Why we care Long-term observations of carbonate chemistry at U.S.-affiliated coral reef sites are critical to understanding the impact of ocean acidification (OA) on coral ecosystems over time. The NOAA Coral Reef Conservation Program (CRCP) brings together scientists across NOAA to conduct sustained coastal ocean observations of biological climate and socioeconomic indicators in 10 priority U.S. coral reef areas.
What we are doing This project will provide high-quality carbonate chemistry data at a newly established National Coral Reef Monitoring Plan (NCRMP) monitoring site in Fagatele Bay, American Samoa. Using an interdisciplinary approach, scientists will collect, process, analyze, and steward continuous ocean acidification data. Observations of the carbonate system, the ocean’s buffering system, will be collected via a Moored Autonomous pCO2 (MApCO2) buoy providing freely-available high-quality carbon dioxide data that can then be used by project collaborators and partners to further research.
Benefits of our work The outcomes generated from this monitoring project will advance our understanding of the carbon cycle of coral reefs in American Samoa and the impacts to coral ecosystems. Ocean acidification data will help elucidate the natural biogeochemical influences at reefs, and can be used to determine if the magnitude of acidification occurring in the open ocean is also occurring on coral reefs.
Why we care Long-term observations of carbonate chemistry at U.S.-affiliated coral reef sites are critical to understanding the impact of ocean acidification on coral ecosystems over time.
What we are doing Incorporating an interdisciplinary approach, this project will collect, process, analyze, and steward continuous data measuring parts of ocean carbonate system, the ocean’s buffering system. Specifically, this project will include partial pressure of carbon dioxide, pH (measure of acidity), dissolved inorganic carbon (DIC) and total alkalinity to document seawater carbonate chemistry at a newly established climate monitoring site in Fagatele Bay, American Sāmoa.
Benefits of our work This work produces long-term, continuous, high-quality data of seawater carbonate chemistry needed to track where and how ocean chemistry is changing. The work will initially provide an increased understanding of the natural biogeochemical influences of reef carbon dioxide. In the future, this work will help determine if the magnitude of acidification occurring in the open ocean is also occurring at coral reefs. The buoy at this site will provide freely-available, high-quality carbon dioxide data people can use to better understand the carbon cycle of coral reefs in American Sāmoa and the impacts to coral ecosystems. This will be the only southern hemisphere Class III site in both the Atlantic and Pacific, spanning a large latitudinal gradient.
The long-term observations of carbonate chemistry at U.S.-affiliated coral reef sites are critical to understanding the impact of ocean acidification (OA) on coral ecosystems over time. This effort addresses NOAA’s Ocean Acidification Program (OAP) requirements for Monitoring of Ocean Chemistry by building and maintaining the coral reef portion of the OA monitoring network. This supports funding shortfalls associated with the NCRMP Class III MAPCO2 buoys at Cheeca Rocks and Kaneohoe Bay. Furthermore, this provides resources for the procurement of a new MAPCO2 buoy slated for deployment in Fagatele Bay, American Samoa in FY18, to establish the 2nd of three planned NCRMP Class III sites in the U.S. Pacific.