“Happy Holidays! BCO-DMO will be on break from 23 December to 2 January 2025. Submissions and questions will still be accepted, however our responses may be delayed during this time.”

Dataset: Carbon Survey
Deployment: USJGOFS_SMP

Carbon Survey data: ALK, DIC, pCO2, pH, air-sea pCO2
Co-Principal Investigator: 
Dr John L. Bullister (National Oceanic and Atmospheric Administration, NOAA-PMEL)
Richard A. Feely (National Oceanic and Atmospheric Administration, NOAA-PMEL)
Dr Robert Key (Princeton University)
Dr Alex Kozyr (University of Tennessee)
Frank Millero (University of Miami Rosenstiel School of Marine and Atmospheric Science, UM-RSMAS)
Dr Tsung-Hung Peng (National Oceanic and Atmospheric Administration, NOAA-AOML)
Christopher L. Sabine (National Oceanic and Atmospheric Administration, NOAA-PMEL)
Dr Rik H. Wanninkhof (National Oceanic and Atmospheric Administration, NOAA-AOML)
BCO-DMO Data Manager: 
Cynthia L. Chandler (Woods Hole Oceanographic Institution, WHOI BCO-DMO)
Version: 
19 July 2002
Version Date: 
2002-07-19
Description

The DOE/NOAA cosponsored global carbon survey produced over an order of magnitude more high-quality carbon measurements than previous survey efforts. These data provide an important asset to the scientific community investigating carbon cycling in the oceans.Most of the data have been reported to national archive facilities, but have not been synthesized into a unified, internally consistent global data set. The central objective of this proposal is to generate that unified data set and to determine the global distribution and inventories of both natural and anthropogenic carbon species. These estimates will be used to infer the rate of anthropogenic CO2 uptake in the oceans and to evaluate numerical ocean carbon models. These estimates also provide an important benchmark against which future observational studies will be compared.

To accomplish this task, a number of additional products will be generated which will directly benefit the scientific community. The first will be improved global estimates of thermocline ventilation rates and chlorofluorocarbon-based water mass ages. We will also provide empirical equations for estimating surface carbon distributions from conservative parameters and a field-based evaluation of the carbon dissociation constants. A careful examination of the new data set will allow us to evaluate optimal sampling strategies for the future and an evaluation of the technology necessary to properly address remaining questions on the cycling of carbon in the oceans. This work will directly address the OACES and DOE goals of improving our ability to observe, understand, predict, and respond to changes in the global environment.

CDIAC data download site: http://cdiac.ornl.gov/oceans/glodap/data_files.html

More information about this dataset deployment