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
Gallery
Education
News Center
Science Operations
Who We Are
FAQs
Related Links
Contacts
Home

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



Caloris Basin – in Color!
Click on image to enlarge.
Caloris Basin – in Color!
Release Date: July 15, 2008
Topics: 2008 Science Magazine, Caloris, Color Images, Mercury Flyby 1, WAC



Date Acquired: January 14, 2008
Image Mission Elapsed Times (MET): 108827278-108827328
Instrument: Wide Angle Camera (WAC) of the Mercury Dual Imaging System (MDIS)
Resolution: 2.3 kilometers/pixel (1.4 miles/pixel)
Scale: Caloris basin is about 1,550 kilometers in diameter (960 miles)
Spacecraft Altitude: 13,000 kilometers (8,000 miles)

Of Interest: This enhanced-color image of Mercury, recently published in Science magazine, shows the great Caloris impact basin, visible in this image as a large, circular, orange feature in the center of the picture. The contrast between the colors of the Caloris basin floor and those of the surrounding plains indicate that the composition of Mercury’s surface is variable. Many additional geological features with intriguing color signatures can be identified in this image. For example, the bright orange spots just inside the rim of Caloris basin are thought to mark the location of volcanic features, such as the volcano shown in this previously released Narrow Angle Camera (NAC) image. MESSENGER Science Team members are studying these regional color variations in detail, to determine the different mineral compositions of Mercury’s surface and to understand the geologic processes that have acted on it. Images taken through the 11 different WAC color filters were used to create this color image. The 11 different color images were compared and contrasted using statistical methods to isolate and enhance subtle color differences on Mercury’s surface.

Credit: Image produced by NASA/Johns Hopkins University Applied Physics Laboratory/Arizona State University/Carnegie Institution of Washington. Image reproduced courtesy of Science/AAAS.


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


   

   Top  | Contacts
© 1999-2014 by JHU/APL