GSA Connects 2022 meeting in Denver, Colorado

Paper No. 189-9
Presentation Time: 3:45 PM

COMPARING THE VOLATILE CONTENTS OF BASALTIC ROCKS THROUGH THE INNER SOLAR SYSTEM


FILIBERTO, Justin, NASA Johnson Space Center, MC XI3, 2101 NASA Pkwy, Houston, 77058-3696 and MCCUBBIN, Francis, NASA Johnson Space Centermailcode XI2, 2101 Nasa Pkwy, Houston, TX 77058

Volatiles in planetary interiors play important roles in magma genesis, crust formation, eruption style, and even habitability of planetary surfaces. Allan Treiman’s career has touched on volatiles in the Moon, Mars, HED-parent body, the Earth, Venus, and other planetary bodies through studies of igneous rocks, volatile-bearing igneous minerals within these rocks, and the secondary alteration products produced from these rocks and minerals. His seminal work in many of these fields has inspired our careers and many others in our field. Here, we will build on and summarize what we know of the volatile content of basaltic rocks in the inner solar system. Specifically, this talk will focus on using volatile-bearing minerals (amphibole and apatite) along with bulk compositions to constrain the pre-eruptive, and potentially pre-degassed, volatile content of the magma and their source regions. We will then use these estimates to compare the volatile content of the Earth, Moon, Mars, Venus, and Mercury and what open questions there are for each planetary body.