Moon’s craters give new clues to early solar system bombardment

September 16, 2010  |  Media Contact: Richard Lewis |  401-863-2476
Big craters by the thousands - A research team led by Brown University mapped nearly 5,200 craters on the Moon, the first global catalog of large craters on the lunar surface. The crater analysis could shed light on planetary bombardment in the inner solar system more than 4 billion years ago.
Big craters by the thousands A research team led by Brown University mapped nearly 5,200 craters on the Moon, the first global catalog of large craters on the lunar surface. The crater analysis could shed light on planetary bombardment in the inner solar system more than 4 billion years ago. Credit: NASA/LRO/LOLA/GSFC/MIT/Brown
A first-ever uniform, comprehensive catalog of large craters on the Moon is providing new clues to the bombardment history that characterized the chaotic early days of the inner solar system. In a paper that appears on the cover of Science, a research team led by Brown University identified and mapped more than 5,000 large craters, established the oldest regions on the Moon, and confirmed a theory about past solar system bombardment.

PROVIDENCE, R.I. [Brown University] — The Moon looks like a pockmarked golf ball. The dimples and divots on its surface are testament that our satellite has withstood a barrage of impacts from comets, asteroids and other space matter throughout much of its history. Because the geological record of that pummeling remains largely intact, scientists have leaned on the Moon to reconstruct the chaotic early days of the inner solar system.

Now a team led by Brown University planetary geologists has produced the first uniform, comprehensive catalog of large craters on the Moon that could shed light on the full-scale, planetary bombardment that characterized the inner solar system more than 4 billion years ago. In a paper appearing on the cover of Science, the team used data from the Lunar Orbiter Laser Altimeter, one of a suite of instruments aboard NASA’s Lunar Reconnaissance Orbiter, to identify and map 5,185 craters that are 20 kilometers in diameter or larger.

From the crater count and analysis, the team, which includes scientists from the Massachusetts Institute of Technology and the NASA Goddard Space Flight Center, determined the Moon’s oldest regions are the southern near side and the north-central far side. The group also confirmed that the South Pole–Aitken Basin is the oldest basin, meaning that any samples from there could be invaluable to further understanding the Moon and other bodies of the inner solar system.

In all, the findings “are telling us something about the infancy of the solar system,” said James W. Head III, a planetary geologist at Brown and the paper’s lead author. “It is clear we can find out and learn so much more from future missions, robotic or otherwise. There is so much to do.”

A major finding deals with the stream of projectiles pinballing throughout the inner solar system in its earliest days. For years, the prevailing wisdom was that the Moon was buffeted by a volley of space matter that held a steady ratio between larger and smaller objects, which planetary scientists refer to as “size-frequency distribution.”

The bombardment activity has never been questioned. But in 2005, the size-frequency distribution was challenged. In a paper in Science, a group led by University of Arizona geologist Robert Strom hypothesized that the ratio of larger and smaller objects striking the Moon had differed during its first billion years of existence. The Brown-led team’s crater analysis lends added credence to that hypothesis. The researchers studied impact craters formed early in the Moon’s history (when major basins were created by large projectiles striking the surface) and compared them with those they knew were formed later (when objects struck lava flows that had covered these basins). They found that the oldest surfaces (located in the lunar highlands) bore crater markings indicating a greater ratio of larger projectiles. The group looked in particular at Orientale Basin, formed by a massive impactor about 3.8 billion years ago, and determined that this is approximately when the era of larger projectiles versus smaller projectiles ended.

The finding opens a set of intriguing questions for what was going on in the inner solar system leading up to roughly the time that Orientale Basin was formed, said Caleb Fassett, a postdoctoral researcher at Brown and a contributing author on the paper.

“We know the asteroid belt has been spinning off projectiles at a relatively constant rate for three and a half billion years,” he said. “But now we go back earlier in the solar system’s history, and suddenly things are completely different. That implies there’s a different forcing to the asteroid belt. What has caused that different forcing is still not known.”

The scientists think the change may have been caused by the gravitational pull on the asteroid belt exerted by larger planets such as Jupiter and Saturn as they settled into their orbits, a temporary abundance of comets, an unexplained change in the size of matter emanating from the asteroid belt, or something else.

The Lunar Orbiter Laser Altimeter — LOLA — measures the Moon’s surface topography at a vertical precision of 10 centimeters using laser pulses bounced off the lunar surface just 25 meters apart.

“The topography of the Moon has been measured before, but this takes it to another level with the accuracy of data points and spatial resolution,” said Maria Zuber, a planetary geologist at MIT who earned her doctorate at Brown in 1986 and is a contributing author to the paper.

Seth Kadish, a graduate student at Brown, contributed to the study by analyzing the craters and assessing the results. Other authors are Erwan Mazarico and David Smith from MIT and Gregory Neumann from NASA Goddard. Head, Neumann, Smith, and Zuber are members of the NASA LOLA team.

NASA funded the research.

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