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Published December 1, 2023 | Published
Journal Article Metadata-only

Lunar Mare Basaltic Volcanism: Volcanic Features and Emplacement Processes

Head, James W.1
Wilson, Lionel2
Hiesinger, Harald3
van der Bogert, Carolyn3 ORCID icon
Chen, Yuan4
Dickson, James L.5 ORCID icon
Gaddis, Lisa R.6 ORCID icon
Haruyama, Junichi7
Jawin, Erica R.8 ORCID icon
Jozwiak, Lauren M.9
Li, Chunlai4 ORCID icon
Liu, Jianzhong10
Morota, Tomokatsu11
Needham, Debra H.12
Ostrach, Lillian R.13 ORCID icon
Pieters, Carle M.1
Prissel, Tabb C.14 ORCID icon
Qian, Yuqi15 ORCID icon
Qiao, Le16
Rutherford, Malcolm R.1
Scott, David R.1
Whitten, Jennifer L.17 ORCID icon
Xiao, Long15 ORCID icon
Zhang, Feng18 ORCID icon
Ziyuan, Ouyang4
  • 1. ROR icon Brown University
  • 2. ROR icon Lancaster University
  • 3. ROR icon University of Münster
  • 4. ROR icon National Astronomical Observatories
  • 5. ROR icon California Institute of Technology
  • 6. ROR icon Lunar and Planetary Institute
  • 7. ROR icon Institute of Space and Astronautical Science
  • 8. ROR icon Smithsonian Institution
  • 9. ROR icon Johns Hopkins University Applied Physics Laboratory
  • 10. ROR icon Institute of Geochemistry
  • 11. ROR icon University of Tokyo
  • 12. ROR icon National Aeronautics and Space Administration
  • 13. US Geological Survey Astrogeology Science Center
  • 14. ROR icon Johnson Space Center
  • 15. ROR icon China University of Geosciences
  • 16. ROR icon Shandong University
  • 17. ROR icon Tulane University
  • 18. ROR icon National Space Science Center

Abstract

[Introduction] Volcanism is a fundamental process in the geological evolution of the Moon, providing clues to the composition and structure of the mantle, the location and duration of interior melting, the nature of convection and lunar thermal evolution. Progress in understanding volcanism has been remarkable in the short 60-year span of the Space Age. Before Sputnik 1 in 1957, the lunar farside was unknown, the origin of the dark lunar maria was debated (sedimentary or volcanic), and significant controversy surrounded the question of how the multitude of craters on the surface formed. Was the Moon formed hot or cold, was the lunar surface young or old, were the craters of impact or volcanic origin? A lunar farside deficient in the darker maria was revealed by Luna 3 in 1959 (Lipsky 1965a,b). The Ranger, Lunar Orbiter, Surveyor, Luna and Zond missions significantly augmented pre-Sputnik telescopic observations and began to reveal the diversity of lunar geologic landforms. Return of lunar soil and rock samples from the lunar surface by Apollo (11–12, 14–17) (Compton 1989) and Luna (16, 20, 24) missions (Harvey 2007a,bHuntress and Marov 2011) changed the debates overnight (Hinners 1971Taylor 1975). The lunar rocks were igneous and extremely ancient, all from the first half of Solar System history; the oldest, highland anorthosites, were overlain by relatively younger, but still extremely old, extrusive basalts forming the maria.

Copyright and License

© 2023 by the Mineralogical Society of America

Acknowledgement

We very gratefully acknowledge the many years of intense efforts on the part of dedicated engineers, scientists and managers from a multitude of national and international space agencies and organizations, who conceived, designed, planned and implemented the many hundreds of experiments, missions and data analysis programs that made this research possible. Special thanks to the experiment PIs who shared their data through the NASA Planetary Data System and China’s Lunar Exploration Engineering Ground Application System (GRAS) at http://moon.bao.ac.cn. We would specifically like to acknowledge the NASA Lunar Reconnaissance Orbiter (LRO) Mission personnel for their longstanding dedication to data acquisition and analysis for science, exploration and outreach. Special thanks to Mark Robinson, LRO Camera PI, for bringing the beauty of the Moon, and volcanic morphology and morphometry, to the scientific community and public on a daily basis, and unselfishly making hundreds of extremely useful data products available to the international scientific community at https://www.lroc.asu.edu/. Outside reviews by numerous colleagues, particularly David Williams, are gratefully acknowledged. Special thanks are extended to Anne Cote for assistance in preparation of the manuscript at all stages.

Additional Information

Figures and tables referred to by the prefix “EA” are in an electronic annex available at https://apenninus.uaizu.ac.jp/NVM2-EA.html

Additional details

Dates Caltech Custom Metadata
Created:
December 12, 2024
Modified:
December 12, 2024