Sr and 87Sr/86Sr in waters and sediments of the Brahmaputra river system:: Silicate weathering, CO2 consumption and Sr flux

The Brahmaputra is a major river system draining the Himalaya. The concentration of Sr and its Sr-87/Sr-86 have been measured in dissolved and particulate phases of the Brahmaputra and its tributaries in India to trace the sources of dissolved Sr. Dissolved Sr ranges from 250 to 1050 nM with Sr-87/Sr-86 from 0.71298 to 0.75975. The Sr data along with the available concentrations of major ions in the samples show that major contributors of Sr in the Brahmaputra system are the silicates and carbonates of the Himalaya and the Transhimalaya and carbonates and evaporites of the Tibetan basin. Silicate Sr in the Brahmaputra river system ranges from 20% to 80% with an average of similar to 45%. The silicate component of Sr in the Brahmaputra system is similar or marginally higher than that in the Ganga system due to contribution from the Transhimalayan calc-alkaline plutonic rocks which have higher concentration of Sr. Evaporites of the Tibetan sub-basin and hot springs along the Indus Tsangpo Suture could be the other significant contributors to the dissolved Sr budget of the Brahmaputra. Contribution from evaporite dissolution decouples the total dissolved Sr flux from the Tibetan basin from atmospheric CO, consumption. Radiogenic Sr of the Brahmaputra system is derived from the Himalayan silicates whereas other Sr sources tend to dilute its radiogenic signature. The Sr-87/Sr-86 of the dissolved phase shows significant correlation with indices of silicate weathering, indicating that Sr-87/Sr-86 can serve as a proxy of silicate weathering. At their outflow, the Brahmaputra is less radiogenic (similar to 0.72) compared to the Ganga (similar to 0.73), however, the flux Of 8 7 Sr from the Brahmaputra is similar to that of the Ganga. (c) 2006 Elsevier B.V. All rights reserved.