The Moon's Battered History
Twin spacecraft create a highly detailed gravity map of the Moon, finding an interior pulverized by early impacts
Now scientists at MIT, NASA, the Jet Propulsion Laboratory and elsewhere have found evidence that, beneath its surface, the Moon’s crust is almost completely pulverized. The finding suggests that, in its first billion years, the Moon -- and probably other planets like Earth -- may have endured much more fracturing from massive impacts than previously thought.
The startling observations come from data collected by NASA’s Gravity Recovery and Interior Laboratory (GRAIL) mission. Since March, the mission’s twin spacecraft, named Ebb and Flow, have been orbiting the Moon and measuring its gravitational field.
From GRAIL’s measurements, planetary scientists have now stitched together a high-resolution map of the Moon’s gravity -- a force created by surface structures like mountains and craters, as well as deeper structures below the surface. The resulting map reveals an interior gravitational field consistent with an incredibly fractured lunar crust.
“It was known that planets were battered by impacts, but nobody had envisioned that the [Moon’s] crust was so beaten up,” says MIT’s Maria Zuber, who leads the GRAIL mission and is the E. A. Griswold Professor of Geophysics in the Department of Earth, Atmospheric and Planetary Sciences. “This is a really big surprise, and is going to cause a lot of people to think about what this means for planetary evolution.”
Zuber and her colleagues detail their findings from GRAIL in three papers published this week in Science.
Lifting a Veil
To generate the gravity map, GRAIL’s two probes measure the changing distance between themselves as they orbit in tight formation around the Moon. As one of the probes flies over a large mass, such as a mountain or dense, underground rock, the stronger local gravity will pull that probe ahead, widening the space between the two spacecraft. Scientists can translate this changing distance into a gravitational map, representing the gravity produced by both the surface structures and the interior.
To find the gravitational field for the Moon’s interior alone, Zuber’s team used topographic measurements from another of their instruments, a laser altimeter aboard the Lunar Reconnaissance Orbiter, a separate spacecraft in orbit around the Moon. The scientists calculated the gravitational field expected to be produced by the Moon’s topography -- its surface structures alone -- then subtracted that field from the field measured by GRAIL.
“It’s essentially like removing a veil to reveal the gravity due to the inside of the planet,” Zuber says. “And when we saw those maps, we were just speechless.”
Compared to the surface, the map of the interior looked extraordinarily smooth. In fact, the team found that most of the local variations in the Moon’s gravity are due to surface features, such as crater rims and mountains. Except for the large impact basins, the Moon’s upper crust largely lacks dense rock structures and is instead likely made of porous, pulverized material.
“This is interesting for the Moon,” Zuber says. “But what it also means is that every other planet was being bombarded like this.” The resulting fractures, she says, affect the way a planetary body loses heat and also provide a pathway for the transport of interior fluids.
Perfect Times Two
In addition to GRAIL’s discoveries, Zuber says another major accomplishment has been the performance of the spacecraft themselves. To achieve the mission’s science goals, the two probes, which can travel more than 200 kilometers apart, needed to be able to measure changes in the distance between them to within a few tenths of a micron per second. But GRAIL actually outperformed its measurement requirements by about a factor of five, resolving changes in spacecraft distance to several hundredths of a micron per second -- one twenty-thousandth the velocity that a snail travels.
“On this mission, with two spacecraft, everything had to go perfectly twice,” Zuber says, adding proudly, “Imagine you’re a parent raising a twins, and your children sit down at the piano and play a duet perfectly. That’s how it feels.”