Wilkes Land crater

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Short description: Conjectured impact craters beneath the ice cap of Antarctica

Wilkes Land crater is an informal term that may apply to two separate cases of conjectured giant impact craters hidden beneath the ice cap of Wilkes Land, East Antarctica. These are separated below under the heading Wilkes Land anomaly and Wilkes Land mascon (mass concentration), based on terms used in their principal published reference sources.

Wilkes Land anomaly

A giant impact crater beneath the Wilkes Land ice sheet was first proposed by Richard A. Schmidt in 1962 on the basis of the seismic and gravity discovery of the feature made by the U.S. Victoria Land Traverse in 1959–60 (VLT), and the data provided to Schmidt by John G. Weihaupt, geophysicist of the VLT (Geophysical Studies in Victoria Land, Antarctica, Report No. 1, Geophysical and Polar Research Center, University of Wisconsin, 1–123).[1]

Schmidt further considered the possibility that it might be the elusive source of the tektites of the Australasian strewnfield (which is only 790,000 years old).

EGM2008 gravity anomaly map

The hypothesis was detailed in a paper by Weihaupt in 1976.[2] Evidence cited included a large negative gravity anomaly coincident with a subglacial topographic depression 243 kilometres (151 mi) across and having a minimum depth of 848 metres (2,782 ft).

The claims were challenged by Charles R. Bentley in 1979.[3] On the basis of a 2010 paper by Weihaupt et al.,[4] Bentley's challenge was proven to be incorrect, and the Earth Impact Database (Rajmon 2011) has now reclassified the Wilkes Land Anomaly from a "possible impact crater" to a "probable impact crater" on the basis of Weihaupt et al.'s paper. Several other potential impact crater sites have now been proposed by other investigators in the Ross Sea, West Antarctica, and the Weddell Sea.[citation needed]

Mass concentration

Map of Antarctica showing Wilkes Land, with the crater conjectured by von Frese et al. marked in red

The Wilkes Land mass concentration (or mascon) is centered at [ ⚑ ] : 70°S 120°E / 70°S 120°E / -70; 120 and was first reported at a conference in May 2006 by a team of researchers led by Ralph von Frese and Laramie Potts of Ohio State University.[5][6]

The team used gravity measurements by NASA's GRACE satellites to identify a 300 km (190 mi) wide mass concentration and noted that this mass anomaly is centered within a larger ring-like structure visible in radar images of the land surface beneath the Antarctic ice cap. That combination suggested to them that the feature may mark the site of a 480 km (300 mi) wide impact crater buried beneath the ice and more than 2.5 times larger than the 180 km (110 mi) Chicxulub crater.

Due to the site's location beneath the Antarctic ice sheet, there are no direct samples to test for evidence of impact. There are alternative explanations for this mass concentration, such as formation by a mantle plume or other large-scale volcanic activity.[citation needed] If this feature really is an impact crater then, based on the size of the ring structure, it has been suggested by Frese's team that the impactor could have been four or five times wider than the Chicxulub impactor, which is believed to have caused the Cretaceous–Paleogene extinction event.[6]

Because mass concentrations on Earth are expected to dissipate over time, Frese and his collaborators believe the structure must be less than 500 million years old and also note that it appears to have been disturbed by the rift valley that formed 100 million years ago, during the separation of Australia from the Gondwana supercontinent.[6]

The researchers speculate that the putative impact and associated crater may have contributed to this separation by weakening the Earth's crust at this location. These bracketing dates also make it possible that the site could be associated with the Permian–Triassic extinction event.[6] The Permian–Triassic extinction occurred 250 million years ago and is believed to be the largest extinction event since the origin of complex multicellular life.

Plate reconstructions for the Permian–Triassic boundary place the putative crater directly antipodal to the Siberian Traps, and Frese et al. (2009) use the controversial theory that impacts can trigger massive volcanism at their antipodes to bolster their impact crater theory.[7] However, there are already other suggested candidates for giant impacts at the Permian–Triassic boundary, such as Bedout, off the northern coast of Western Australia, although all are equally contentious and it is currently under debate whether or not an impact played any role in this extinction.

