See more from this Division: Topical Sessions
See more from this Session: Geochemical Tracers of Changes in Seawater Chemistry
Abstract:
Mg has three stable isotopes and measurement of their ratios by MC-ICP-MS (expressed as δ26Mg) are emerging as a powerful tool for understanding geochemical cycles. We have measured Mg isotope ratios in more than 100 rivers from different geologic, tectonic and climatic settings, including 16 of the largest rivers in the world, accounting for almost 50% of the riverine flux of Mg to the oceans.
The range in riverine δ26Mg is 2.5‰, half the variation in terrestrial rock. The average of all rivers measured so far is -1.34±0.11 (2σmean) relative to the DSM3 standard. The best estimate of the Mg isotope composition of continental runoff is a flux weighted mean of the largest rivers in the world at -1.09‰. Even taking into account uncertainty, this average riverine δ26Mg value is distinct from seawater at -0.82‰ This difference arises either from the fractionation of Mg isotope ratios in the ocean or a Mg budget which is not in steady state.
The difference is consistent with fractionation by carbonate precipitation. In the simplest steady state scenario, where the oceanic mass balance is maintained by riverine input and hydrothermal and dolomite output, Mg isotope ratios imply a minimum dolomite Mg flux of 9% of the total output Mg flux. This is greater than some previous estimates of the modern dolomite flux.
See more from this Division: Topical Sessions
See more from this Session: Geochemical Tracers of Changes in Seawater Chemistry