Science Summary: Ocean acidification, most generally described as resulting from the uptake of atmospheric carbon dioxide by surface ocean waters, has importance consequences for ocean chemistry and for marine organisms. Understanding these changes and their consequences requires an understanding of the complex chemistry of the dissolved carbon dioxide (or carbonate) system in seawater, and the ability to accurately and precisely measure small changes in carbonate system parameters. Such measurements require specialized training and are beyond the specific expertise of many investigators who would like to pursue research related to ocean acidification. This project will support the development of a portable, automated instrument that will enable investigators with limited backgrounds in chemistry to collect high-quality carbon-system data, providing essential quantitative context for their ocean acidification research. The sensor will be a compact, relatively low-cost, robust instrument designed to collect pH, total dissolved inorganic carbon, and total alkalinity data from discrete samples, shore-based stations, and a variety of surface platforms.
The specific objective of this proposal is to develop a third-generation "Multi-parameter Inorganic Carbon Analyzer" (MICA III), which will enable straightforward measurements of dissolved inorganic carbon (DIC), total alkalinity (TA), and pH in the field. This multi-parameter sensor will be easy to operate and highly portable, with virtually no supporting infrastructure requirements. The underlying carbon system measurement protocols were previously demonstrated in the field using MICA I. DIC and pH will constitute the fundamental pairing from which other parameters (the partial pressure of CO2, TA, and carbonate ion concentration) will be calculated. An additional directly measured parameter (TA) will allow assessments of internal thermodynamic consistency among our calculated and measured properties. To enable TA measurements within a compact instrument, the investigators will use a novel equilibration design as an alternative to the standard titration methods. With this approach, they plan to substantially simplify the instrument, eliminating requirements for highly precise acid metering. State-of-the-art optical, mechanical, and electrical design software will be employed in conjunction with laboratory and field tests, using an iterative approach to develop and refine the design of MICA III over a three-year period. One of the intended impacts of this project - generating awareness of ocean acidification - will be realized in three ways. First, by developing a technology to substantially facilitate carbon-system measurements, this project will enable researchers with diverse objectives to collect and disseminate observations of the carbon system on a much larger scale. Since the proposed technology is fully consistent with best-practice protocols, results from different investigations will be directly comparable in terms of their chemical context. In turn, this will reduce uncertainties surrounding observations and interpretations. Second, the proposed activities include development of an ocean acidification discussion and technology demonstration. This discussion will be presented to students at the new Cousteau Center for Marine Studies at the Canterbury School and at the St. Petersburg Science Festival, both in St. Petersburg, Florida. The Science Festival is a locally sponsored event for the general public with attendance of about 12,000-15,000 residents. Finally, the results of this project will be published in peer-reviewed journals and presented at national meetings. Field data and associated metadata collected during this effort will be submitted to the Biological and Chemical Oceanography Data Management Office, which will also archive the data in the appropriate national archive facility.
Logistics Summary: This collaborative project between Short (1414599, SRI) and Byrne (1414586, USF) will develop a third-generation multi-parameter inorganic carbon analyzer (MICA III), which will enable straightforward measurements of dissolved inorganic carbon (DIC), total alkalinity (TA), and pH in the field. The PI will develop a carbon analyzer and will use field tests aboard research cruises to evaluate. All field work will occur in concert w/ PI's participation on NOAA-sponsored field expeditions (Byrne) and the PIs NSF-funded evaluation of marine CO2 thermodynamics (OCE 1220289).
Instrumentation development only, no Arctic fieldwork was conducted.
Parameters used to generate this report:, Grant# = "1414599", IPY = "ALL"
Number of projects returned based on your query parameters = 1