Glikson crater
Glikson crater | |
---|---|
Impact crater/structure | |
Confidence | Confirmed |
Diameter | 19 km (12 mi) |
Age | Paleozoic |
Exposed | Yes |
Drilled | No |
Location | |
Location | Little Sandy Desert |
Coordinates | 23°59′S 121°34′E / 23.983°S 121.567°E |
Country | Australia |
State | Western Australia |
Glikson crater is an impact structure (or astrobleme), the eroded remnant of a former impact crater, situated in the Little Sandy Desert of central Western Australia.[1] A possible impact structure was first reported in 1997, and named after Australian geologist A. Y. Glikson, attention to the site being drawn by the presence of a prominent 14 km diameter ring-shaped aeromagnetic anomaly.[2] The area within the ring contains sparse outcrop of uplifted and deformed Neoproterozoic sandstone, but is largely covered by sand dunes. The recent discovery of shatter cones and microscopic shock effects is reliable evidence for an impact origin.[3] Deformation of the sandstone consistent with an impact origin extends out to a diameter of 19 km, which is the best estimate for the original diameter of the original crater. The ring-shaped aeromagnetic anomaly was probably caused by disruption of a horizontal layer of magnetic igneous rock, known as a sill, by the impact event. Nearby outcrops of dolerite have been dated at 508 ± 5 Ma (Middle Cambrian), and if this is the same rock causing the aeromagnetic anomaly, then the impact must be younger, probably of Paleozoic age.[3]
References
[edit]- ^ "Glikson". Earth Impact Database. Planetary and Space Science Centre University of New Brunswick Fredericton. Retrieved 30 December 2008.
- ^ Shoemaker EM, Shoemaker CS (1997). "Glikson, a probable impact structure, Western Australia". Lunar and Planetary Science Conference. XXVIII (Part 3): 1309–131, abstract 1669. Bibcode:1997LPI....28.1309S. Conference abstract Archived 19 December 2008 at the Wayback Machine
- ^ a b Macdonald FA, Wingate MT, Mitchell K (2005). "Geology and age of the Glikson impact structure, Western Australia". Australian Journal of Earth Sciences. 52 (4–5): 641–651. Bibcode:2005AuJES..52..641M. doi:10.1080/08120090500170419. S2CID 54593001. Abstract[permanent dead link ]