential management responses in the U.S. Pacific Islands...
Project Summary >
Determining the Influence of Ocean Alkalinity Enhancement on Foraminifera Calcification, Distribution, and Calcium carbonate Production
PI(s): Laura Haynes
Fiscal Year Funded: 2023, 2024, 2025, 2026
Grant Award # NA23OAR0170513
Partners:
Atlantic Oceanographic & Meteorological Laboratory (AOML)
Vassar College
This project examines the effects of different materials used in ocean alkalinity enhancement on foraminifera...
Project Summary >
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Latest Publications
Estimating coral reef carbonate budgets using Structure-from-Motion photogrammetry
Hannah C. Barkley, Ariel A. Halperin, Damaris Torres-Pulliza, Mia S. Lamirand, Courtney S. Couch, Candace E. Alagata, Rebecca M. Weible, Joy N. Smith, Thomas A. Olive, Chris T. Perry
Coral Reefs
April 18, 2025
Citation:
Barkley, H.C., Halperin, A.A., Torres-Pulliza, D. et al. Estimating coral reef carbonate budgets using Structure-from-Motion photogrammetry. Coral Reefs 44, 937–951 (2025). https://doi.org/10.1007/s00338-025-02660-7
Read Summary >
Estimating coral reef carbonate budgets using Structure‑from‑Motion photogrammetry
Coral Reefs
April 18, 2025
Corals
Citation:
Barkley, H.C., Halperin, A.A., Torres-Pulliza, D. et al. Estimating coral reef carbonate budgets using Structure-from-Motion photogrammetry. Coral Reefs 44, 937–951 (2025). https://doi.org/10.1007/s00338-025-02660-7
Read Summary >
Biological Responses to Ocean Acidification Are Changing the Global Ocean Carbon Cycle
R. C. Barrett, B. R. Carter, A. J. Fassbender, B. Tilbrook, R. J. Woosley, K. Azetsu-Scott, R. A. Feely, C. Goyet, M. Ishii, A. Murata, F. F. Pérez
Global Biogeochemical Cycles
March 24, 2025
Citation:
Barrett, R. C., Carter, B. R., Fassbender, A. J., Tilbrook, B., Woosley, R. J., Azetsu-Scott, K., Feely, R. A., Goyet, C., Ishii, M., Murata, A., & Pérez, F. F. (2025). Biological Responses to Ocean Acidification Are Changing the Global Ocean Carbon Cycle. Global Biogeochemical Cycles. https://doi.org/10.1029/2024GB008358
Read Summary >
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Get involved with ocean acidification
The NOAA Ocean Acidification Program exists to meet the ocean acidification research and monitoring needs of the U.S. See how you can get involved to serve your community and participate in cutting-edge research and education and outreach.
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Long-term assessment of ocean acidification and coral reef health
Credit: Julie Bedford, NOAA
The Office for Coastal Management’s
National Coral Reef Monitoring Program
(NCRMP) provides consistent, sustained and long-term measurement of key indicators that gauge the status and trends of U.S. coral reef health. In the Pacific Islands, monitoring of climate change and ocean acidification indicators is led by the
Pacific Islands Fisheries Science Center
and supported by the Ocean Acidification Program. NCRMP monitoring in the region consists of diel carbonate chemistry sampling at fixed sites and discrete carbonate chemistry sampling at fixed and random sites. NCRMP also conducts ocean acidification ecological response monitoring, which include coral growth and calcification, net carbonate accretion and bioerosion rates. Coral reefs provide many ecosystem services like protection from storms and sea level rise and support fisheries and tourism that help safeguard coastal communities and economies.
Assessing alkalinity enhancement on
coral reef calcifiers
Image credit: K. Bahr
Coral reefs are important ecosystems for marine biodiversity and human communities that can be impacted by ocean acidification. In a project supported through the
National Oceanographic Partnership Program
with funding from the Department of Energy, scientists are investigating how ocean alkalinity enhancement may help counteract the effects of ocean acidification. The goal of the research is to understand how Pacific tropical and subtropical corals and crustose coralline algae respond to immediate alkalinity additions and to determine the effects of chronic and acute exposure to ocean alkalinity enhancement. Laboratory and mesocosm experiments will test the mechanisms of calcification under different scenarios, with the goal of informing future coral restoration and ocean alkalinity enhancement activities.
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Aquaculture Research and Outreach Assessing Ocean Acidification Mitigation
Image credit: Maria Haws
The Hilo Bay Research and Training Farm was established in 2011 by researchers to develop shellfish farming in collaboration with non-profit, educational and private sector partners to enhance community benefits. A new project is undertaking research, training and demonstration activities to develop a feasible model for a near-shore integrated multi-trophic aquaculture system that tests the use of four bivalves and limu (native seaweed) for water quality improvement, including ocean acidification mitigation. The project will focus on outreach on key coastal issues, such as water quality and sustainable economic development, and the results will be widely disseminated to interested groups and people throughout Hawai‘i.
