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Study reveals map of moon’s water near its south pole

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Study reveals map of moon’s water near its south pole


A visualization of SOFIA data measuring a signal or “light signature” of water overlaid on a visualization of the Moon as it appeared at the time of the observations in Feb. 2022. Darker blue indicates a higher concentration of water. Near the top left of the studied region, a ridge is visible in dark blue, where the water is particularly concentrated on the shady side of a steep lunar feature. Halfway down the left side of the region is Moretus Crater. The inner wall on the crater’s upper half is clearly delineated in dark blue, indicating a greater presence of water on this shady surface. Although the right side of the region is drier overall, water can still be seen tracing the insides of craters in light blue. Credit: NASA’s Goddard Space Flight Center Scientific Visualization Studio/Ernie Wright

A new study using the now-retired Stratospheric Observatory for Infrared Astronomy (SOFIA) has pieced together the first detailed, wide-area map of water distribution on the moon. SOFIA was a joint project of NASA and the German Space Agency at DLR.

With clear, identifiable lunar features marked out by the water data, the study provides hints about how water may be moving across the ‘s surface, particularly near its —an important area for .

The new map covers about one-quarter of the Earth-facing side of the lunar surface below 60 degrees latitude and extends to the moon’s south pole. Given the large region covered, the researchers could easily identify how water relates to surface features on the moon, staying away from sunlight and favoring cold areas.

“When looking at the water data, we can actually see crater rims, we see the individual mountains, and we can even see differences between the day and night sides of the mountains, thanks to the higher concentration of water in these places,” said Bill Reach, director of the SOFIA Science Center at NASA’s Ames Research Center in California’s Silicon Valley and lead author on the study, which was presented at the 2023 Lunar and Planetary Science Conference.

In late 2024, NASA’s Volatiles Investigating Polar Exploration Rover (VIPER) will land in the region studied by SOFIA, atop Mons Mouton, to conduct the first resource mapping mission beyond Earth. The flat-topped lunar mountain will be a region of emphasis in the next paper from the team that led the current study of SOFIA data.

This current finding, along with two previous SOFIA results about the amount and distribution of water on the moon’s sunlit surface, tracks a unique light signature of water. Other missions observing wide areas of the lunar surface have studied different wavelengths of light, which can’t distinguish water from similar molecules, such as hydroxyl. The moon’s water is present in the soil and might be found as ice crystals, or as water molecules chemically bound to other materials.






A new study using the now-retired Stratospheric Observatory for Infrared Astronomy (SOFIA) has pieced together the first detailed, wide-area map of water distribution on the Moon. The new map covers about one-quarter of the Earth-facing side of the lunar surface below 60 degrees latitude and extends to the Moon’s South Pole. In this data visualization, SOFIA’s lunar water observations are indicated using color, with blue representing areas of higher water signal, and brown less. Credit: NASA’s Goddard Space Flight Center Scientific Visualization Studio/Ernie Wright

Instead of determining the absolute quantity of water in the region, the researchers compared the data obtained around the moon’s south pole to a relatively dry reference region near the moon’s equator to see how its abundance changes. The water was found in greater concentrations on the shadowed sides of craters and mountains, similar to the way skiers on Earth know the slopes receiving less direct sun retain snow longer. This suggests the moon’s local geography plays an important role in the amount of water present.

As NASA prepares to send astronauts back to the moon under Artemis, the agency has identified 13 candidate landing regions near the lunar south pole. Through Artemis, NASA will land the first woman and the first person of color on the moon, and lunar water could be a critical resource for establishing a long-term human presence.

“With this map of SOFIA data, and others to come, we are looking at how water is concentrated under different lunar environmental conditions,” said Casey Honniball, a visiting assistant research scientist and VIPER science team member at NASA’s Goddard Space Flight Center, in Greenbelt, Maryland, who was involved in the work. “This map will provide valuable information for the Artemis program on potential prospecting areas but also provides regional context for future science missions, like VIPER.”

In addition to the southern region for which the new map results were created, SOFIA observations of sites relevant to other missions are in the archive and now being analyzed. NASA Artemis-related missions will target both polar and non-polar regions, including Lunar Trailblazer, which will orbit the moon to map its hydroxyl and water.

Where the moon’s water may be coming from—whether it is ancient and exists inherently in the moon’s minerals as a result of early volcanic processes on the moon or is contemporary and delivered by asteroids, comets, or solar wind, and whether it is migrating along the moon’s surface—is another important question left open by the SOFIA observations. VIPER will aim to better understand this distinction, which is important in determining if the water is widespread and deep within the surface, or only scattered at or near the surface.

It’s clear, however, that even at its lowest limit, the moon contains much more water than we once believed.

“Our from the Apollo era that the moon is bone dry was wrong,” said Paul Lucey, a professor at the University of Hawaii at Mānoa and co-author on the paper. “We already know it’s wrong, but the question is by how much.”

The study is published in The Planetary Science Journal.

More information:
William T. Reach et al, The Distribution of Molecular Water in the Lunar South Polar Region Based upon 6 μm Spectroscopic Imaging, The Planetary Science Journal (2023). DOI: 10.3847/PSJ/acbdf2

Citation:
Study reveals map of moon’s water near its south pole (2023, March 27)
retrieved 29 April 2023
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