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词条 Nakhla meteorite
释义

  1. History

     Nakhla dog 

  2. Classification

     Signs of water  Signs of life  Amino acids within the meteorite 

  3. See also

  4. References

  5. External links

{{Use mdy dates|date=June 2018}}{{Infobox meteorite
|Name = Nakhla meteorite
|Alternative names =
|Image = Nakhla meteorite.jpg
|Image_caption = Nakhla meteorite (BM1913,25): two sides and its inner surfaces after breaking it
|Type = Achondrite
|Class = Martian meteorite
|Group = Nakhlite
|Structural_classification =
|Composition =
|Shock =
|Weathering =
|Country = Khedivate of Egypt
|Region = Abu Hummus, Beheira Governorate
|Lat_Long = {{Coord|31|9|N|30|21|E|display=inline,title|region:EG_type:adm1st_source:GNS-enwiki}}
|Observed_fall = Yes
|Fall_date = 1911-06-28
|Found_date =
|TKW = {{convert|10|kg|lbs}}
|Image2 = 407310main jsc2009e243551.jpg
|Image2_caption = Scanning electron microscope (SEM) image of the surface of a grain of the meteorite showing small pits filled with material. On Earth, similar pits are carved by bacteria
}}

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.

History

The Nakhla meteorite fell to Earth on June 28, 1911, at approximately 09:00, in the Abu Hommos district, Alexandria Governorate, Khedivate of Egypt (now Abu Hummus, Beheira Governorate), in the area of the village of El Nakhla El Bahariya. The stones were collected near hamlets of Ezbet Abdalla Zeid, Ezbet Abdel Malek, Ezbet el Askar, and Ezbet Saber Mahdi.[1][2][3] Many people witnessed the meteorite approaching from the north-west, inclination about {{formatnum:30}}°, along with the track marked with a column of white smoke. Several explosions were heard before it fell to Earth in an area of {{convert|4.5|km}} in diameter, and about forty pieces were recovered;[4] the fragments were buried in the ground up to a meter deep.

From an estimated original weight of {{convert|10|kg}}, recovered fragments ranged in weight from {{convert|20|g}} to {{convert|1813|g}}.[1][2]

Two fragments, found near Ezbet Abdel Malek, were presented by the Egyptian Government to the British Museum.[1]

Nakhla dog

One fragment of the meteorite was said to have landed on a dog, as observed by a farmer named Mohammed Ali Effendi Hakim in the village of Denshal supposedly vaporizing the animal instantly. Since no remains of the dog were recovered and there was no other eyewitness to the dog's demise, this story remains apocryphal.[2] However, the story of the Nakhla dog has become something of a legend among astronomers.[5]

Classification

It is the prototypical example of the Nakhlite type meteorite of the SNC Group of Mars meteorites.

A number of meteorites thought to have originated from Mars have been catalogued from around the world,[6] including the Nakhlites. These are considered to have been ejected by the impact of another large body colliding with the Martian surface. They then travelled through the solar system for an unknown period before penetrating the Earth's atmosphere.

Signs of water

Nakhla is the first Martian meteorite to show signs of aqueous processes on Mars. The rock contains carbonates and hydrous minerals, formed by chemical reactions in water. Also, the rock was exposed to water after it formed, which caused secondary accumulations of minerals. The carbonates contain more 13C than rocks formed on Earth, indicating Martian origin.[7]

Signs of life

In March 1999, after receiving part of the meteorite from the British Museum in 1998,[4] a team from NASA's Johnson Space Center examined the Nakhla meteorite using an optical microscope and a powerful scanning electron microscope (SEM), revealing possibly biomorphic forms of a limited size range, among other features.[8][9] London's Natural History Museum, which holds several intact fragments of the meteorite, allowed NASA researchers to break one open in 2006, providing fresh samples, relatively free from Earth-sourced contamination. These scientists found an abundance of complex carbonaceous material occupying dendritic pores and channels in the rock, resembling the effects of bacteria observed in rocks on Earth.[8]

