List of possible impact structures on Earth.Karakul crater – a large impact crater which may be just a few million years older than Eltanin.The impact would have put a large amount of water and salt into the atmosphere, disrupted ice shelves, depleted the ozone layer, caused surface acidification, and increased the Earth's albedo. The impact and disruption to the weather might have helped trigger the start of ice cap formation in the Northern Hemisphere. Ice age trigger Īt the time of the impact in the Late Pliocene, the Earth was cooling. If the impact object was one km (0.6 mi) in diameter, the wave heights would have been one-fifth as great. After ten hours, waves around 35 m (115 ft) would reach Tasmania, Fiji and Central America, and the New Zealand east coast would have been washed with 60 m (200 ft) high waves. An asteroid that was four km (two mi) in diameter falling onto the five km (three mi) deep ocean would have blasted the water off the ocean floor for at least 60 km (37 mi), and made a wave over 200 m (660 ft) high on the southern end of Chile and the Antarctic Peninsula. The size of a possible tsunami has been calculated. Off the coast of Antarctica there are mudslides into the deep ocean from this age. The most well-characterised tsunami deposits are near the coast of Chile. Boulders as big as buses are mixed with marine fossils and mud. These include an erosional surface and chaotic deposits of mixed terrestrial and ocean-derived sediment. On the shorelines of the Pacific Ocean there are erosional features that are indicative of a very large tsunami. Elements enriched include calcium, aluminium and titanium. Some of these are glass, and others have spinel and pyroxene. The bolide explosion would also have produced microspherules under half a millimeter in diameter. The composition of suspected asteroid remnants has been classified as low metal mesosiderites. Based on a diameter of one km, it is estimated it would have left a crater about 35 km (22 mi) across. Assuming that there were 187 parts per billion of iridium in the asteroid, the known distribution of the metal leads to estimates that the body was over one km (0.6 mi) in size. The possible size of the asteroid was calculated by the amount of iridium found in the disturbed sediments. The supposed impacting body, the Eltanin asteroid, is estimated to have been between one and four km (0.6 and 2.5 mi) in diameter and traveling with a speed of 20 km/s (45,000 mph). Above this is SU II layer with meteorite fragments and graded silt and clay that plausibly settled out of still but dirty water. Above this is layer SU III consisting of layered sand, consistent with having been deposited from turbulently flowing water. The lowermost layer SU IV is a chaotic mixture of crumbled sediments in the form of a breccia. This area is the region of the Earth's surface with the highest known density of meteorite material coverage. Of this, 87% is melted and 13% only fragmented. The area near the Freeden Seamounts over 20,000 km 2 (7,700 sq mi) has a meteorite material surface density of 10–60 kg/m 2 (2.0–12.3 lb/sq ft). Also mixed in were melted and fragmented meteorite matter. Sediments from the Eocene and Paleocene were jumbled and deposited again chaotically. Possible debris from the asteroid is spread over an area of 500 km 2 (190 sq mi). Sediment at the bottom of the five km (3 mi) deep ocean in the area had an iridium enrichment, a strong sign of extraterrestrial contamination. Later studies were done by the vessel Polarstern. The possible impact site was first discovered in 1981 as an iridium anomaly in sediment cores collected by the research vessel Eltanin, after which the site and impactor are named. The impact likely evaporated 150 km 3 (36 cu mi) of water, generating large tsunami waves hundreds of metres high. No crater associated with the impact has been discovered. The asteroid was estimated to be about one to four km (0.6 to 2.5 mi) in diameter. The location was at the edge of the Bellingshausen Sea 1,500 km (950 mi) southwest of Chile, with a seafloor depth of approximately 4–5 kilometres (2.5–3.1 mi). The Eltanin impact is thought to be an asteroid impact in the eastern part of the South Pacific Ocean that occurred around the Pliocene- Pleistocene boundary approximately 2.51 ± 0.07 million years ago. The possible impact site is located at the edge of the Bellingshausen Sea (part of the Southern Ocean)
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |