- Liverpool crater
Liverpool is a
meteorite impact crater situated inArnhem Land within theNorthern Territory ,Australia . It was named after the nearby Liverpool River. The site is remote and difficult to access. The crater has a raised near circular rim averaging about 1.6 km in diameter. It was first noticed by geologists during reconnaissance geological mapping in the 1960s, and although an impact origin was considered possible, this was not confirmed until a more detailed study was undertaken in 1970cite journal | author=Guppy DJ, Brett R, Milton DJ | title=Liverpool and Strangways craters, Northern Territory; two structures of probable impact origin | journal=Journal of Geophysical Research | volume=76 | issue= | year=1971 | pages=5387–93 | id= | doi=10.1029/JB076i023p05387 ] ,cite journal | author=Haines PW | title=Impact cratering and distal ejecta: the Australian record | journal=Australian Journal of Earth Sciences | volume=52 | issue= | year=2005 | pages=481–507 | doi=10.1080/08120090500170351 [http://www.ingentaconnect.com/content/tandf/aes/2005/00000052/F0020004/art00003 Abstract] ] .The crater lies within flat-lying
Paleoproterozoic sandstone of theMcArthur Basin . This sandstone has been fractured and brecciated by the impact event to form the rim. Flat-lying and non-deformed sandstone that must have been deposited after the impact event is exposed within the center of the crater. Because the crater is quite well preserved, it can be argued that it was buried by youngersedimentary rock soon after the impact event; this younger rock has now been mostly eroded away except in the crater center. The crater filling sandstone was originally thought to be ofCretaceous age ] , leading to the Cretaceous age listed for the crater in older literature sources. However, more recent studies suggest that the infilling rock is more likely to be ofNeoproterozoic age (1000-543 Ma) ] ,cite journal | author=Shoemaker EM, Shoemaker CS | title=Notes on the geology of Liverpool Crater, Northern Territory, Australia | journal=Lunar and Planetary Science Conference | volume=XXVIII | issue= | year=1997 | pages=abstract 1662 [http://www.lpi.usra.edu/meetings/lpsc97/pdf/1662.PDF PDF] ] ,cite journal | author=Shoemaker EM, Macdonald FA, Shoemaker CS | title=Geology of five small Australian impact craters | journal=Australian Journal of Earth Sciences | volume=52 | issue= | year=2005 | pages=529–44 | doi=10.1080/08120090500180921 [http://journalsonline.tandf.co.uk/link.asp?id=t2n7222127867711 Abstract] ] , and therefore the crater is more likely to have formed at some time during the Neoproterozoic.No meteorite fragments have been found at the site. This is not surprising considering its great age; such fragments would have weathered away. Evidence supporting an impact origin includes the geological structure of the crater, and the discovery of
shocked quartz ] . The crater is not perfectly circular, but is about 6% broader in a northeast-southwest direction and the internal parts of the crater are also asymmetric is such a way as to imply that the impact was oblique from the southwest ] .References
External links
* [http://www.unb.ca/passc/ImpactDatabase/images/liverpool.htm Liverpool at the Earth Impact Database]
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