CORDIS Project
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This project focuses on understanding sulfur metabolism and its isotopic variations, which reflect microbial activity and environmental conditions. By developing metabolic-isotopic models, it aims to reveal how these isotopic signals are preserved and can be used to study sulfur cycling across different scales and envi…
Dissimilatory S metabolisms impart large S and O isotope fractionations, which are modulated by a suite of (bio)chemical reactions and physical processes (i.e., diagenesis) and ultimately preserved in the reduced and oxidized products of sedimentary S cycling (e.g., pyrite, carbonate-associated sulfate).
The multi-isotope composition of such compounds encodes valuable information about microbial activity, environmental conditions, and elemental cycles.
Robust interpretation of these signals requ…
WEIZMANN INSTITUTE OF SCIENCE
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