Researchers discover evidence of a new reservoir of water on the moon

BEIJING, March 30 (Xinhua) — Planetary scientists in China have found evidence of a new water reservoir on the moon by studying samples recovered by China’s Chang’e-5 lunar probe, which shows that the water resources at the site can be used for lunar and space exploration missions. abyssal future.

The team of researchers led by scientists from the Institute of Geology and Geophysics of the Chinese Academy of Sciences determined that the glass beads (beads) in the soil collected by the Chinese lunar probe “Chang’e-5”, which were formed from the cooling of molten materials resulting from the collision, contain a higher amount of water derived solar wind than previously thought.

The Chinese lunar probe Chang’e-5, which returned to Earth on December 17, 2020, has recovered a total of 1,731 grams of lunar samples, which are mainly composed of rocks and soil from the lunar surface.

The water puzzle

Previous lunar missions have detected water ice on the Moon. Surface water rises and falls within one lunar day and is lost to space, indicating that there must be a layer or water reservoir deep in the lunar soil to continue to retain, release and replenish lunar surface water, according to a study.

However, the researchers said that deposits of water in mineral particles in lunar soil, in impact clumps, in volcanic rocks, and in glass beads from volcanic eruptions cannot explain the same water cycle.

Therefore, some lunar exploration researchers have concluded that there is an as yet unidentified water reservoir in the lunar soil that has the potential to maintain this water cycle.

According to the researchers, the interaction of the solar wind with surface materials can produce water and maintain the water cycle, but the host entity for such a reservoir has not been found yet.

Glass beads

The study, published last Monday in the journal “Nature Geoscience”, showed that the glass beads, resulting from the collision, are likely to be a new reservoir of water on the moon.

The team of Chinese researchers led by Hu Sen analyzed the water content inside the glass beads resulting from the impact activities, which were extracted from soil samples collected by the Chinese lunar probe Chang’e-5.

Hu’s team analyzed the glass beads in terms of their appearance, component composition, water abundance, and hydrogen isotope composition, and found that the water in those grains comes from the solar wind, with a water abundance of regarding 2,000 parts per million.

The researchers estimated that the volume of water contributed by the glass grains resulting from the collision activities in the lunar soil might reach 270 trillion kilograms, but it is much less than in the Earth’s oceans.

After the glass grains are formed due to the collision activities, the water caused by the solar wind enters the grains by diffusion, according to the study.

The researchers also analyzed the abundance of water in six cross-sections in five glass beads, which showed features of the water distribution derived from the solar wind.

In this context; The resulting glass bead recorded the dynamic entry and exit of water from the solar wind, the researchers said, and acted like a sponge to maintain the lunar surface water cycle.

The water distribution within the individual beads showed that water might quickly accumulate in the glass beads by diffusion over only a few years and be released rapidly, forming an efficient surface water cycle recharge mechanism, according to the study.

turn; “These results indicate that the impact glass beads on the surface of the moon are able to store water derived from the solar wind and release it into space,” said Hu, a corresponding author of the research study.

The water contained in the impact glass beads is relatively easy to extract and might represent a potential water resource for future lunar exploration, Hu said.

Moreover, these findings provide evidence for the origins of water at low latitude in other airless bodies in the solar system such as Mercury and Vesta, because impact glass may host similar water reservoirs on other airless bodies, Hu said.

This study was the result of cooperation between Nanjing University, the Open University, the Museum of Natural History, the University of Manchester and the China University of Science and Technology.

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