TY - JOUR
T1 - Ultra-Thick Paleoregolith Layer Detected by Lunar Penetrating Radar
T2 - Implication for Fast Regolith Formation Between 3.6 and 2.35 Ga
AU - Zhu, Tieyuan
AU - Zhang, Jinhai
AU - Lin, Yangting
N1 - Funding Information:
The authors thank the Chang’E-3 payload team for mission operations and China National Space Administration for providing the Chang’E-3 data that made this study possible. The Chang’E-3 data set was collected by Ground Research and Application System (GRAS) of China's Lunar and Planetary Exploration Program, provided by China National Space Administration (http://moon.bao.ac.cn).
Publisher Copyright:
© 2021. American Geophysical Union. All Rights Reserved.
PY - 2021/10/28
Y1 - 2021/10/28
N2 - Lunar paleoregolith was formed by repeated asteroid impact and space weathering and then buried by later lava flows, serving as important records for early solar system history. However, direct observational evidence for the paleoregolith layer is rather limited. We present the evidence for the existence of the paleoregolith layer by processing 60 MHz lunar penetrating radar data acquired by the Chang’E-3 Yutu rover. We find successive reflections with reversed polarities due to a low permittivity (paleoregolith) layer sandwiched in two high permittivity (lava) layers. From modeling and migration imaging of radar reflections, we determine an ultra-thick paleoregolith layer (∼5–9 m) beneath the Eratosthenian unit and on the top of the Imbrian unit, suggesting a high regolith production rate of 5.8–10.5 m/Ga between late Imbrian and early Eratosthenian periods compared to the previous estimation ∼2 m/Ga, implying fast regolith formation and possible high meteoric flux during these periods.
AB - Lunar paleoregolith was formed by repeated asteroid impact and space weathering and then buried by later lava flows, serving as important records for early solar system history. However, direct observational evidence for the paleoregolith layer is rather limited. We present the evidence for the existence of the paleoregolith layer by processing 60 MHz lunar penetrating radar data acquired by the Chang’E-3 Yutu rover. We find successive reflections with reversed polarities due to a low permittivity (paleoregolith) layer sandwiched in two high permittivity (lava) layers. From modeling and migration imaging of radar reflections, we determine an ultra-thick paleoregolith layer (∼5–9 m) beneath the Eratosthenian unit and on the top of the Imbrian unit, suggesting a high regolith production rate of 5.8–10.5 m/Ga between late Imbrian and early Eratosthenian periods compared to the previous estimation ∼2 m/Ga, implying fast regolith formation and possible high meteoric flux during these periods.
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U2 - 10.1029/2021GL095282
DO - 10.1029/2021GL095282
M3 - Article
AN - SCOPUS:85118237607
SN - 0094-8276
VL - 48
JO - Geophysical Research Letters
JF - Geophysical Research Letters
IS - 20
M1 - e2021GL095282
ER -