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The evolution oflithium isotopesignatures in fluidsdraining activelyweathering hillslopes Jon K. GollaMarie L KuessnerMichael J. Henehan2021 год

The evolution of lithium isotope signatures in fluids draining actively weathering hillslopes
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Аннотация: The stable isotopes of lithium (Li) serve as a robust proxy of silicate weathering. The fate and transport of these isotopes in the dissolved load of major rivers have been characterized to infer changes in both contemporary weathering regimes and paleo-conditions. In this contribution, we deconvolve this integrated signal into the individual processes that fractionate Li at the inception of silicate weathering by directly measuring Li isotope ratios of waters (δ7Li) transiting through a rapidly eroding first-order hillslope. We use these data to develop a multicomponent reactive transport framework, which shows that net dissolution of weathered material generates light δ7Li signatures (as low as −9.2‰) in the shallow portion of the vadose zone. An increase in δ7Li deeper into the vadose zone (as much as +18‰) reflects an increasing contribution of secondary mineral formation. Below the water table, congruent weathering occurs and imparts elevated cation concentrations and bedrock δ7Li. Silicate weathering continues within the saturated zone as groundwater travels downslope (δ7Li = +13 to + 24‰) to the stream. The stream signatures (δ7Li = +28 to +29‰) reflect the terminus of this network of silicate weathering reactions and the relative magnitude of each contributing process (e.g., transitions in secondary mineral formation, dissolution of weathered material). We show that fluid progressing through the weathering profile of this first-order hillslope is distinguished by a sequence of characteristic Li isotope signatures, which can be reproduced in a forward, process-based model framework. This model development offers an improved quantitative basis for the use of metal(loid) stable isotopes in disentangling catchment-scale chemical weathering fluxes.
Год издания: 2021
Авторы: Jon K. Golla, Marie L Kuessner, Michael J. Henehan, Julien Bouchez, Daniella Rempe, Jennifer L. Druhan
Издательство: Elsevier BV
Источник: Earth and Planetary Science Letters
Ключевые слова: Groundwater and Isotope Geochemistry, Geology and Paleoclimatology Research, Groundwater flow and contamination studies
Другие ссылки: Earth and Planetary Science Letters (HTML)
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HAL (Le Centre pour la Communication Scientifique Directe) (HTML)
HAL (Le Centre pour la Communication Scientifique Directe) (HTML)