Diverse hydrous minerals have been identified on Mars and suggest a rich history of water-rock interactions in a variety of aqueous environments. Fe/Mg clays and …
A wealth of missions to Mars have shown sedimentary rocks are widespread and diverse across its surface. Traditional approaches to interpreting the terrestrial sedimentary rock …
The next few decades are expected to host a reinvigoration of planetary exploration by humans. The most likely targets for near-term human exploration include the …
Exposure, weathering, transport, deposition, and diagenesis have profound effects on sediment on planetary surfaces and the final, observable geologic record. This thesis constrains the ways …
Water-rock reactions affect the evolution of planetary crusts and largely control their potential for habitability and biosignature preservation. Here we use data from remote sensing …