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IRMIDYN explores the transformation processes of iron minerals in soils and sediments, focusing on how redox conditions affect nutrient cycles. By employing advanced isotopic techniques, the project aims to understand these dynamics in natural environments, with implications for biogeochemistry and environmental scienc…
IRMIDYN will study the dynamics of redox-driven iron mineral transformation processes in soils and sediments and impacts on nutrient and trace element behavior using a novel approach based on enriched stable isotopes (e.g., 57Fe, 33S, 67Zn, 113Cd, 198Hg) in combination with innovative experiments and cutting-edge analytical techniques, most importantly 57Fe Mössbauer and Raman micro-spectroscopy and imaging.
The thermodynamic stability and occurrence of iron minerals in sufficiently stable Earth…
EIDGENOESSISCHE TECHNISCHE HOCHSCHULE ZUERICH
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