The moon is turning ever so slightly red, and it’s likely Earth’s fault. Our planet’s atmosphere may be causing the moon to rust, new research finds.
But not all celestial environments are optimal for rusting, especially our dry, atmosphere-free moon.
“It’s very puzzling,” study lead author Shuai Li, an assistant researcher at the University of Hawaii at Mānoa’s Hawaii Institute of Geophysics and Planetology, said in the statement. “The Moon is a terrible environment for [rust] to form in.”
Related: In photos: India’s Chandrayaan-2 mission to the moon
Li was studying data from the JPL Moon Mineralogy Mapper,which was onboard the Indian Space research Organization’s Chandrayaan-1 orbiter while it surveyed the moon in 2008, when he realized that the poles of the moon had very different compositions than the rest of it.
This composite image of the moon, from the Moon Mineralogy Mapper, shows water ice on the poles. The researchers found hints of hematite when studying the spectra in those regions. (Image credit: ISRO/NASA/JPL-Caltech/Brown Univ./USGS)
During its mission, the Moon Mineralogy Mapper detected spectra, or
wavelengths of light reflected off various surfaces of the moon, to analyze its surface makeup. When Li focused on the poles, he found that the moon’s polar surfaces had iron-rich rocks with spectral signatures that matched that of hematite. The mineral hematite, commonly found in Earth’s surface, is a specific type of iron oxide, or rust, with the formula Fe2O3.
“At first, I totally didn’t believe it. It shouldn’t exist based on the conditions present on the Moon,” co-author Abigail Fraeman, a planetary geoscientist at JPL, said in the statement. “But since we discovered
water on the Moon, people have been speculating that there could be a greater variety of minerals than we realize if that water had reacted with rocks.”
This enhanced map visualizes the regions where the researchers found hints of hematite (those regions aren’t actually colored red like this). (Image credit: Shuai Li) What on Earth happened
For iron to turn rusty red, it needs what’s called an oxidizer — a molecule such as oxygen that removes electrons from a material such as iron. But the sun’s solar wind, a stream of charged particles that constantly hits the moon with
hydrogen, has the opposite effect. Hydrogen is a reducer, or a molecule that donates electrons to other molecules. Without protection from this solar wind, such as the magnetic field that shields our planet from it, rust should not be able to form on the moon.
But it does, and the key might be our own planet.
The moon doesn’t have an atmosphere of its own to provide sufficient amounts of
oxygen, but it has trace amounts donated by Earth’s atmosphere, according to the statement. This terrestrial oxygen travels to the moon along an elongated extension of the planet’s magnetic field called a “magnetotail.”
Earth’s magnetotail can reach all the way to the near side of the moon, where more of the hematite was found, according to the statement. What’s more, at every full moon, the magnetotail blocks 99% of solar wind from blasting the moon, drawing a temporary curtain over the lunar surface, allowing periods of time for rust to form. But there’s still one extra ingredient that’s needed for rust to form: water.
The moon is mostly devoid of water, save for frozen water found in lunar craters on the moon’s far side — far from where most of the hematite was found. But the researchers propose that fast-moving dust particles that bombard the moon might free water molecules locked into the moon’s surface layer, allowing the water to mix with the iron. These dust particles might even be carrying water molecules themselves, and their impact might create heat that could increase the oxidation rate, the researchers said.
A map showing the regions where hematite might be present on the moon (redder color indicates more hematite). (Image credit: Shuai Li)
“This discovery will reshape our knowledge about the Moon’s polar regions,” Li said in a separate
statement from the University of Hawaii. “Earth may have played an important role on the evolution of the Moon’s surface.”
However, these are still hypotheses and more data is needed to understand exactly why the moon is rusting. Even more surprising, small amounts of hematite have been found on the far side of the moon, which should be too far for Earth’s oxygen to hitch a ride on the planet’s magnetotail, according to the statement.
The findings were published on Sept. 2 in the journal
Originally published on Live Science.