Scientists use images from NASA's Messenger spacecraft to create these global views of Mercury, the most complete maps ever. The images were released on Feb. 22, 2013.
CREDIT: NASA/Johns Hopkins University Applied Physics Laboratory/Carnegie Institution of Washington
The surface of the planet Mercury has been completely mapped for the first time in history, scientists say.
The closest planet to the sun hasn't received as much scientific attention as some of its more flashy solar system neighbours, such as Mars, but NASA's Messenger spacecraft is helping to close the gap.
Papers published in Science Express provide support for the long-held hypothesis that Mercury's permanently shadowed polar craters contain water ice.
The probe has been in orbit around Mercury since March 2011, and its team announced Feb. 28 that the spacecraft had finished mapping the planet's surface.
"We can now say we have imaged every square meter of Mercury's surface from orbit," said Messenger principal investigator Sean Solomon of the Johns Hopkins University Applied Physics Laboratory in Laurel, Md. "Admittedly, some regions are in permanent shadow, but we're actually peering into those shadows with our imaging systems."
Before Messenger, less than half the surface had been imaged by NASA's Mariner 10 spacecraft, which made several flybys of Mercury in 1974 and 1975.
Messenger is the first probe to orbit the planet. In addition to photographing the unseen parts of Mercury, the spacecraft substantially improved on the resolution of existing maps.
"When we set out with the Messenger mission we didn't know if the planet would look like the other half that was seen in the '70s," Solomon reported.
"There was a great debate over how important volcanism was in the history of Mercury."
Messenger quickly showed that not only did volcanism occur during Mercury's past, but it might have been widespread.
The spacecraft also revealed never-before-seen types of terrain on the planet, such as surface pockmarks called hollows that scientists suspect are created when volatile materials sublimate off the surface.
"Unstable material is exposed to the temperatures and space environment, and slowly over thousands, maybe millions, of years, it's lost to Mercury's atmosphere and to space, to create a depression or hollow in an area where there are often many such hollows that etch the terrain," Solomon said.
CREDIT: NASA/Johns Hopkins University Applied Physics Laboratory/Carnegie Institution of Washington
The surface of the planet Mercury has been completely mapped for the first time in history, scientists say.
The closest planet to the sun hasn't received as much scientific attention as some of its more flashy solar system neighbours, such as Mars, but NASA's Messenger spacecraft is helping to close the gap.
Papers published in Science Express provide support for the long-held hypothesis that Mercury's permanently shadowed polar craters contain water ice.
The probe has been in orbit around Mercury since March 2011, and its team announced Feb. 28 that the spacecraft had finished mapping the planet's surface.
"We can now say we have imaged every square meter of Mercury's surface from orbit," said Messenger principal investigator Sean Solomon of the Johns Hopkins University Applied Physics Laboratory in Laurel, Md. "Admittedly, some regions are in permanent shadow, but we're actually peering into those shadows with our imaging systems."
Before Messenger, less than half the surface had been imaged by NASA's Mariner 10 spacecraft, which made several flybys of Mercury in 1974 and 1975.
Messenger is the first probe to orbit the planet. In addition to photographing the unseen parts of Mercury, the spacecraft substantially improved on the resolution of existing maps.
"When we set out with the Messenger mission we didn't know if the planet would look like the other half that was seen in the '70s," Solomon reported.
"There was a great debate over how important volcanism was in the history of Mercury."
Messenger quickly showed that not only did volcanism occur during Mercury's past, but it might have been widespread.
The spacecraft also revealed never-before-seen types of terrain on the planet, such as surface pockmarks called hollows that scientists suspect are created when volatile materials sublimate off the surface.
"Unstable material is exposed to the temperatures and space environment, and slowly over thousands, maybe millions, of years, it's lost to Mercury's atmosphere and to space, to create a depression or hollow in an area where there are often many such hollows that etch the terrain," Solomon said.
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