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Earth Impact Database Sorted by : | Name | Diameter | Age |

 

Veevers

Crater Name
Location
Latitude
Longitude
Diameter (km)
Age (Ma)*
Exposed
Drilled
Target Rock**
Bolide Type***
Veevers
Western Australia
S 22° 58'
E 125° 22'
0.08
< 1
Y
N
S
IIAB

 

Photo

DEM image Provided by Dr. Carlos Roberto de Souza Filho

Image Provided by Dr. Carlos Roberto de Souza Filho

Image Provided by Dr. Carlos Roberto de Souza Filho

References
Bevan, A. W. R., Australian crater-forming meteorites. AGSO Journal of Australian Geology & Geophysics, v. 16, pp. 421-429. 1996.
Bevan, A. W. R., Shoemaker, E.M. and Shoemaker,C.S., Metallography and thermo-mechanical treatment of the Veevers (IIAB) crater-forming iron meteorite. Records of the Western Australian Museum, v. 17, pp. 51-59. 1995.
Cockell, C. S., Lee, P., The Biology of Impact Craters - a review. Biol. Rev., 77, P. 279 - 310. 2002.
Grieve, R. A. F., Meteorite impact studies featured in Australia. Episodes, v. 13, pp. 281-282. 1990.
Grieve, R. A. F., The record of impact on Earth: Implications for a major Cretaceous/Tertiary impact event. Geological Society of America, Special Paper 190, pp. 25-37. 1982.
Gurov, E. P., Gurova, E. P., Impact structures on the Earth's surface (in Russian). Geologicheskii Zhurnal, v. 47, pp. 117-124. 1987.
Haines, P. W., Impact Cratering and Distal Ejecta: The Australian Record. Australian Journal of Earth Sciences 52, P. 481 - 507. 2005.
Miura, Y., Kato, T., Anomalous shocked quartz in Australian impact craters (abstract). Meteoritics, v. 26, pp. 373. 1991.
Roddy, D. J., Shoemaker, E.M., Shoemaker, C.S. and Roddy,J.K., Aerial photography and geologic studies of impact structures in Australia (abstract). Lunar and Planetary Science XIX, pp. 990-991. 1988.
Shoemaker, E. M., Shoemaker, C. S., Impact structures of Australia (1987) (abstract). Lunar and Planetary Science XIX, pp. 1079-1080. 1988.
Shoemaker, E. M., Shoemaker, C. S., Impact structures of Western Australia. Meteoritics, v. 20, pp. 754-756. 1985.
Smith, T., Hodge, P., Microscopic meteoritic material surrounding meteorite craters (abstract). Meteoritics, v. 28, pp. 439. 1993.
Smith, T. R., Hodge, P. W., Microscopic Meteoritic Material at the Dalgaranga, Odessa, and Veevers Meteorite Craters, 27th Lunar and Planetary Science Conference. 1996.
Yeates, A. N., Crowe, R.W.A. and Towner,R.R., The Veevers crater: a possible meteoritic feature. BMR Journal of Australian Geology and Geophysics, v. 1, pp. 77-78. 1976.

 

* pre-1977 K-Ar, Ar-Ar and Rb-Sr ages recalculated using the decay constants of Steiger and Jager (1977) Ages in millions of years (Ma) before present.

** Abbreviations: C - Crystalline Target; C-Ms - Metasedimentary Target; M - Mixed Target (i.e.sedimentary strata overlying crystalline basement); S - sedimentary target (i.e. no crystalline rocks affected by the impact event). From Osinski. G. R., Spray J. G., and Grieve R. A. F. 2007. Impact melting in sedimentary target rocks: A synthesis. In The Sedimentary Record of Meteorite Impacts, Geological Society of America Special Paper. Editors: Evans K. Horton W., King D., Morrow J., and Warme J. Geological Society of America: Boulder, in press.

***
From Koeberl,C. Identification of meteoritic components in impactites. 1998, Koeberl, C. The Geochemistry and Cosmochemistry of Impacts. 2007 and PASSC Files. (IAB, IIIAB, IIIB, IIID - Iron Meteorite)

 

 

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