Image: Messenger at Mercury
NASA / JHUAPL / CIW
An artist's conception shows Messenger monitoring Mercury.
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updated 8/19/2004 6:05:28 PM ET 2004-08-19T22:05:28

With a new spacecraft bound for Mercury, that tiny planet near the heart of the solar system, researchers are hoping to solve a slew of riddles about the small world.

Among the odder Mercurian attributes scientists hope to test is a theory that the planet is shrinking, contracting in on itself as its core slowly freezes.

"It's a pretty cool thing," Mark Robinson, a Northwestern University researcher, said of Mercury's slow contraction. "When I first heard it, I thought it was weird."

But the theory is based on images from NASA's Mariner 10 mission in the 1970s that show randomly strewn scarps across half of Mercury, where the surface appears to have buckled from within. Scientists hope that the new spacecraft — Messenger — will shed new light on both Mercury's surface as well as its metallic core.

Robinson, a science team member with the Messenger mission, said the spacecraft will give researchers a chance to look for signs of surface-buckling on Mercury's hidden hemisphere, as well as to collect surface composition data on material that may have once spewed out of the planet's interior.

The Messenger mission, whose name is an acronym standing for MErcury Surface, Space ENvironment, GEochemistry, and Ranging, was launched on Aug. 3 and is expected to reach Mercury in March 2011. The spacecraft will make three successive passes around the planet before it finally enters orbit.

The incredible shrinking planet
The idea that Mercury's surface was somehow shrinking arose when Mariner 10 returned images of great scarps biting deep into the planet's surface. One such scarp, Discovery Rupes, cuts a mile (1.6-kilometer) into Mercury's crust as it snakes across the surface.

On Earth, such scarps could resemble tectonic features like the fault lines running parallel to the coastal United States, researchers said. But on Mercury, the formations are randomly distributed. The scarps also don't appear to have formed by the in-filling processes that led to similar features on Earth's moon due to their length, which can stretch hundreds of kilometers across the surface.

Image: Discovery Rupes scarp
M. Robinson  /  Northwestern University
The scarp seen at the center of this image may have been caused by a contraction of the planet Mercury, scientists say. Data from the Messenger mission could shed additional light.

Under the shrinking-surface theory, researchers believe that Mercury's crust first formed over a gigantic molten core. As that core cooled, it led to a volume change, causing the surface to buckle and break.

Unlike water, which actually expands as it cools, most materials tend to contract. The same goes for Mercury's rocky crust, Robinson said. Based on observations of the planet's known hemisphere, scientists estimate the planet's surface has shrunk inward between less than 1 kilometer and 3 kilometers (0.6 to 1.8 miles) in all, he added.

"It's not something insignificant," Robinson said.

Hard mystery to crack
But since much of the mystery surrounding Mercury's surface stems from its poorly understood core, researchers have their work cut out for them.

"Our understanding [of the core] is very rudimentary," Robinson said. "It's just based on the fact that Mercury has this very high uncompressed density."

Because Mercury is extremely dense for its size — it's comparable to Earth — researchers believe it has a large metallic, most likely iron core. But exactly how large the core is, whether its outer regions are molten, and whether it rotates to power the planet's strong magnetic field, are still unknown.

"Mercury is a small enough planet that its core should have frozen about 2.2 billion years ago," said Messenger payload manager Robert Gold, of the Johns Hopkins University Applied Physics Laboratory.

Mercury is 3,031 miles (4,878 kilometers) in diameter, a bit larger than Earth's moon.

A better view with Messenger
Messenger should give scientists the view they need to at least strengthen their shrinking-Mercury theory, if not confirm it outright.

Not only will the spacecraft spend an entire year mapping the entire planet, as opposed to the Mariner 10's 45 percent scan, it will also do so with unprecedented detail. The cameras onboard Messenger can resolve surface features down to just 60 feet across (18 meters) compared with the one-mile (1.6-kilometer) resolution offered by Mariner 10.

The spacecraft's Mercury Laser Altimeter instrument will track how the planet wobbles on its axis to help researchers determine the state of its core. Surface-scanning tools, meanwhile, will study the composition of ancient lava flows providing a window into Mercury's mantle.

"I would be very surprised if [Mercury's] unseen hemisphere has features we don't have hints about on the side we've seen," Robinson said.

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