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DeepTrace explores the role of redox metals in Earth's oceans and their implications for detecting life in other ocean worlds. By studying metal catalysis and nanoparticle dynamics in marine environments, the project aims to develop predictive models for understanding biogeochemical cycles and the habitability of extra…
Redox metals such as Fe, Mo, V, Ni, Cu and Mn, supplied from deep-sea interfaces, played a pivotal role in the coupled evolution of Earth's biogeochemical cycles and life.
Accordingly, future search for life in Ocean Worlds of the Solar System will greatly benefit from going beyond parameters such as water and organics, and being able to detect signs of subsurface metal catalysis.
As fundamental metabolism requires metal clusters and nanoparticles; their formation, detection and link to Earth’s…
MIDDLE EAST TECHNICAL UNIVERSITY
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