China’s moon sample-return mission finds water evidence twice over

The daring Chang’e 5 mission touched down on the moon in December 2020, drilling down for and scooping up the youngest lunar samples ever collected. Soon after, an ascent vehicle blasted off from the mission’s landing site in Oceanus Procellarum (the Sea of Storms), and Chang’e 5’s samples returned to Earth later in the month. Scientists have now revealed that the lander’s spectral scan of the surface and analysis of the samples in laboratories on Earth both show the presence of water in the region.

“For the first time in the world, the results of laboratory analysis of lunar return samples and spectral data from in-situ lunar surface surveys were used jointly to examine the presence, form and amount of ‘water’ in lunar samples,” co-author Li Chunlai, a planetary scientist at the National Astronomical Observatories of the Chinese Academy of Sciences (NAOC), said in a statement.

But the results certainly don’t point to vast reservoirs on the lunar surface. Rather, the results show that, on average the rocks and soil of the moon’s surface contain about 30 hydroxyl parts per million; hydroxyl, with one oxygen atom and one hydrogen atom, is the main ingredient of water.

The team also assessed the water source to be mainly indigenous to the moon, contained in a crystalline mineral called apatite. Less hydroxyl than expected appears to have come from the solar wind, the constant stream of charged particles flowing off the sun and across the solar system, which barrages the moon and implants its surface with particles.

“The results accurately answer the question of the distribution characteristics and source of water in the Chang’e 5 landing zone and provide a ground truth for the interpretation and estimation of water signals in remote sensing survey data,” Li added.

The results were published in Nature Communications(opens in new tab) on Tuesday (June 14).

Li said future Chang’e missions will also focus on water to build a bigger picture of lunar water, and particularly on potential water-ice at the lunar south pole with Chang’e 7.

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