Mars as an Exoplanet: Lessons from a Planet at the Edge of Habitability
Journal Article
Overview
abstract
Abstract; ; Mars is the solar system’s canonical small, rocky planet that transitioned from early geologic activity and surface liquid water to a cold and arid planet with a thin, cold, CO; 2; -dominated atmosphere. The evolution of Mars, in the context of such planetary parameters as size, mass, atmosphere, insolation flux, magnetosphere, and impact history, harbors important diagnostics regarding the development and sustainability of habitable surface conditions. In this work, we synthesize how the study of Mars contributes to our understanding of exoplanet processes, such as volatile delivery and loss, photochemistry, climate evolution (including CO; 2; condensation and atmospheric loss), obliquity forcing, planetary architecture, and the role of intrinsic magnetism. We also evaluate optimal methods and prospects for detecting and characterizing potential Mars analogs beyond the solar system. We focus on relevant results from planetary missions (e.g., the Mars Reconnaissance Orbiter, MAVEN, Mars Science Laboratory, and Mars2020) and observational studies of exoplanet atmospheres with the James Webb Space Telescope and future facilities. Through the convergence of these parallel pathways of inquiry, we describe the primary science questions and suggested avenues for characterizing small rocky planets that lie at the edge of potentially habitable conditions.;
