A NASA Discovery mission to conduct the first orbital study
of the innermost planet
NASA logo carnegie institution logo JHU APL logo

Why Mercury?
The Mission
News Center
Science Operations
Who We Are
Related Links

Download iPhone/iPad app Explore orbital data with quickmap Question and Answer End of Orbit Insertion Where is MESSENGER? Where is Mercury now? Subscribe to MESSENGER eNews

Weird Terrain on Mercury
Click on image to enlarge.
Weird Terrain on Mercury
Release Date: March 24, 2009
Topics: Comparisons with Mariner 10, LPSC Presentations, Mercury Flyby 2,

Date Acquired: October 6, 2008
Instrument: Narrow Angle Camera (NAC) of the Mercury Dual Imaging System (MDIS)
Resolution: 1 kilometer/pixel (0.6 miles/pixel)
Scale: The large, smooth-floored crater just left of center is 150 kilometers (93 miles) in diameter
Location: Images cover 327°-347°E, 25°-35°S

Of Interest: The area on the opposite side of Mercury from the large Caloris impact basin is home to uncommonly bumpy and grooved terrain. Mariner 10 first observed the unusual surface textures at the Caloris antipodal region, and the Mariner 10 team informally dubbed it the "weird terrain." (Official geologic maps later adopted the more staid term "hilly and lineated terrain.") MESSENGER images from the mission's second Mercury flyby provide a second look at this "weird terrain" under substantially different lighting conditions. The top image is from Mariner 10, and the bottom image shows the same surface as seen by MESSENGER. The "weird terrain" is found mostly to the right of the large, smooth-floored crater in the images.

MESSENGER Science Team members are using the new views of the "weird terrain" to compare this region on Mercury with impact basin antipodes on the Moon. Basin antipodes on the Moon often contain unusual magnetized crust along with curving bright features called "lunar swirls." The different lighting condition of the MESSENGER images allowed a new search for swirl-like features near the Caloris antipode, but no obvious swirls have been found so far. Two years from now, imaging from orbit will provide a range of lighting conditions, enabling a more complete search for any swirl features. Additionally, once in orbit, MESSENGER's Magnetometer may be able to detect the presence of any magnetized crust in this region and other basin antipodes.

This new science result and the above images are being presented this week at the 40th Lunar and Planetary Science Conference. MESSENGER team members are making a total of 25 presentations at this annual meeting.

Credit: NASA/Johns Hopkins University Applied Physics Laboratory/Carnegie Institution of Washington

For information regarding the use of MESSENGER images, see the image use policy.


   Top  | Contacts
© 1999-2015 by JHU/APL