Gravity maps of moon reveal deeply fractured crust
- Top BJP ministers attend RSS meet, Opposition questions govt's accountability
- Bharat bandh: Violence, arrest, chaos; one-day strike a 'grand success'
- Indrani, Peter brought face to face, questioned extensively; Sanjeev Khanna's laptop seized
- OROP: Veterans soften stand, may accept pension revision once in two years
- Govt to auction 69 oil & gas fields of ONGC, Oil India to private firms
Asteroids and comets colliding with the moon not only pitted its surface but also severely fractured its crust, researchers with NASA said on Wednesday, in a finding that could help crack a Martian puzzle.
On Mars, similar fracturing would have given water on the surface a way to penetrate deep in the ground, where it may remain today, they said.
"Mars might have had an ancient ocean and we're all wondering where it went. Well, that ocean could well be underground," planetary scientist Maria Zuber, with the Massachusetts Institute of Technology, told reporters at the American Geophysical Union conference in San Francisco.
The discovery that the moon's crust is deeply fractured came from a pair of small probes that comprise NASA's Gravity Recovery and Interior Laboratory, or GRAIL, mission.
The identical spacecraft have been following each other around the moon for nearly a year. Scientists have been monitoring the distance between the two, which changes slightly as they fly over denser regions of the moon.
The gravitational pull of the additional lunar mass causes first the leading probe and then the other one to speed up, altering the gap between them.
The data, assembled into the first detailed gravity maps of the moon, reveal that asteroids and comets cratered the surface and fractured the crust, possibly all the way down to the mantle.
"If you look at the surface of the moon and how heavily cratered it is, all terrestrial planets look that way, including the Earth," said Zuber, the lead GRAIL scientist. Evidence of the phenomenon on Earth was wiped out by tectonic plate movements, erosion and other natural events. "If we want to study those early periods, we need to go someplace else to do it and the moon is the closest and the most accessible example," Zuber said.