Temporal and spatial distribution of mare basalts

The temporal and spatial distribution dataset of mare basalts include geological contacts of mare basalts erupted in different episodes, which are refined from the currently most precise spatial extents of mare basalts extracted from Lunar Reconnaissance Orbiter Camera image mosaics. We collected absolute model age data of lava flow units across global lunar surface identified from images obtained by cameras onboard Lunar Reconnaissance Orbiter, Kaguya, and Clementine platforms. The database is generated by compilation of literature data and fusion of topographic and compositional datasets from LRO and Kaguya missions. The data are in the internationally recognized ESRI Shapefile format. It can be used for studies on the lunar volcanism and thermal evolution, as well as geological responses of the coevolution of the Earth-Moon system and provides a new and basic reference for future lunar exploration, assessment of compositional distribution and potential resources on the Moon.Citation:Chen, J., Ling, Z., Liu, J., et al., (2022), Digital and global lithologic mapping of the Moon at a 1:2,500,000 scale. Science Bulletin, 67(20): 2050-2054.Jin, L., Chen, J., Yu, L., Wang, Y., et al., (2025), Global picture of lunar basalt chronology based on automatic classification of craters. Journal of Geophysical Research: Planets, 130, 2025JE008965.Lu, X., Cao, H., Ling, Z., Fu, X., Qiao, L., Chen, J. Geomorphology, Mineralogy, and Geochronology of Mare Basalts and Non-Mare Materials around the Lunar Crisium Basin. Remote Sensing, 2021, 13: 4828.Zhao, Z., Chen, J., Ling, Z., et al., (2023), Chronology, composition, and mineralogy of mare basalts in the junction of Oceanus Procellarum, Mare Imbrium, Mare Insularum, and Mare Vaporum. Icarus, 397, 115531.

本月海玄武岩时空分布数据集涵盖了不同喷发期次月海玄武岩（mare basalts）的地质接触关系，其空间范围基于当前精度最高的月海玄武岩分布数据提取而来，数据源自月球勘测轨道飞行器相机（Lunar Reconnaissance Orbiter Camera）影像镶嵌图。 本数据集收集了全球月表熔岩流单元的绝对模型年龄数据，这些数据通过解析月球勘测轨道飞行器（LRO）、月亮女神号（Kaguya）以及克莱门汀号（Clementine）探测器搭载相机获取的影像识别得到。 本数据库通过整合公开文献数据，并融合月球勘测轨道飞行器与月亮女神号任务获取的地形与成分数据集构建而成。 数据采用国际通用的ESRI Shapefile格式存储。 该数据集可用于月球火山活动与热演化研究，以及地月系统协同演化的地质响应机制研究，同时可为未来月球探测、月表成分分布评估与潜在资源勘查提供全新的基础参考依据。 **引用文献**： 1. 陈杰、凌宗成、刘佳等（2022），1:250万月球全域岩性数字填图。《科学通报》，67(20)：2050-2054。 2. 金磊、陈杰、余磊、王洋等（2025），基于撞击坑自动分类的月球玄武岩年代学全球图景。《地球物理研究杂志：行星卷》，130，2025JE008965。 3. 卢晓、曹慧、凌宗成、傅潇、乔梁、陈杰（2021），月球危海盆地周边月海玄武岩与非月海物质的地貌、矿物学与地质年代学。《遥感》，2021，13：4828。 4. 赵哲、陈杰、凌宗成等（2023），风暴洋、雨海、岛海与汽海交汇区月海玄武岩的年代学、成分与矿物学特征。《伊卡洛斯》，397，115531。