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GEOSECS Atlantic Radiocarbon

Published online by Cambridge University Press:  18 July 2016

Minze Stuiver
Affiliation:
Quaternary Isotope Laboratory, University of Washington Seattle, Washington 98195
H G Östlund
Affiliation:
Quaternary Isotope Laboratory, University of Washington Seattle, Washington 98195
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The program called Geochemical Ocean Section Study (GEOSECS) was initiated in 1971 and designed to make an oceanic inventory of chemical constituents in the world oceans, partly as a baseline study for future chemical changes, and partly to investigate large-scale oceanic transport and mixing processes. Measured were hydrographic parameters (salinity, temperature, and oxygen vs depth), the carbonate system, the nutrients, and assorted other constituents with heavy emphasis laid on the radioactive substances, radiocarbon, tritium, and radon.

Type
Research Article
Copyright
Copyright © The American Journal of Science 

References

Broecker, W S, 1979, A revised estimate for the radiocarbon age of North Atlantic deep water: Jour Geophys Research, v 84, no. C6, p 32183226.CrossRefGoogle Scholar
Broecker, W S and Olson, I A, 1961, Lamont radiocarbon measurements VIII: Radiocarbon, v 3, p 176204.Google Scholar
Broecker, W S, Peng, T H, and Engh, Richard, 1980, Modeling the carbon system, in Stuiver, Minze and Kra, Renee, eds, International radiocarbon conference, 10th, Proc: Radiocarbon, v 22, no. 3.Google Scholar
Broecker, W S, Peng, T H, and Stuiver, Minze, 1978, An estimate of the upwelling rate in the equatorial Atlantic based on the distribution of bomb radiocarbon: Jour Geophys Research, v 83, p 61796186.CrossRefGoogle Scholar
Broecker, W S and Takahashi, T, in press, Strategy for the use of bomb produced radiocarbon as a tracer for the uptake of fossil fuel CO2 by the ocean's deep water source regions: Earth Planetary Sci Letters, in press.Google Scholar
Craig, Harmon, 1974, The GEOSECS program: 1972-1973: Earth Planetary Sci Letters, v 23, p 6364.Google Scholar
Fonselius, S and Östlund, H G, 1959, Natural radiocarbon measurements on surface water from the North Atlantic and the Arctic Sea: Tellus, v 11, p 7782.Google Scholar
Östlund, H G, Dorsey, H G, and Rooth, C G, 1974, GEOSECS North Atlantic radiocarbon and tritium results: Earth Planetary Sci Letters, v 23, p 6986.CrossRefGoogle Scholar
Östlund, H G and Stuiver, Minze, 1980, GEOSECS Pacific radiocarbon: Radiocarbon, v 22, no. 1, p 2553.Google Scholar
Quay, P D and Stuiver, Minze, 1980, Vertical advection-diffusion rates in the oceanic thermocline determined from bomb 14C distribution, in Stuiver, Minze and Kra, Renee, eds, International radiocarbon conference, 10th, Proc: Radiocarbon, v 22, no. 2.Google Scholar
Stuiver, Minze, 1976, The 14C distribution in west Atlantic abyssal waters: Earth Planetary Sci Letters, v 32, p 322330.Google Scholar
Stuiver, Minze, 1978, Atmospheric carbon dioxide and carbon reservoir changes: Science, v 199, p 253363.CrossRefGoogle Scholar
Stuiver, Minze, in press, 14C distribution in the Atlantic Ocean: Jour Geophys Research, in press.Google Scholar
Stuiver, Minze, Östlund, H G, and McConnaughy, T A, in press, GEOSECS Atlantic and Pacific 14C distribution, in SCOPE Proc, La Jolla modeling conference, March 1979: New York, John Wiley & Sons, in press.Google Scholar
Stuiver, Minze and Polach, H A, 1977, Discussion: Reporting of 14C data: Radiocarbon, v 19, p 253258.CrossRefGoogle Scholar
Stuiver, Minze and Robinson, S W, 1974, University of Washington GEOSECS North Atlantic Carbon-14 results: Earth Planetary Sci Letters, v 23, p 8790.CrossRefGoogle Scholar
Stuiver, Minze, Robinson, S W, Östlund, H G, and Dorsey, H G, 1974, Carbon-14 calibration between the University of Washington and the University of Miami GEOSECS laboratories: Earth Planetary Sci Letters, v 23, p 6568.Google Scholar