Nakhlite

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Nakhla meteorite's two halves, showing its inner surfaces after being broken in 1998 Nakhla meteorite.jpg
Nakhla meteorite's two halves, showing its inner surfaces after being broken in 1998

Nakhlites are a group of Martian meteorites, named after the first one, Nakhla meteorite.

Contents

Nakhlites are igneous rocks that are rich in augite and were formed from basaltic magma about 1.3 billion years ago. They contain augite and olivine crystals. Their crystallization ages, compared to a crater count chronology of different regions on Mars, suggest the nakhlites formed on the large volcanic construct of either Tharsis, Elysium, or Syrtis Major Planum. [1]

History

A 2017 study dated them to at least four different eruptions from 1416 ± 7 Ma to 1322 ± 10 Ma. [2] It has been shown that the nakhlites were suffused with liquid water around 620 million years ago and that they were ejected from Mars around 10.75 million years ago by an asteroid impact. They fell to Earth within the last 10,000 years. [1]

Possible source crater in Elysium

A 6.5 km diameter crater at 29°40′26″N130°47′56″E / 29.674°N 130.799°E / 29.674; 130.799 Coordinates: 29°40′26″N130°47′56″E / 29.674°N 130.799°E / 29.674; 130.799 in the volcanic plains to the northwest of Elysium Mons has been identified as a possible source. Based on the crater dimensions, the inferred growth rate of the source volcano during that interval is 0.4–0.7 m per Ma, far slower than would be expected for a terrestrial volcano, and implying that Martian volcanism had slowed greatly by that point in history. [2]

Samples

Lafayette Lafayette (stone) meteorite.jpg
Lafayette
NWA 998 NWA 998 meteorite, nakhlite.jpg
NWA 998
Y000593 407319main jsc2009e243553.jpg
Y000593

The following samples of nakhlites are known.

See also

Related Research Articles

Martian meteorite

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Allan Hills 84001 Martian meteorite discovered in Antarctica in 1984

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Elysium Mons Martian volcano

Elysium Mons is a volcano on Mars located in the volcanic province Elysium, at 25.02°N 147.21°E, in the Martian eastern hemisphere. It stands about 12.6 km (41,000 ft) above its base, and about 14.1 km (46,000 ft) above the Martian datum, making it the third tallest Martian mountain in terms of relief and the fourth highest in elevation. Its diameter is about 240 km (150 mi), with a summit caldera about 14 km (8.7 mi) across. It is flanked by the smaller volcanoes Hecates Tholus to the northeast, and Albor Tholus to the southeast.

Nakhla meteorite Martian meteorite which landed in Egypt in 1911

Nakhla is a Martian meteorite which fell in Egypt in 1911. It was the first meteorite reported from Egypt, the first one to suggest signs of aqueous processes on Mars, and the prototype for Nakhlite type of meteorites.

Shergotty meteorite

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Amenthes quadrangle

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Tharsis quadrangle

The Tharsis quadrangle is one of a series of 30 quadrangle maps of Mars used by the United States Geological Survey (USGS) Astrogeology Research Program. The Tharsis quadrangle is also referred to as MC-9 . The name Tharsis refers to a land mentioned in the Bible. It may be at the location of the old town of Tartessus at the mouth of Guadalquivir.

Lunae Palus quadrangle Quadrangle map in Mars

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Phoenicis Lacus quadrangle

The Phoenicis Lacus quadrangle is one of a series of 30 quadrangle maps of Mars used by the United States Geological Survey (USGS) Astrogeology Research Program. The Phoenicis Lacus quadrangle is also referred to as MC-17. Parts of Daedalia Planum, Sinai Planum, and Solis Planum are found in this quadrangle. Phoenicis Lacus is named after the phoenix which according to myth burns itself up every 500 years and then is reborn.

Mars may contain ores that would be very useful to potential colonists. The abundance of volcanic features together with widespread cratering are strong evidence for a variety of ores. While nothing may be found on Mars that would justify the high cost of transport to Earth, the more ores that future colonists can obtain from Mars, the easier it would be to build colonies there.

Northwest Africa 7034

Northwest Africa 7034 is a Martian meteorite believed to be the second oldest yet discovered. It is estimated to be two billion years old and contains the most water of any Martian meteorite found on Earth. Although it is from Mars it does not fit into any of the three SNC meteorite categories, and forms a new Martian meteorite group named "Martian ". Nicknamed "Black Beauty", it was purchased in Morocco and a slice of it was donated to the University of New Mexico by its American owner.

