Oceanic 232 Th: A reconnaissance and implications of global distribution from manganese nodules

Details Oceanic 232 Th: A reconnaissance and implications of global distribution from manganese nodules Oceanic 232 Th: A reconnaissance and implications of global distribution from manganese nodules

Jun 1989

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1989gecoa..53.1357h&link_type=abstract

Geochimica et Cosmochimica Acta, vol. 53, Issue 6, pp.1357-1366

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7

Scientific paper

232 Th concentrations in seawater reported in the literature since 1961 are compiled and evaluated, and new data are presented. In general, recent data are lower than old ones by 1 to 2 orders of magnitude, with nearly all post-1980 data lower than 0.1 dpm/10 3 -1 and pre-1980 values higher than 0.1 dpm/10 3 -1. We believe this is caused by improvements in sampling and analytical techniques. Reliable profiles of 232 Th in coastal and open ocean waters have been measured in recent years, some by the newly developed neutron activation analysis and mass spectrometry techniques. The data indicate external sources of 232 Th to the surface and its scavenging throughout the water column. We suggest that aeolian input dominates in the open ocean; but, fluvial input may be more important in coastal regions if mechanisms exist for recycling Th from estuarine sediments. Some information on the global distribution pattern and marine geochemistry of 232 Th in seawater can be inferred from initial 230 Th/ 232 Th activity ratios observed on surfaces of manganese nodules and crusts. The rather distinct interocean variation of the 230 Th/ 230 Th activity ratio in the central gyre region (averaging ~ 160 in the South Pacific, ~ 60 in the North Pacific and ~ 17 in the Atlantic) may reflect higher aeolian input of materials (including 232 Th) to the Atlantic and to the northern hemisphere. Superimposed on the large-scale global trend are some small-scale variations which are indicative of the following effects: (1) abrupt change of water depth, and hence 230 Th concentration, at regions of irregular seafloor topography; (2) higher 232 Th input at ocean boundaries; and (3) enhanced supply of 232 Th from hydrothermal vents. It is still unclear whether seafloor sediments act as a net source or sink of dissolved 232 Th (and 230 Th) in bottom waters. Pore water study should be undertaken to address this important issue. This task can be accomplished by the mass spectrometric technique.

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