Hughen, K. et al. (2004): (super 14) C activity and global carbon cycle changes over the past 50,000 years

Leg/Site/Hole:
ODP 165
ODP 165 1002
Identifier:
2004-030396
georefid
10.1126/science.1090300
doi
Creator:
Hughen, K.
Woods Hole Oceanographic Institution, Department of Marine Chemistry and Geochemistry,, Woods Hole, MA, United States
author
Lehman, S.
University of Colorado, United States
author
Southon, J.
University of California at Irvine, United States
author
Overpeck, J.
University of Arizona, United States
author
Marchal, O.
author
Herring, C.
author
Turnbull, J.
author
Identification:
(super 14) C activity and global carbon cycle changes over the past 50,000 years
2004
Science
American Association for the Advancement of Science, Washington, DC, United States
303
5655
202-207
A series of (super 14) C measurements in Ocean Drilling Program cores from the tropical Cariaco Basin, which have been correlated to the annual-layer counted chronology for the Greenland Ice Sheet Project 2 (GISP2) ice core, provides a high-resolution calibration of the radiocarbon time scale back to 50,000 years before the present. Independent radiometric dating of events correlated to GISP2 suggests that the calibration is accurate. Reconstructed (super 14) C activities varied substantially during the last glacial period, including sharp peaks synchronous with the Laschamp and Mono Lake geomagnetic field intensity minimal and cosmogenic nuclide peaks in ice cores and marine sediments. Simulations with a geochemical box model suggest that much of the variability can be explained by geomagnetically modulated changes in (super 14) C production rate together with plausible changes in deep-ocean ventilation and the global carbon cycle during glaciation.
English
Serial
Coverage:Geographic coordinates:
North:10.4222
West:-65.1011East: -65.1011
South:10.4222
Quaternary geology; Geochronology; absolute age; accuracy; Arctic region; Atlantic Ocean; atmosphere; C-14; C-14/C-12; calibration; carbon; carbon cycle; Cariaco Basin; Caribbean Sea; Cenozoic; concentration; correlation; dates; dynamics; geochemical cycle; GISP2; Greenland; isotopes; Leg 165; models; North Atlantic; Ocean Drilling Program; ODP Site 1002; paleoclimatology; Quaternary; radioactive isotopes; simulation; stable isotopes; Summit Greenland; variations;
.