Isotopic Composition of Neodymium in Waters from the Drake Passage
- Creators
- Piepgras, Donald J.
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Wasserburg, G. J.
Abstract
The isotopic composition of neodymium has been determined in seawaters from the Drake Passage. The Antarctic Circumpolar Current, which controls interocean mixing, flows through this passage. The parameter ε_(Nd)(0) which is a function of the ratio of neodymium-143 to neodymium-144, is found to be uniform with depth at two stations with a value which is intermediate between the values for the Atlantic and the Pacific and indicates that the Antarctic Circumpolar current consists of about 70 percent Atlantic water. Cold bottom water from a site in the south central Pacific has the neodymium isotopic signature of the waters in the Drake Passage. By using a box model to describe the exchange of water between the Southern Ocean and the ocean basins to the north together with the isotopic results, an upper limit of approximately 33 million cubic meters per second is calculated for the rate of exchange between the Pacific and the Southern Ocean. Concentrations of samarium and neodymium were also determined and found to increase approximately linearly with depth. These results suggest that neodymium may be a valuable tracer in oceanography and may be useful in paleo-oceanographic studies.
Additional Information
© 1982 American Association for the Advancement of Science. We thank M. S. McCartney of Woods Hole Oceanographic Institution for providing us with the ship time needed to collect the Drake Passage samples and for supplying the results of the CTD measurements made during the cruise. We appreciate the cooperation of the crew of the R.V. Atlantis II during the cruise. We are grateful to K. Bruland for his generous efforts to supply us with the Pacific samples and his continuous support for our work. Numerous discussions with him have greatly aided us in this work. This manuscript has also benefited from discussions with W. S. Broecker, P. Goldreich, A. Piola, J. L. Reid, M. C. Stordal, and C. Wunsch. We thank K. K. Turekian for his careful and scholarly review and for calling our attention to the importance of "particulates" in the transport of trace elements in the marine environment. Comments of an anonymous reviewer have also improved this article. This research was supported in part by grants NSF OCE-8108595, NASA NGL 05-002-188, and NSF PHY 79-23628. Division contribution number 3639 (397). This study was carried out at the Lunatic Asylum of the Charles Arms Laboratory.Additional details
- Eprint ID
- 41212
- Resolver ID
- CaltechAUTHORS:20130910-133017082
- OCE-8108595
- NSF
- NGL 05-002-188
- NASA
- PHY 79-23628
- NSF
- Created
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2013-09-17Created from EPrint's datestamp field
- Updated
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2021-11-10Created from EPrint's last_modified field
- Other Numbering System Name
- Lunatic Asylum Lab
- Other Numbering System Identifier
- 397