Tabun Khara Obo, Mongolia

Tabun Khara Obo, Mongolia
  • Credit:

    NASA image created by Jesse Allen, using EO-1 ALI data provided courtesy of the NASA EO-1 Team. Caption by Michon Scott.

In southeastern Mongolia, roughly halfway between Ulaanbaatar and Beijing, lies an ancient crater. Tabun Khara Obo (sometimes spelled with hyphens) was first identified as a probable impact crater in 1976, although confirmation of the hypothesis only occurred decades later. Drilling at the site in 2008 revealed rock features consistent with high-speed impacts such as those caused by meteorites.

The Advanced Land Imager (ALI) on NASA’s Earth Observing-1 (EO-1) satellite acquired this true-color image on August 28, 2009. Sunlight shines from the southeast, leaving the northern and western slopes in shadow. The crater’s rim rises some 20 to 30 meters (65 to 100 feet) above the crater bottom. The crater occurs on a block of Proterzoic rock more than 600 million years old, but the crater’s age—which may be considerably younger—has not yet been identified.

The dark, irregularly shaped area in the lower right corner of the image results from vegetation, likely occurring along a river channel. For the most part, the scene shows an earth-toned, arid landscape.

  1. References

  2. Amgaa, T., Koeberl, C. (2009). Impact origin of Tabun Khara Obo Crater, Mongolia, confirmed by drill core studies. 2009 Portland GSA Annual Meeting (October 18-21, 2009). Accessed September 4, 2009.
  3. Anderson, P., Ochirbat, M. (2004). The Tavan Har Impact Crater, eastern Gobi, Mongolia: A study of impact related features, Seventeenth Annual Keck Research Symposium in Geology Proceedings. Keck Geology Consortium, Northfield, MN.
  4. Earth Impact Database. Tabun-Khara-Obo. Planetary and Space Science Centre, University of New Brunswick. Accessed September 4, 2009.
  5. Komatsu, G., Olsen, J.W., Ormö, J., Di Achille, G., David A. Kring, D.A., Matsui, T. (2006). The Tsenkher structure in the Gobi-Altai, Mongolia: Geomorphological hints of an impact origin. Geomorphology, 74, 164-180.

Images & Animations


File Dimensions

  • 720x480
  • JPEG
  • 4000x4000
  • JPEG 4 MB
  • 4000x4000
  • GeoTIFF 38 MB
  • KML 34 KB

Note: Often times, due to the size, browsers have a difficult time opening and displaying images. If you experiece an error when clicking on an image link, please try directly downloading the image (using a right click, save as method) to view it locally.


  • Data Date:

    August 28, 2009
  • Visualization Date:

    September 4, 2009
  • Sensor(s):

    EO-1 - ALI
NASA - National Aeronautics and Space Administration