Age and composition of young basalts on the Moon, measured from samples returned by Chang’e-5

Xiaochao Che; A. A. Nemchin; Dunyi Liu; Tao Long; Chen Wang; M. D. Norman; K. H. Joy; Romain Tartèse; J. W. Head; Bradley L. Jolliff; J. F. Snape; C. R. Neal; Martin J. Whitehouse; C. A. Crow; G. K. Benedix; Fred Jourdan; Zhiqing Yang; Chun Yang; Jianhui Liu; Shiwen Xie; Zemin Bao; Runlong Fan; Dapeng Li; Zengsheng Li; Stuart G. Webb

doi:10.1126/science.abl7957

Age and composition of young basalts on the Moon, measured from samples returned by Chang’e-5

Xiaochao Che(Chinese Academy of Geological Sciences), A. A. Nemchin(Curtin University), Dunyi Liu(Chinese Academy of Geological Sciences), Tao Long(Chinese Academy of Geological Sciences), Chen Wang(Chinese Academy of Geological Sciences), M. D. Norman(Australian National University), K. H. Joy(University of Manchester), Romain Tartèse(University of Manchester), J. W. Head(Brown University), Bradley L. Jolliff(Washington University in St. Louis), J. F. Snape(University of Manchester), C. R. Neal(University of Notre Dame), Martin J. Whitehouse(Swedish Museum of Natural History), C. A. Crow(University of Colorado Boulder), G. K. Benedix(Planetary Science Institute), Fred Jourdan(Curtin University), Zhiqing Yang(Chinese Academy of Geological Sciences), Chun Yang(Chinese Academy of Geological Sciences), Jianhui Liu(Chinese Academy of Geological Sciences), Shiwen Xie(Chinese Academy of Geological Sciences), Zemin Bao(Chinese Academy of Geological Sciences), Runlong Fan(Chinese Academy of Geological Sciences), Dapeng Li(Shandong Geological Sciences Institute), Zengsheng Li(Shandong Geological Sciences Institute), Stuart G. Webb(University of Notre Dame)

Science

October 21, 2021

10.1126/science.abl7957

Cited by 336Open Access

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Abstract

Orbital data indicate that the youngest volcanic units on the Moon are basalt lavas in Oceanus Procellarum, a region with high levels of the heat-producing elements potassium, thorium, and uranium. The Chang’e-5 mission collected samples of these young lunar basalts and returned them to Earth for laboratory analysis. We measure an age of 1963 ± 57 million years for these lavas and determine their chemical and mineralogical compositions. This age constrains the lunar impact chronology of the inner Solar System and the thermal evolution of the Moon. There is no evidence for high concentrations of heat-producing elements in the deep mantle of the Moon that generated these lavas, so alternate explanations are required for the longevity of lunar magmatism.

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