1. Geologic mapping of the Ac-2 Coniraya quadrangle of Ceres from NASA's Dawn mission: Implications for a heterogeneously composed crust
- Author
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Martin Hoffmann, M. Schäfer, Scott C. Mest, Jennifer E.C. Scully, Jan Hendrik Pasckert, Ottaviano Ruesch, Debra Buczkowski, Harald Hiesinger, Andreas Nathues, M. C. De Sanctis, Nico Schmedemann, David A. Williams, T. Roatsch, Ralf Jaumann, Andrea Naß, Frank Preusker, Thomas Kneissl, Christopher T. Russell, and C. A. Raymond
- Subjects
010504 meteorology & atmospheric sciences ,Dwarf planet ,Astronomy and Astrophysics ,Terrain ,Crust ,Geologic map ,01 natural sciences ,Astrobiology ,Northern latitude ,Paleontology ,Quadrangle ,Impact crater ,Space and Planetary Science ,0103 physical sciences ,Geological processes ,Longitude ,010303 astronomy & astrophysics ,Geology ,Asteroid Ceres ,Cratering ,0105 earth and related environmental sciences - Abstract
Since its arrival at Ceres, DAWNs Framing Camera has been imaging the dwarf planet at different altitudes, using 8 different filters. Based on these images, global clear filter mosaics, digital terrain models, and global color mosaics were produced. These datasets are basis for the derived photogeologic map of the Ac2 Coniraya quadrangle, located between 0° and 90° eastern longitude and between 20° and 40° northern latitude. Crater size frequency distribution (CSFD) measurements have been applied to derive the stratigraphic history of the identified geologic units in the Ac2 Coniraya quadrangle. Based on these investigations, we found that the Ac2 Coniraya quadrangle shows evidence for a long geologic history lasting over 3.5 Ga. Most of the identified geologic units are related to impact cratering at different periods of time. While the oldest unit identified in the Ac2 Coniraya quadrangle, the cratered terrain, shows an absolute model age (AMA) of 3.3 to 3.5 Ga, the youngest units, including fresh impact craters and lobate flows, show AMAs of < 100 Ma. The large number of different sized impact craters excavated a variety of materials with different colors and albedo, indicative of a heterogeneous crustal composition, including water or volatiles. Pits identified at Ikapati craters smooth deposits might further indicate the presence of volatiles in the subsurface. Furthermore, our mapping of the Ac2 Coniraya quadrangle shows that possible H 2 O ice in the crust is heterogeneously distributed, as lobate flows, bright spots, and pits are only found at certain locations, related to relatively fresh impact craters.
- Published
- 2018