The complete absence of a well-defined impact ejecta layer associated with the Permian–Triassic boundary at its outcrops within Victoria Land and the central Transantarctic Mountains argues against there having been any impact capable of creating a crater the size of the hypothesized Wilkes Land impact crater within Antarctica at the Permian–Triassic boundary.[8][9] Nonetheless, according to Frese, recent studies in 2018 seem to sustain the impact origin of the crater, and the event may be linked to the separation of Eastern Antarctica from southern Australia.[10]

See also

References

  1. Schmidt, Richard A. (1962). "Australites and Antarctica". Science 138 (3538): 443–444. doi:10.1126/science.138.3538.443. Abstract. PMID 17794921. Bibcode1962Sci...138..443S. 
  2. Weihaupt, John G. (1976). "The Wilkes Land anomaly: Evidence for a possible hypervelocity impact crater". Journal of Geophysical Research 81 (B32): 5651–5663. doi:10.1029/JB081i032p05651. Abstract. Bibcode1976JGR....81.5651W. 
  3. Bentley, Charles R. (September 10, 1979). "No giant meteorite crater in Wilkes Land, Antarctica". Journal of Geophysical Research 84: 5681–5682. doi:10.1029/JB084iB10p05681. Abstract. Bibcode1979JGR....84.5681B. 
  4. Weihaupt, John G.; Rice, Alan; Van der Hoeven, Frans G. (2010). "Gravity anomalies of the Antarctic lithosphere". Lithosphere 2 (6): 454–461. doi:10.1130/l116.1. Abstract. Bibcode2010Lsphe...2..454W. 
  5. Frese, Ralph R. B. von; Potts, Laramie V.; Wells, Stuart B.; Gaya-Piqué, Luis-Ricardo; Golynsky, Alexander V.; Hernandez, Orlando; Kim, Jeong Woo; Kim, Hyung Rae et al. (2006). "Permian–Triassic mascon in Antarctica". American Geophysical Union, Fall Meeting 2007 2007: Abstract T41A–08. Bibcode2006AGUSM.T41A..08V. https://www.researchgate.net/publication/241531088. 
  6. 6.0 6.1 6.2 6.3 Gorder, Pam Frost (June 1, 2006). "Big Bang in Antarctica – Killer Crater Found Under Ice". Ohio State University Research News. Archived from the original on March 6, 2016. https://web.archive.org/web/20160306140004/http://researchnews.osu.edu/archive/erthboom.htm. 
  7. Frese, Ralph R. B. von; Potts, Laramie V.; Wells, Stuart B.; Leftwich, Timothy E.; Kim, Hyung Rae; Kim, Jeong Woo; Golynsky, Alexander V.; Hernandez, Orlando et al. (25 February 2009). "GRACE gravity evidence for an impact basin in Wilkes Land, Antarctica". Geochemistry, Geophysics, Geosystems 10 (2). doi:10.1029/2008GC002149. ISSN 1525-2027. https://www.researchgate.net/publication/241531088. 
  8. Retallack, Gregory J.; Seyedolali, Abbas; Krull, Evelyn S.; Holser, William T.; Ambers, Clifford P.; Kyte, Frank T. (1998). "Search for evidence of impact at the Permian–Triassic boundary in Antarctica and Australia". Geology 26 (11): 979–982. doi:10.1130/0091-7613(1998)026<0979:SFEOIA>2.3.CO;2. https://pubs.geoscienceworld.org/gsa/geology/article-abstract/26/11/979/206812/Search-for-evidence-of-impact-at-the-Permian. 
  9. Retallack, Gregory J.; Greaver, Tara; Jahren, A. Hope (January 2007). "Return to Coalsack Bluff and the Permian–Triassic boundary in Antarctica". Global and Planetary Change 55 (1–3): 90–108. doi:10.1016/j.gloplacha.2006.06.017. https://www.sciencedirect.com/science/article/abs/pii/S092181810600141X. 
  10. Klokočník, Jaroslav; Kostelecký, Jan; Bezděk, Aleš (2018). "On the detection of the Wilkes Land impact crater". Earth Planets Space 70: 135. doi:10.1186/s40623-018-0904-7. 

External links

(2006)




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