Chemistry of uranium, thorium, and radium isotopes in the Ganga-Brahmaputra river system: Weathering processes and fluxes to the Bay of Bengal

Details Chemistry of uranium, thorium, and radium isotopes in the Ganga-Brahmaputra river system: Weathering processes and fluxes to the Bay of Bengal Chemistry of uranium, thorium, and radium isotopes in the Ganga-Brahmaputra river system: Weathering processes and fluxes to the Bay of Bengal

May 1990

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1990gecoa..54.1387s&link_type=abstract

Geochimica et Cosmochimica Acta, vol. 54, Issue 5, pp.1387-1396

Computer Science

13

Scientific paper

The most comprehensive data set on uranium, thorium, and radium isotopes in the Ganga-Brahmaputra, one of the major river systems of the world, is reported here. The dissolved 238 U concentration in these river waters ranges between 0.44 and 8.32 /1, and it exhibits a positive correlation with major cations (Na + K + Mg + Ca). The 238 U / Cations ratio in waters is very similar to that measured in the suspended sediments, indicating congruent weathering of uranium and major cations. The regional variations observed in the [ 234 U / 238 U ] activity ratio are consistent with the lithology of the drainage basins. The lowland tributaries (Chambal, Betwa, Ken, and Son), draining through the igneous and metamorphic rocks of the Deccan Traps and the Vindhyan-Bundelkhand Plateau, have [ 234 U / 238 U ] ratio in the range 1.16 to 1.84. This range is significantly higher than the near equilibrium ratio (~1.05) observed in the highland rivers which drain through sedimentary terrains. The dissolved 226 Ra concentration ranges between 0.03 and 0.22 dpm/1. The striking feature of the radium isotopes data is the distinct difference in the 228 Ra and 226 Ra abundances between the highland and lowland rivers. The lowland waters are enriched in 228 Ra while the highland waters contain more 226 Ra. This difference mainly results from the differences in their weathering regimes. The discharge-weighted mean concentration of dissolved 238 U in the Ganga (at Patna) and in the Brahmaputra (at Goalpara) are 1.81 and 0.63 /1, respectively. The Ganga-Brahmaputra river system constitutes the major source of dissolved uranium to the Bay of Bengal. These rivers transport annually about 1000 tons of uranium to their estuaries, about 10% of the estimated global supply of dissolved uranium to the oceans via rivers. The transport of uranium by these rivers far exceeds that of the Amazon, although their water discharge is only about 20% of that of the Amazon. The high intensity of weathering of uranium in the Ganga-Brahmapura River system can also be deduced from the [ 232 Th / 238 U ] and [ 230 Th / 238 U ] activity ratios measured in the suspended sediments. 230 Th is enriched by about 19% in the suspended sediments relative to its parent 238 U. The flux of excess 230 Th supplied to the Bay of Bengal via these river sediments is 980 × 10 12 dpm/a, about six times more than its in situ production from seawater in the entire Bay of Bengal.

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