Chemical character of the partially flooded Smythii Basin based on Al/Si orbital X-ray dataOrbital X-ray fluorescence data indicate that continuous mare-basalt flooding is confined to the northeastern quadrant of the Smythii Basin. Al/Si values for soils in the unflooded northwestern section of the Smythii Basin closely approximate those for the adjacent terra to the west. Terra soils east of Mare Smythii, however, are unusually aluminous compared to terra soils west of the basin. This pronounced contrast between Al/Si values for terra soils to the east and west of Smythii as well as the minimal difference in values between the northwestern section of the basin and adjacent terra to the west are most likely due to a chemically homogeneous layer of ejecta from a large impact event west of Mare Smythii, such as that which formed the Crisium Basin. An alternate hypothesis is that the unflooded section of the basin is predominantly original basin floor material, indicating that the impact forming the 4km deep Smythii Basin did not penetrate into a horizon chemically different from the terra west of Smythii. The chemical contrast between the terra east and west of Smythii, then, would be ascribed to lateral heterogeneity within the lunar crust
Document ID
19780057703
Acquisition Source
Legacy CDMS
Document Type
Conference Proceedings
Authors
Andre, C. G. (Maryland Univ. College Park, MD, United States)
Adler, I. (Maryland Univ. College Park, MD, United States)
Clark, P. E. (Maryland Univ. College Park, MD, United States)
Weidner, J. R. (Maryland, University College Park, Md., United States)
Wolfe, R. W. (Smithsonian Institution Washington, D.C., United States)
Philpotts, J. A. (NASA Goddard Space Flight Center Greenbelt, Md., United States)