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Research Sheds Light on the Moon’s Dark Craters

The next wave of robots to fly to Mars in 2020 could offer scientists an unprecedented understanding of Earth’s closest neighboring planet. But there are still mysteries to be solved much closer to home, on Earth’s own Moon.

Last week at AGU’s Fall Meeting in San Francisco, planetary scientists presented new insights into chemicals trapped in the Moon’s dark craters and the conditions necessary for them to collect there. The research could help scientists understand whether these chemicals could be a potential resource for future missions to the Moon, according to the researchers.

New research provides insights into chemicals trapped in the Moon’s dark craters and the conditions necessary for them to collect there. (Image: NASA)
New research provides insights into chemicals trapped in the Moon’s dark craters and the conditions necessary for them to collect there. (Image: NASA)

The Earth tilts about its axis as it moves around the Sun. This means that at any given moment, one of Earth’s poles is closer to the Sun than the other (this explains why Americans head to the beach, while Australians layer up). But Earth’s Moon doesn’t tilt like this. Instead, there are craters near the Moon’s poles that never receive any sunlight. Permanently engulfed in frigid darkness, these craters are appropriately called cold traps.

The Moon’s craters are scars from the comets that have been crashing into it for billions of years. These comets are made of compounds like water vapor, carbon dioxide, and methane. Without the protection of an Earth-like atmosphere, most of these chemicals break down in sunlight and escape into space.

But if these chemicals — known as volatiles, for their low boiling points — end up in the Moon’s cold traps, they can stay frozen for billions of years. Dana Hurley, a planetary scientist at Johns Hopkins University who presented the work, said:

If humans ever set up settlements on the Moon, they could use water for consumption and methane for fuel. In a new study, Haley and her colleagues researched the conditions necessary for volatiles to collect in the Moon’s cold traps.

Identifying volatiles in cold traps is challenging because they are shrouded in darkness. For over a decade, NASA’s Lunar Reconnaissance Orbiter, or LRO, has been measuring the faint UV light that emanates from stars and hydrogen in space and reflects off the Moon’s cold traps. In 2019, scientists examined the reflection data from a crater named Faustini.

Some craters near the Moon’s poles never receive any sunlight. Permanently engulfed in frigid darkness, these craters are appropriately called cold traps. (Image: NASA)
Some craters near the Moon’s poles never receive any sunlight. Permanently engulfed in frigid darkness, these craters are appropriately called cold traps. (Image: NASA)

They found an abrupt change in reflection that corresponded to ice, but also one that they thought could indicate the presence of carbon dioxide. To understand the likelihood that the unknown volatile was carbon dioxide, Haley decided to explore how much carbon dioxide was needed for it to end up in a cold trap in the first place. Hurley explained, saying:

Using data from NASA’s LRO on the sizes and temperatures of cold traps, Haley put together a probabilistic analysis called a Monte Carlo simulation to determine how much carbon dioxide would make it to a cold trap. Hurley said:

She factored in the likelihood that the molecules would be broken down by sunlight before they reached a cold trap. Haley’s model predicted that of all the carbon dioxide released on the Moon, anywhere from 15 to 20 percent would end up in a cold trap.

This was higher than previous predictions and a pretty surprising result for Hurley, considering the relatively small surface areas of cold traps. She said:

Next, Hurley plans on conducting a similar analysis for methane and carbon monoxide. More information about volatiles could guide scientists in their study of cold traps and lead to a better understanding of our celestial companion.

Provided by: Zain Humayan, American Geophysical Union [Note: Materials may be edited for content and length.]

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Troy Oakes
Troy was born and raised in Australia and has always wanted to know why and how things work, which led him to his love for science. He is a professional photographer and enjoys taking pictures of Australia's beautiful landscapes. He is also a professional storm chaser where he currently lives in Hervey Bay, Australia.

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