Universe Today
To find out the likeliest source of the water, Alice Stephant and Francois Robert measured the ratio of hydrogen and deuterium in soil samples from the Apollo 16 and Apollo 17 missions. They ran the samples through a type of mass spectrometer that not only detects which isotopes are present but how deep down they are in a surface sample.
In studying tiny grains of lunar soil samples, they found that the reduction of oxygen from silicates in the soil by protons from the solar wind was almost certainly the means by which the water was generated. They came to that conclusion through determining the lithium isotope ratio in the samples which gave the isotope ratio for the hydrogen. From that, they were able to calculate the deuterium-hydrogen ratio which they compared to the amount of water actually in the granule sample.
Because there tends to be more deuterium further from the sun, each possible source of lunar water should give a different ratio. Comets and meteorites have distinctive proportions, while protons from the solar wind or cosmic rays would each have different ratios.
What they found was that on average, the granules contained just 15 percent water from somewhere else (presumably comets or meteorites) leaving the rest to have been formed due to the solar wind interaction. They note also that for some samples, all of the water was due to solar wind interaction.
"We confirm that result," said Stephant. "Water-rich meteorite and comet impacts do not bring important amounts of water to the surface of the moon."
Alberto Saal at Brown University in Providence, Rhode Island, is pleased with the result. "I think the idea that most of the water in the surface of the moon comes from solar wind implantations is most likely correct," he says.