Island weathering: river sources of rare earth elements to the Western Pacific Ocean

This paper focuses on two of the largest rivers and estuaries of Papua New Guinea (PNG), the Fly and Sepik and explores the degree to which river input and estuarine reactions affect the rare earth element (REE) composition of surface sea water in the western tropical Pacific Ocean. The dissolved ph...

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Bibliographic Details
Published in:Marine chemistry 1999-12, Vol.68 (1), p.39-57
Main Authors: Sholkovitz, E.R, Elderfield, H, Szymczak, R, Casey, K
Format: Article
Language:English
Subjects:
Fly River
Pacific Equatorial Undercurrent
Pacific Ocean
Papua New Guinea
Papua New Guinea, Fly R
Papua New Guinea, Sepik R
rare earth elements
rivers
Sepik River
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Summary:This paper focuses on two of the largest rivers and estuaries of Papua New Guinea (PNG), the Fly and Sepik and explores the degree to which river input and estuarine reactions affect the rare earth element (REE) composition of surface sea water in the western tropical Pacific Ocean. The dissolved phases of the Fly and Sepik River waters have striking REE compositions in the form of large MREE-enrichments as defined by a gradual increase in their shale normalized ratios toward the middle of the REE series. This river/weathering signature is quite distinct from the REE composition of Pacific Ocean sea water. Large scale removal of dissolved river REE occurs in the low salinity regions of the Fly and Sepik River estuaries due to the coagulation of Fe-humic colloids. Laboratory experiments show that the reaction of Fly River particles with sea water leads to the preferential release of MREE to estuarine waters. Additional experiments suggest that the development of MREE-enrichments in PNG rivers is associated with phosphate minerals and their aquatic chemistry. The development of MREE-enrichments in the Fly and Sepik Rivers, through the combination of weathering and estuarine reactions, provides what is termed an island weathering signature to the ocean waters of the western tropical Pacific Ocean. MREE-enrichments appear in the high salinity estuarine waters surrounding PNG and in the subsurface waters of the equatorial (150°E) Pacific Ocean north of PNG (station SA-5 of Zhang and Nozaki [Zhang, J., Nozaki, Y., 1996. Rare earth elements and yttrium in seawater: ICP-MS determinations in the East Caroline, Coral Sea, and South Fiji basins of the western South Pacific Ocean. Geochim. Cosmochim. Acta 60, 4631–4644.]). We interpret MREE-enrichments in the Pacific Equatorial Undercurrent (P-EUC) at SA-5 to reflect the entrainment of an island weathering signature by the regional currents. The REE data in this paper support, but do not conclusively confirm, the proposition of Gordon et al. [Gordon, R.M., Coale, K.H., Johnson, K.S., 1997. Iron distributions in the equatorial Pacific: implications for new production. Limnol. Oceanogr. 42, 419–431.] that there is transport of Fe and other lithogenic elements across the Pacific Ocean within the Equatorial Undercurrent. While they suggested volcanism and hydrothermal activity in the region of PNG to be the source of the lithogenic elements, we favour the hypothesis of Milliman et al. [Milliman, J.D., Farnsworth, K.L., Al
ISSN:0304-4203
1872-7581
DOI:10.1016/S0304-4203(99)00064-X