Science

New images reveal moon isn’t as ‘full’ as it used to be – and could still be shrinking

New images reveal moon isn’t as ‘full’ as it used to be – and could still be shrinking
Image showing a thrust fault having pushed crustal materials (arrows) up the side of the farside impact crater named Gregory (Image: NASA/Goddard/Arizona State University/Smithsonian)
Image showing a thrust fault having pushed crustal materials (arrows) up the side of the farside impact crater named Gregory (Image: NASA/Goddard/Arizona State University/Smithsonian)
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Another fault cut across and deformed several small diameter (~40-m diameter) impact craters (arrows) on the flanks of Mandel'shtam crater (Image: NASA/Goddard/Arizona State University/Smithsonian)
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Another fault cut across and deformed several small diameter (~40-m diameter) impact craters (arrows) on the flanks of Mandel'shtam crater (Image: NASA/Goddard/Arizona State University/Smithsonian)
The distribution of lobate scarp features located thus far (Image: NASA/Goddard/Arizona State University/Smithsonian)
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The distribution of lobate scarp features located thus far (Image: NASA/Goddard/Arizona State University/Smithsonian)
Thrust faults are formed when the lunar crust is pushed together, breaking the near-surface materials (Image: Arizona State University)
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Thrust faults are formed when the lunar crust is pushed together, breaking the near-surface materials (Image: Arizona State University)
Image showing a thrust fault having pushed crustal materials (arrows) up the side of the farside impact crater named Gregory (Image: NASA/Goddard/Arizona State University/Smithsonian)
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Image showing a thrust fault having pushed crustal materials (arrows) up the side of the farside impact crater named Gregory (Image: NASA/Goddard/Arizona State University/Smithsonian)
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The moon is shrinking according to a team analyzing new images from NASA’s Lunar Reconnaissance Orbiter (LRO). The images reveal previously unknown cliffs, called lobate scarbs. These are thrust faults that occur primarily in the lunar highlands that indicate the moon shrank globally in the geologically recent past and might still be shrinking today. Although they were first recognized in photographs taken near the moon's equator by the panoramic cameras flown on the Apollo 15, 16 and 17 missions, the fourteen previously unknown lobate scarbs revealed by the very high resolution images taken by the LRO camera indicate that the thrust faults are globally distributed and not clustered near the moon’s equator.

Lead author of a paper on the new findings, Dr. Thomas Watters of the Center for Earth and Planetary Studies at the Smithsonian's National Air and Space Museum, Washington, estimates the cliffs formed less than a billion years ago, and they could be as young as a hundred million years. While ancient in human terms, it is less than 25 percent of the moon's current age of more than four billion years.

"Based on the size of the scarps, we estimate the distance between the moon's center and its surface shrank by about 300 feet (91m)," said Watters.

Cooling moon

The moon formed in a chaotic environment of intense bombardment by asteroids and meteors. These collisions, along with the decay of radioactive elements, made the moon hot. The moon cooled off as it aged, and scientists have long thought the moon shrank over time as it cooled, especially in its early history. The new research reveals relatively recent tectonic activity connected to the long-lived cooling and associated contraction of the lunar interior.The scarps are relatively small; the largest is about 300 feet high and extends for several miles or so, but typical lengths are shorter and heights are more in the tens of yards (meters) range. The team believes they are among the freshest features on the moon, in part because they cut across small craters. Since the moon is constantly bombarded by meteors, features like small craters (those less than about 1,200 feet across) are likely to be young because they are quickly destroyed by other impacts and don’t last long. So, if a small crater has been disrupted by a scarp, the scarp formed after the crater and is even younger.

Another fault cut across and deformed several small diameter (~40-m diameter) impact craters (arrows) on the flanks of Mandel'shtam crater (Image: NASA/Goddard/Arizona State University/Smithsonian)
Another fault cut across and deformed several small diameter (~40-m diameter) impact craters (arrows) on the flanks of Mandel'shtam crater (Image: NASA/Goddard/Arizona State University/Smithsonian)

Even more compelling evidence is that large craters, which are likely to be old, don't appear on top any of the scarps, and the scarps look crisp and relatively undegraded.

Scarb distribution

The fact the scarbs are globally distributed makes a shrinking moon the most likely explanation for their wide distribution according to the team. As the moon contracted, the mantle and surface crust were forced to respond, forming thrust faults where a section of the crust cracks and juts out over another. Many of the resulting cliffs, or scarps, have a semi-circular or lobe-shaped appearance, giving rise to the term "lobate scarps". Scientists aren't sure why they look this way; perhaps it's the way the lunar soil (regolith) expresses thrust faults, according to Watters.

The distribution of lobate scarp features located thus far (Image: NASA/Goddard/Arizona State University/Smithsonian)
The distribution of lobate scarp features located thus far (Image: NASA/Goddard/Arizona State University/Smithsonian)

Lobate scarps are found on other worlds in our solar system, including Mercury, where they are much larger. "Lobate scarps on Mercury can be over a mile high and run for hundreds of miles," said Watters. Massive scarps like these lead scientists to believe that Mercury was completely molten as it formed. If so, Mercury would be expected to shrink more as it cooled, and thus form larger scarps, than a world that may have been only partially molten with a relatively small core. Our moon has more than a third of the volume of Mercury, but since the moon's scarps are typically much smaller, the team believes the moon shrank less.

Because the scarps are so young, the moon could have been cooling and shrinking very recently, according to the team. Seismometers emplaced by the Apollo missions have recorded moonquakes. While most can be attributed to things like meteorite strikes, the Earth's gravitational tides, and day/night temperature changes, it's remotely possible that some moonquakes might be associated with ongoing scarp formation, according to Watters. The team plans to compare photographs of scarps by the Apollo Panoramic Cameras to new images from LRO to see if any have changed over the decades, possibly indicating recent activity.

While Earth's tides are most likely not strong enough to create the scarps, they could contribute to their appearance, perhaps influencing their orientation, according to Watters. During the next few years, the team hopes to use LRO's high-resolution Narrow Angle Cameras (NACs) to build up a global, highly detailed map of the moon. This could identify additional scarps and allow the team to see if some have a preferred orientation or other features that might be associated with Earth's gravitational pull.

The paper, "Evidence of Recent Thrust Faulting on the Moon Revealed by the Lunar Reconnaissance Orbiter Camera" appears in the Aug. 20 issue of the journal Science.

Via NASA

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