Elephant Moraine 79001

Elephant Moraine 79001, also known as EETA 79001, is a Martian meteorite. It was found in Elephant Moraine, in the Antarctic during the 1979–1980 collecting season.

Yamato 000593

Yamato 000593 is the second largest meteorite from Mars found on Earth. Studies suggest the Martian meteorite was formed about 1.3 billion years ago from a lava flow on Mars. An impact occurred on Mars about 11 million years ago and ejected the meteorite from the Martian surface into space. The meteorite landed on Earth in Antarctica about 50,000 years ago. The mass of the meteorite is 13.7 kg (30 lb) and has been found to contain evidence of past water alteration.

Catherine Margaret Corrigan, often known as Cari Corrigan, is an American scientist best known as a curator of the meteorite collection at the Smithsonian Institution. She is a scientist in the Department of Mineral Science at the National Museum of Natural History.

Researchers in December 2016 announced the discovery by the Curiosity rover of the element boron in mineral veins on the planet Mars. No other mission to Mars has found boron. However, boron was found in Martian meteorites that included MIZ 09030 in 2013, MIL 09030, Nakhla, Lafayette, and Chassigny.

Allan Hills 77005

Allan Hills 77005 is a Martian meteorite that was found in the Allan Hills of Antarctica in 1977 by a Japanese National Institute of Polar Research mission team and ANSMET. Like other members of the group of SNCs, ALH-77005 is thought to be from Mars.

References

  1. 1 2 Treiman, A.H., "The nakhlite meteorites: Augite-rich igneous rocks from Mars" - (PDF) Chemie der Erde 65, p. 203-270, (2005). URL accessed July 30, 2011.
  2. 1 2 Cohen, B. E.; Mark, D. F.; Cassata, W. S.; Lee, M. R.; Tomkinson, T.; Smith, C. L. (2017). "Taking the pulse of Mars via dating of a plume-fed volcano". Nature Communications. 8 (1): 640. Bibcode:2017NatCo...8..640C. doi:10.1038/s41467-017-00513-8. PMC   5626741 . PMID   28974682.
  3. "Mineralogy of nakhlite Martian meteorites: Implications for their relative burial depths ", Mikouchi, T.; McKay, Gordon; Miyamoto, M., 2006, NASA Technical Reports Server
  4. "Lafayette - 800 grams Nakhlite", Martian Meteorite Compendium, C. Mayer, 2012
  5. NWA 817 – 104 grams Nakhlite
  6. NWA 998 – 456 grams Nakhlite
  7. Webster, Guy (February 27, 2014). "NASA Scientists Find Evidence of Water in Meteorite, Reviving Debate Over Life on Mars". NASA . Retrieved February 27, 2014.
  8. White, Lauren M.; Gibson, Everett K.; Thomnas-Keprta, Kathie L.; Clemett, Simon J.; McKay, David (February 19, 2014). "Putative Indigenous Carbon-Bearing Alteration Features in Martian Meteorite Yamato 000593". Astrobiology . 14 (2): 170–181. Bibcode:2014AsBio..14..170W. doi:10.1089/ast.2011.0733. PMC   3929347 . PMID   24552234.
  9. Gannon, Megan (February 28, 2014). "Mars Meteorite with Odd 'Tunnels' & 'Spheres' Revives Debate Over Ancient Martian Life". Space.com . Retrieved February 28, 2014.
  10. 1 2 3 NASA.gov
  11. Imae N., Okazaki R., Kojima H. and Nagao K. (2002a) The first Nakhlite from Antarctica (abs#1483). Lunar Planet. Sci. XXXIII. Lunar Planetary Institute, Houston
  12. Imae N., Ikeda Y., Shinoda K., Kojima H. and Iwata N. (2002c) Two Nakhlites from Antarctica: Y000593 and Y000749 (abs). Antarctic Meteorites XXVII, 45-47. Nat. Inst. Polar Res., Tokyo
  13. 1 2 Udry, Arya (2012). "Paired nakhlites MIL 090030, 090032, 090136, and 03346: Insights into the Miller Range parent meteorite". Meteoritics & Planetary Science. 47 (10): 1575–1589. Bibcode:2012M&PS...47.1575U. doi:10.1111/j.1945-5100.2012.01420.x.
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