Monturaqui
| Monturaqui | |
|---|---|
 | |
| Impact crater/structure | |
| Diameter | 350 m × 370 m (1,150 ft × 1,210 ft) |
| Depth | 34 m (112 ft) |
| Impactor diameter | 15 m (49 ft) |
| Age | 663,000 ± 90,000 years ago |
| Exposed | Yes |
| Drilled | No |
| Bolide type | Group 1 octahedrite |
| Location | |
| Coordinates | 23°55′39″S 68°15′42″W / 23.92750°S 68.26167°W[1] |
| Country | Chile |
| State | Antofagasta Region |
  | |
Monturaqui is an impact crater in Chile. It lies south of the Salar de Atacama and was formed 663,000 ± 90,000 years ago by the impact of an IAB meteorite. It is 350 m × 370 m (1,150 ft × 1,210 ft) wide and 34 m (112 ft) deep and contains a salt pan. Only a few remnants of the meteorite that formed the crater have been collected, with most of the rocks being of local origin. The crater was discovered in 1962 and identified as an impact crater in 1966.
Human history
The crater was first suspected to be an impact crater in 1962,[2] when it was found on aerial images. After geologic research on the site found evidence of the impact event,[3] it was identified as an impact crater in 1966.[4] The crater has not been drilled.[5] Its name is derived from the mountain range where it is located[3] and from the town of Monturaqui 70 km (43 mi). The closest town is Peine, 35 km (22 mi) northeast of the crater.[6]
An old
Geography and geomorphology
Monturaqui lies in a remote region of the Atacama Desert[15] south of the Salar de Atacama, in the "precordillera". The city of Antofagasta lies 200 km (120 mi) northwest of the crater.[4] Administratively, the crater is in the Antofagasta Region.[11]
Monturaqui is a nearly circular,
It is located at about 3,015 m (9,892 ft) elevation.[4] The terrain in the area consists of Paleozoic granites that are covered by Pliocene ignimbrites,[23] and slopes northward to the Salar de Atacama, thus explaining the tilt of the crater.[7] Dykes cut through the granitic units, and both ignimbrites and granites are faulted.[18] The impact primarily affected the granitic units[24] but both units are apparent in the crater walls and the ignimbrites cover the rim crest.[1]
Impact event
The impact has been dated with radiometric dating to have occurred about 663,000 ± 28,000 years ago.[25] Various surface exposure dating techniques yield ages of about 500,000–780,000 years.[1] Since then, erosion has altered the crater by depositing fluvial and mass wasting deposits in it,[26] gullying its sides[19] and by lowering the rim.[15] Originally, the Monturaqui crater was connected with the Campo del Cielo[6] or the Rio Cuarto impact structures in Argentina.[27]
The meteorite probably hit from the northwest
Impactor
The impacting body was a metallic asteroid containing iron and nickel.[3] It has been identified as a group I octahedrite[4] and as an IAB meteorite[31] with a size of about 15 m (49 ft).[1]
Impact products
The impact has produced rocks such as
Only a few[33] or no fragments of the meteorite have been recovered.[15] Given the proximity of the crater to an old road, this may be due to traders and herdsmen removing meteorite fragments[8] but it may also be due to the metals being oxidized over time.[7] They include rocks called "iron shale",[34] they are magnetic indicating their origin in the meteorite.[8]
The nonoxidized parts consist of
References
Citations
- ^ a b c d e f Peate et al. 2010, p. 1.
- ^ Roeschmann & Rada 2000, p. 1.
- ^ S2CID 239286702, retrieved 2021-06-25
- ^ a b c d e f Ugalde, Valenzuela & Milkereit 2007, p. 2153.
- JSTOR 24099350.
- ^ a b c Sanchez & Cassidy 1966, p. 4895.
- ^ a b c d Buchwald 1975, p. 1405.
- ^ a b c Sanchez & Cassidy 1966, p. 4893.
- ^ a b Kaniansky & Molnár 2015, p. 120.
- ^ a b Valenzuela & Benado 2018, p. 110.
- ^ a b Martínez, Tomás (2015). Estado actual de reconocimiento y distribución geográfica del Patrimonio Geológico Chileno (PDF). XIV Congreso Geológico Chileno (in Spanish). p. 423. Archived from the original (PDF) on June 25, 2021.
- ^ Valenzuela & Benado 2018, p. 107.
- ^ Valenzuela & Benado 2018, p. 111.
