Long-Lived Volcanism on the Lunar Farside Revealed by SELENE Terrain Camera

J. Haruyama; M. Ohtake; Tsuneo Matsunaga; Tomokatsu Morota; Chikatoshi Honda; Y. Yokota; Masanao Abe; Yoshiko Ogawa; Hideaki Miyamoto; Akira Iwasaki; C. M. Pieters; N. Asada; H. Demura; Naru Hirata; J. Terazono; Sho Sasaki; Kazuto Saiki; Atsushi Yamaji; M. Torii; Jean‐Luc Josset

doi:10.1126/science.1163382

Long-Lived Volcanism on the Lunar Farside Revealed by SELENE Terrain Camera

J. Haruyama(National Institute for Environmental Studies), M. Ohtake(National Institute for Environmental Studies), Tsuneo Matsunaga(National Institute for Environmental Studies), Tomokatsu Morota(National Institute for Environmental Studies), Chikatoshi Honda(National Institute for Environmental Studies), Y. Yokota(National Institute for Environmental Studies), Masanao Abe(National Institute for Environmental Studies), Yoshiko Ogawa(National Institute for Environmental Studies), Hideaki Miyamoto(National Institute for Environmental Studies), Akira Iwasaki(National Institute for Environmental Studies), C. M. Pieters(National Institute for Environmental Studies), N. Asada(National Institute for Environmental Studies), H. Demura(National Institute for Environmental Studies), Naru Hirata(National Institute for Environmental Studies), J. Terazono(National Institute for Environmental Studies), Sho Sasaki(National Institute for Environmental Studies), Kazuto Saiki(National Institute for Environmental Studies), Atsushi Yamaji(National Institute for Environmental Studies), M. Torii(National Institute for Environmental Studies), Jean‐Luc Josset(National Institute for Environmental Studies)

Science

November 7, 2008

10.1126/science.1163382

Cited by 173

Abstract

We determined model ages of mare deposits on the farside of the Moon on the basis of the crater frequency distributions in 10-meter-resolution images obtained by the Terrain Camera on SELENE (Selenological and Engineering Explorer) (Kaguya). Most mare volcanism that formed mare deposits on the lunar farside ceased at approximately 3.0 billion years ago, suggesting that mare volcanism on the Moon was markedly reduced globally during this period. However, several mare deposits at various locations on the lunar farside also show a much younger age, clustering at approximately 2.5 billion years ago. These young ages indicate that mare volcanism on the lunar farside lasted longer than was previously considered and may have occurred episodically.

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