Primary Convener:
Adomas Valantinas, Brown University

Convener:
Michael Wong, Carnegie Institution for Science
Patrick Gasda, Los Alamos National Laboratory
Michael Walter, Carnegie Institution for Science

Chair:
Adomas Valantinas, Brown University
Michael Wong, Caltech

The origin of life represents a fundamental planetary phenomenon that demands the integration of multidisciplinary approaches to fully comprehend. This session explores how planetary processes create and sustain the geochemical conditions necessary for life's emergence and early evolution. We welcome studies investigating atmospheric and surface chemistry on early Earth and Mars; redox processes across the atmosphere, hydrosphere, and lithosphere; prebiotic molecular synthesis and complexity; mineral-catalyzed organic reactions; and the application of machine learning to biosignature detection. These approaches enhance our understanding of habitability on early Earth, Mars surface environments, and potentially other planetary bodies. This session welcomes theoretical, experimental, and observational studies that investigate the planetary processes driving life's emergence and early evolution.

Index Terms
0471 Oxidation|reduction reactions
5215 Origin of life
5220 Hydrothermal systems and weathering on other planets
5225 Early environment of Earth

Cross-Listed:
PP - Paleoceanography and Paleoclimatology
B - Biogeosciences
EP - Earth and Planetary Surface Processes

Neighborhoods:
4. Beyond Earth