The lunar rover China sent to explore the Moon has come across odd-looking rocks that stand out from their surroundings. According to a NASA scientists, it is possible that the strange rocks were created by small asteroid impacts on the lunar surface.

China's latest robotic rover on the Moon is known as Yutu-2. It was deployed through the Chang'e 4 mission, which was officially launched by the China National Space Administration on Dec. 7, 2018.

Yutu-2 Rover
Rock fragments, including one specimen (circled) targeted for analysis, discovered by the Yutu-2 rover. CNSA/CLEP/Our Space

Exploring The Moon's Von Karman Crater

For the mission, China focused its rover activities on exploring the Von Karman crater, which is located within the Moon's South Pole-Aitken Basin. The vast crater measures 110-miles wide and is believed to be about 3.6 billion years old. According to scientists, during its formation, the crater was filled with lava, which left it smooth and dark.

As the Yutu-2 was exploring the crater, it came across a set of rocks that looked very different from the other rocks it analyzed on the Moon. Compared to the other rocks, Yutu-2's new specimen has a lighter color and appears to be relatively younger due to the lack of erosion. On the Moon, older rocks tend to erode more due to micrometeorites impact and extreme changes in the temperature.

Chinese Chang'e-4 spacecraft
Chinese Chang'e-4 spacecraft Chinese National Space Administration

Explaining the Strange Rock's Composition

After looking at the rocks, Dan Moriarty, a postdoctoral program fellow at NASA's Goddard Space Flight Center, theorized that they might have been formed by a material that's very different from what can be found in the surrounding region.

Since all the rocks "look fairly similar in size and shape, it is reasonable to guess that they might all be related," he told Space.com. "Chang'e-4 landed on a volcanic mare, [a] basalt patch, and those volcanic materials are much darker than normal lunar highlands crust. If these rocks are indeed brighter than the soil, it could mean that they are made up of a higher component of bright, highlands crust materials than the surrounding volcanic-rich soils."

Moriarty noted that it is possible that the rocks were welded together when they were formed, which means they could be regolith breccia. This type of rock forms due to the extreme heat caused by a meteorite impact.