Piccaninny crater
Piccaninny crater | |
---|---|
Impact crater/structure | |
Confidence | Confirmed |
Diameter | 7 km (4.3 mi) |
Age | <360 Ma <Devonian |
Exposed | Yes |
Drilled | No |
Location | |
Location | Purnululu (Bungle Bungle) National Park |
Coordinates | 17°25′30″S 128°26′10″E / 17.42500°S 128.43611°E |
Country | Australia |
State | Western Australia |
Piccaninny crater is an impact structure, the eroded remnant of a former impact crater, situated in northern Western Australia in the Kimberley region. It was named after Piccaninny Creek and lies within the Purnululu (Bungle Bungle) National Park.[1]
Description
[edit]The site is marked by a circular topographic feature on top of the flat-topped sandstone and conglomerate Bungle Bungle Range, clearly visible on remotely sensed images.[2] When first reported in 1983 after aerial observation, it was interpreted as either an impact structure or a cryptovolcanic feature.[3] Later ground examination by E.M. and C.S. Shoemaker confirmed the presence of types of deformation confirming an impact origin.[4]
The circular topographic feature is 7 km in diameter, although due to the amount of erosion the original crater may have been larger. It has been estimated that the present land surface is 1–2 km below the original crater floor.[4] The impact event has not been dated, and must be younger than the Devonian age of the rocks in the area, but is clearly not recent because of the amount of erosion.
References
[edit]- ^ "Piccaninny". Earth Impact Database. Planetary and Space Science Centre University of New Brunswick Fredericton. Retrieved 2009-08-19.
- ^ https://maps.google.com/maps?q=Australia&ie=UTF8&om=1&z=12&ll=-17.421408,128.444939&spn=0.128409,0.342636&t=k Google Maps image
- ^ Beere GM (1983). "The Piccaninny structure – a cryptoexplosive feature in the Ord Basin, East Kimberly". Geological Survey of Western Australia Record. 1983/6. GSWA download search Archived 2009-07-13 at the Wayback Machine
- ^ a b Shoemaker EM, Shoemaker CS (1985). "Impact structures of Western Australia". Meteoritics. 20: 754–756. PDF