A debate took place at the 37th Lunar and Planetary Science Conference in March 2006 in Houston, Texas over the postulate that carbon-rich content within the pores of the rocks consisted of the remains of living matter. Because carbon is the fourth most abundant element in the universe (after hydrogen, helium, and oxygen), the presence of shapes resembling living organisms was considered insufficient by most attendees to prove that bacteria once lived on Mars.[10] A team concluded in 2014 that although the abiotic scenario is considered to be the most reasonable explanation for the shapes in this meteorite, it is evident that the Martian subsurface contains niche environments where life could develop.[9]

Amino acids within the meteorite

In 1999, various amino acids were isolated from the meteorite fragment at Johnson Space Center. Among them were aspartic acid, glutamic acid, glycine, alanine, and γ-aminobutyric acid. However, it is not clear whether they were initially from the meteorite or the product of terrestrial contamination.[7]

See also

{{portal|Mars|Astrobiology}}{{Div col|colwidth=25em}}
  • Allan Hills 84001, Martian meteorite
  • Astrobiology
  • Biosignature
  • Glossary of meteoritics
  • Life on Mars
  • List of meteorites on Mars
  • NWA 7034
  • Shergotty meteorite
  • Yamato 000593, Martian meteorite
{{div col end}}

References

1. ^"the meteoric stones of El Nakhla El Baharia (Egypt)", by G.T.Prior, Keeper of Minerals in the British Museum; read November 14, 1911, Mineralogical Magazine, 1912, vol. 16, pp. 274–281
2. ^"The Nakhla Meteorite" – From NASA's Jet Propulsion Laboratory
3. ^"Nakhla meteorite fragment" – From the Natural History Museum. Rotatable image of a fragment of the meteorite. URL accessed September 6, 2006.
4. ^{{cite web|author=McBridge, Kathleen M. |author2=Righter, K.|title=The 100th Anniversary of the Fall of Nakhla: The Subdivision of BM1913,25|url=http://hdl.handle.net/2060/20110014358|work=NASA|publisher=Johnson Space Flight Center|accessdate=September 15, 2011}}
5. ^meteoritestudies.com The Nakhla Dog
6. ^{{cite web|url=http://www2.jpl.nasa.gov/snc/index.html |title=Mars Meteorites |accessdate=February 16, 2010 |publisher=NASA }}
7. ^Glavin, Daniel P. Amino acids in the Martian meteorite Naklah. Retrieved November 13, 2010.
8. ^{{Cite web | url = http://news.bbc.co.uk/2/hi/science/nature/4688938.stm |title = Space rock re-opens Mars debate| date=February 8, 2006 |publisher=BBC News | accessdate = September 6, 2006}}
9. ^{{cite journal |title=A Conspicuous Clay Ovoid in Nakhla: Evidence for Subsurface Hydrothermal Alteration on Mars with Implications for Astrobiology |journal=Astrobiology |date=2014 |last= Chatzitheodoridis |first=Elias |last2= Haigh |first2=Sarah |last3=Lyon |first3=Ian |volume=14 |issue=18 |doi=10.1089/ast.2013.1069 |url=http://online.liebertpub.com/doi/pdfplus/10.1089/ast.2013.1069 |accessdate=October 24, 2014 |bibcode=2014AsBio..14..651C |pages=651–693 |pmid=25046549 |pmc=4126275}}
10. ^{{Cite web | url = http://news.bbc.co.uk/2/hi/science/nature/289214.stm | publisher= BBC News |title = Life on Mars – new claims| accessdate = June 27, 2018 | date = August 27, 1999 | first = David | last = Whitehouse}}
  • {{cite book|last=Hendrix|first=Howard V.|title=Red Rover, Red Rover|date=2012|publisher=Analog SFSF (July/Aug)|pages=109–116|url=http://www.analogsf.com}} (Nakhla meteorite part of the plot)

External links

{{Commons category|Nakhla meteorite}}
  • NASA's JPL homepage on the Nakhla meteorite
  • Article by Ken Kichinka
{{Meteorites by name}}{{Meteorites}}{{Mars}}{{Astrobiology}}{{Extraterrestrial life}}{{DEFAULTSORT:Nakhla Meteorite}}

8 : Meteorites found in Egypt|Martian meteorites|1911 in Egypt|1911 in science|1911 in the environment|Beheira Governorate|Meteorites by name|1910s in Egypt

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