A Chinese research team used data sent home by the Chang'e-4 probe to determine that a meteorite hit the moon about 1 million years ago, according to the Chinese Academy of Sciences (CAS).
The impact event is believed to be related to carbonaceous chondrites, a water-rich class of asteroids, according to Liu Yang from the National Space Science Center (NSSC) under the CAS in an exclusive interview with Xinhua. Liu was a corresponding author of the study.
Yutu-2, the rover of the Chang'e-4 probe, encountered a small impact crater with a depth of 15 to 20 centimeters, and took detailed spectral measurements during the mission's ninth lunar day.
After analyzing the high-resolution remote sensing images and the hyperspectral data from Yutu-2, researchers identified the materials around the center of the crater as remnants of an impact caused by carbonaceous chondrites.
Previous studies have found carbonaceous chondrite fragments in lunar samples brought back by the Apollo program, but this is the first time carbonaceous chondrite impact remnants have been directly observed on the lunar surface by remote sensing, Liu said.
Carbonaceous chondrites are thought to be among the oldest objects in the solar system and are rich in water and organic matter. Scientists believe that they are probably related to the origin of life on Earth.
If a carbonaceous chondrite hits the moon, some of the water it was carrying could be retained on the moon, according to Liu.
Previous study has shown that impacts are one of the main sources of water on the moon, along with volcanic eruptions and solar wind.
The research team estimated that the impact event happened up to 1 million years ago -- a short time compared to the moon's geological time scale since its formation and roughly equivalent to a few minutes ago in a person's lifetime.
The team thus concluded that carbonaceous chondrite impacts are still providing water to the moon.
The study was published in the journal Nature Astronomy.
Liu's team is also using data from China's Mars probe Tianwen-1 to study the ancient water environment of the red planet, he said. (Xinhua)
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