PMEL Programs and Plans
Accomplishments in FY 97 and Plans for FY 98

CFC Tracer Program

Figures (a) CFC-11 section at 170W in 1996, and (b) CFC-11 levels from observations (top) and from a coupled climate model (bottom).

CFC Tracer and Large-Scale Ocean Circulation Program

Accomplishments in FY 97

The development and testing of models models is critical for understanding the present state of the ocean-atmosphere system, quantifying the ocean's role in the uptake of climatically important trace gases such as Carbon Dioxide, and improving predictions of climate change for the coming century.

During FY 97, the PMEL CFC Tracer Group completed work on determining the solubilities of carbon tetrachloride in seawater.

The CFC group worked on the analyses of data collected on a multi-institutional oceanographic expedition in the southwest Pacific on the NOAA Ship Discoverer (CGC96), as part of the World Ocean Circulation Experiment (WOCE) and planned for a long zonal section in the North Atlantic. A variety of physical, chemical and biological measurements were made on these expeditions. The CFC data obtained on these expeditions highlight the rapid uptake of atmospheric gases into these regions, and the CFC signals carried equatorward in abyssal currents of North Atlantic Deep Water, and Antarctic Bottom Water.

The fifth year of a NOAA Atlantic Climate Change Program (ACCP) supported study to monitor variability of dense water formation and ventilation processes in the Greenland-Iceland-Norwegian Seas, using CFCs and helium/tritium as tracers was completed. These studies have shown that the rate of formation of new Greenland Sea Deep Water (GSDW) during the 1980s and early 1990s was drastically lower than that in the 1970s. The near-cessation of the production of this cold, dense water mass by deep convective processes may be the result of decadal-scale changes in surface conditions in the central Greenland Sea.

Collaborative programs begun with researchers at the NOAA/ERL Geophysical Fluid Dynamics Laboratory (GFDL) and at the National Center for Atmospheric Research (NCAR) to utilize the CFC datasets in numerical models of ocean circulation were expanded to include groups involved in the use of CFCs and other tracers to evauate models of oceanic uptake of anthropogenic Carbon Dioxide, as part of the Ocean Carbon Modeling Intercomparison Program. Such comparison studies are critical if we are to have confidence in the ability of such models to predict possible changes in the earth's climate due to release of greenhouse gases or other anthropogenic activities.

CFC Tracer and Large-Scale Ocean Circulation Program

Plans for FY 98

• Improve analytical techniques for measuring CFCs in the atmosphere and ocean.
• Develop improved techniques for the long-term storage of dissolved CFC samples.
• Complete CFC measurements on the trans-Atlantic section along 24 N (NA24N)
• Continue the program to monitor annual variability of dense water formation and ventilation process in the Greenland-Iceland-Norwegian Seas, using CFCs and helium/tritium as tracers.
• Complete analyses of data collected on CGC96 and NA24N expeditions.
• Take the lead on the synthesis of the CFC data collected as part of the WOCE Hydrographic Progam Pacific One-Time Survey(8), in colloboration with other investigators.
• Work jointly with other investigators on a global synthesis of the WOCE CFC data sets.
• Continue interactions with modelers and utilize the CFC results to help evaluate and improve the ability of numerical models to realistically simulate oceanic ventilation processes as well as carbon uptake and transport.