More about this work
supported by Hawai’i Sea Grant
Bioeconomic modeling to inform Alaska fisheries management
Image credit: Allen Shimada, NOAA NMFS
Bioeconomic models are a multidisciplinary tool that use oceanography, fisheries science and social science to assess socioeconomic impacts. Funded by the Ocean Acidification Program, researchers at the
Alaska Fisheries Science Center
use a bioeconomic model to study the impacts of ocean acidification on Eastern Bering Sea crab, northern rock sole and Alaska cod. The goal is to predict how ocean acidification will affect abundance yields and income generated by the fisheries. This work informs the potential economic impacts of ocean acidification and future decision making and research planning.
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Effects of ocean acidification and temperature on Alaskan crabs
Image credit: David Csepp, NMFS AKFSC ABL
Long-term declines of red king crab in Bristol Bay, Alaska may be partially attributed to ocean acidification conditions. These impacts may be partially responsible for the fishery closures during the 2021–2022 and 2022–2023 seasons. Researchers found that ocean acidification negatively impacts Alaskan crabs generally by changing physiological processes, decreasing growth, increasing death rates and reducing shell thickness. Funded by the Ocean Acidification Program, scientists at the
Alaska Fisheries Science Center
continue to investigate the responses of early life history stages and study the potential of various Alaska crabs to acclimate to changing conditions. Results will inform models that will use the parameters studied to predict the effects of future ocean acidification on the populations of red king crab in Bristol Bay as well as on the fisheries that depend on them. Fishery managers will better be able to anticipate and manage stocks if changing ocean chemistry affects stock productivity and thus the maximum sustainable yield.
More about this work
Forecasts for Alaska Fisheries
Image credit: Michael Theberge
Understanding seasonal changes in ocean acidification in Alaskan waters and the potential impacts to the multi-billion-dollar fishery sector is a main priority. Through work funded by NOAA’s Ocean Acidification Program, the
Pacific Marine Environmental Laboratory
developed a model capable of depicting past ocean chemistry conditions for the Bering Sea and is now testing the ability of this model to forecast future conditions. This model is being used to develop an ocean acidification indicator provided to fisheries managers in the annual NOAA
Eastern Bering Sea Ecosystem Status Report
ADAPTING TO OCEAN ACIDIFICATION
The NOAA Ocean Acidification Program (OAP) works to prepare society to adapt to the consequences of ocean acidification and conserve marine ecosystems as acidification occurs. Learn more about the
human connections and adaptation strategies
from these efforts.
Adaptation approaches fostered by the OAP include:
FORECASTING
Using models and research to understand the sensitivity of organisms and ecosystems to ocean acidification to make predictions about the future, allowing communities and industries to prepare
MANAGEMENT
Using these models and predictions as tools to facilitate management strategies that will protect marine resources and communities from future changes
TECHNOLOGY DEVELOPMENT
Developing innovative tools to help monitor ocean acidification and mitigate changing ocean chemistry locally
REDUCING OUR CARBON FOOTPRINT
50 more ways to reduce your carbon footprint >
On the Road
Drive fuel-efficient vehicles or choose public transportation. Choose your bike or walk!
Don't sit idle for more than 30 seconds.
Keep your tires properly inflated.
With your Food Choices
Eat local- this helps cut down on production and transport! Reduce your meat and dairy. Compost to avoid food waste ending up in the landfill
With your Food Choices
Make energy-efficient choices for your appliances and lighting. Heat and cool efficiently! Change your air filters and program your thermostat, seal and insulate your home, and support clean energy sources
By Reducing Coastal Acidification
Reduce your use of fertilizers, Improve sewage treatment and run off, and Protect and restore coastal habitats
TAKE ACTION WITH YOUR COMMUNITY
You've taken the first step to learn more about ocean acidification - why not spread this knowledge to your community?
Every community has their unique culture, economy and ecology and what’s at stake from ocean acidification may be different depending on where you live.  As a community member, you can take a larger role in educating the public about ocean acidification. Creating awareness is the first step to taking action.  As communities gain traction, neighboring regions that share marine resources can build larger coalitions to address ocean acidification.  Here are some ideas to get started:
Work with informal educators, such as aquarium outreach programs and local non-profits, to teach the public about ocean acidification. Visit our
Education & Outreach
page to find the newest tools!
Participate in habitat restoration efforts to restore habitats that help mitigate the effects of coastal acidification
Facilitate conversations with local businesses that might be affected by ocean acidification, building a plan for the future.
Partner with local community efforts to mitigate the driver behind ocean acidification  – excess CO2 – such as community supported agriculture, bike & car shares and other public transportation options.
Contact your regional
Coastal Acidification Network (CAN)
to learn how OA is affecting your region and more ideas about how you can get involved in your community
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Taking Community Action