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Ceres: Astrobiological Target and Possible Ocean World

Julie Castillo‐Rogez, Marc Neveu, J. E. C. Scully, Christopher H. House, L. C. Quick, Alexis Bouquet, Kelly E. Miller, M. T. Bland, M. C. De Sanctis, A. Ermakov, Amanda R. Hendrix, T. H. Prettyman, C. A. Raymond, C. T. Russell, Brent Sherwood, Edward Young

2020Astrobiology60 citationsDOI

Abstract

Ceres, the most water-rich body in the inner solar system after Earth, has recently been recognized to have astrobiological importance. Chemical and physical measurements obtained by the Dawn mission enabled the quantification of key parameters, which helped to constrain the habitability of the inner solar system's only dwarf planet. The surface chemistry and internal structure of Ceres testify to a protracted history of reactions between liquid water, rock, and likely organic compounds. We review the clues on chemical composition, temperature, and prospects for long-term occurrence of liquid and chemical gradients. Comparisons with giant planet satellites indicate similarities both from a chemical evolution standpoint and in the physical mechanisms driving Ceres' internal evolution.

Topics & Concepts

AstrobiologyHabitabilitySolar SystemLiquid waterPlanetChemical evolutionDwarf planetEarth (classical element)ExoplanetEnvironmental scienceEarth scienceGeologyAstronomyPhysicsStarsAstro and Planetary SciencePlanetary Science and ExplorationIsotope Analysis in Ecology
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