MOTIVES, METHODS, AND ESSENTIAL PREPARATION FOR PLANETARY FIELD GEOLOGY ON THE MOON AND MARS

Future lunar exploration provides opportunities to expand the human scientific exploration of the Moon and, eventually, Mars. Planning for renewed field exploration of the Moon depends on the selection, training, and capabilities of explorers; selection of landing sites; and the adopted operational approach to extravehicular activity. Apollo geological exploration, and subsequent analysis and interpretation of findings and collected samples, underpin our current understanding of lunar origin and history. That understanding continues to provide new and important insights into the early histories of the Earth and other bodies in the Solar System, particularly during the period when life formed and began to evolve on Earth and possibly on Mars. Specific new lunar exploration objectives include: (1) testing the consensus "giant impact" hypothesis for the origin of the Moon; (2) testing the consensus impact "cataclysm" hypothesis; (3) determining the temporal flux of large impacts in the inner Solar System; and (4) investigating of the internal structure of the Moon. Apollo samples also identified significant and potentially commercial lunar resources that could help satisfy future demand for both terrestrial energy alternatives and space consumables. Equipment necessary for successful exploration consists of that required for sampling, sample documentation and preservation, communications, mobility, and position knowledge. Easily used active geophysical, portable geochemical, and in-situ petrographic equipment can greatly enhance the scientific and operational returns of extended exploration over that possible during the Apollo Program.