- ^ "Bienestar humano y manejo sustenable en San Pedro de Atacama - Chile" (PDF). Millennium Ecosystem Assessment (in Spanish). Retrieved 25 June 2021.
- ^ a b c d e Crósta et al. 2019, p. 196.
- ^ a b Bunch & Cassidy 1972, p. 95.
- ^ a b Sanchez & Cassidy 1966, p. 4891.
- ^ a b c Ugalde, Valenzuela & Milkereit 2007, p. 2159.
- ^ S2CID 38544565.
- ^ Crósta et al. 2019, p. 197.
- ISBN 978-3-540-31538-4, retrieved 2021-06-25
- S2CID 132557766.
- ^ Ugalde, Valenzuela & Milkereit 2007, p. 2157.
- ^ Ugalde, Valenzuela & Milkereit 2007, p. 2162.
- ISSN 1871-1014.
- ^ Ugalde, Valenzuela & Milkereit 2007, pp. 2158–2159.
- ^ Brobst, Donald Albert (1970). Barite: World Production, Reserves, and Future Prospects. U.S. Government Printing Office. p. 24.
- ^ a b Bunch & Cassidy 1972, p. 110.
- ^ Roeschmann & Rada 2000, p. 3.
- ^ Roeschmann & Rada 2000, p. 6.
- ^ Kaniansky & Molnár 2015, p. 121.
- S2CID 7590495.
- ^ a b Roeschmann & Rada 2000, p. 2.
- ^ Buchwald 1975, p. 1406.
- S2CID 129916750.
- ^ Bender Koch, C.; Buchwald, V. F. (1994). "Weathering of iron meteorites from Monturaqui, Chile". Meteoritics. 29."
- .
General sources
- Buchwald, Vagn F. (1975), Iron Meteorites Supplement: Guadaloupe County - Monturaqui, University of California Press, retrieved 2021-06-25
- Bunch, T. E.; Cassidy, William A. (1972). "Petrographic and electron microprobe study of the Monturaqui impactite". Contributions to Mineralogy and Petrology. 36 (2): 95–112. S2CID 129022135.
- Crósta, A.P.; Reimold, W.U.; Vasconcelos, M.A.R.; Hauser, N.; Oliveira, G.J.G.; Maziviero, M.V.; Góes, A.M. (May 2019). "Impact cratering: The South American record—Part 2". Geochemistry. 79 (2): 191–220. S2CID 133991514.
- Kaniansky, Stanislav; Molnár, Kristian (2015). A new analysis of Monturaqui Meteorites (PDF). Proceedings of the IMC. Mistelbach.
- Peate, I. Ukstins; van Soest, M. C.; Wartho, J. A.; Cabrol, N.; Grin, E.; Piatek, J.; Chong, G. (2010). A novel application of (U-Th)/He geochronology to constrain the age of small, young meteorite impact craters: A case study of the Monturaqui crater, Chile (PDF). 41st Lunar and Planetary Science Conference.
- Roeschmann, C.; Rada, C. (2000). El impacto meteoritico de Monturaqui, Region de Antofagasta, Chile: Productos y procesos. 9th Chilean Geological Congress (in Spanish) – via Academia.edu.
- Sanchez, Joaquin; Cassidy, William (1966). "A previously undescribed meteorite crater in Chile" (PDF). Journal of Geophysical Research. 71 (20): 4891–4895. ISSN 2156-2202.
- Ugalde, Hernan; Valenzuela, Millarca; Milkereit, Bernd (2007). "An integrated geophysical and geological study of the Monturaqui impact crater, Chile". Meteoritics & Planetary Science. 42 (12): 2153–2163. S2CID 140698217.
- Valenzuela, Millarca; Benado, José (2018), Acevedo, Rogelio Daniel; Frías, Jesús Martínez (eds.), "Meteorites and Craters Found in Chile: A Bridge to Introduce the First Attempt for Geoheritage Legal Protection in the Country", Geoethics In Latin America, The Latin American Studies Book Series, Cham: Springer International Publishing, pp. 103–115, ISBN 978-3-319-75373-7, retrieved 2021-06-25
External links
- Cukierski, Daniel Owen (2013-05-01). Textural and compositional analysis of Fe-Ni metallic spherules in impact melt from Monturaqui Crater, Chile (Theses and Dissertations). .
- Kloberdanz, Christine Marie (2010). Geochemical analysis of the Monturaqui impact crater, Chile (Diss). University of Iowa.
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