Kaidun meteorite: Difference between revisions

Kaidun
Kaidun
Type	Chondrite
Class	Carbonaceous chondrite
Group	CR2
Parent body	Phobos
Country	Yemen
Region	Hadhramaut Governorate
Coordinates	15°0′N 48°18′E / 15.000°N 48.300°E
Observed fall	Yes
Fall date	3 December 1980
TKW	2 kg
Alternative names	Kaydun

Browse history interactively

← Previous edit Next edit →

Content deleted Content added

VisualWikitext

Inline

Revision as of 13:42, 22 June 2020

Kaidun is a meteorite that fell on 3 December 1980 on a Soviet military base near what is now Al-Khuraybah in Yemen. A fireball was observed travelling from the northwest to the southeast, and a single stone weighing about 2 kilograms (4.4 lb) was recovered from a small impact pit.^[1]^[2]

Composition

It contains a uniquely wide variety of minerals, causing debate about its origin. It is largely carbonaceous chondrite material of type CR2, but also contains fragments of other types, such as C1, CM1, and C3. Of the nearly 60 minerals found in the meteorite, several have not been found elsewhere in nature, such as florenskyite, which has the chemical formula: Fe Ti P.

Origin

In March 2004 it was suggested that the meteorite originated from the Martian moon Phobos.^[3]^[4] The reason Phobos has been suggested is the existence of two extremely rare alkaline-rich clasts visible in the meteorite, each of which entered the rock at different times. This suggests that the parent body would have been near a source of an alkaline-rich rock, which is almost wholly produced by deep differentiation. This points to Mars and one of its moons, and Phobos is more likely than Deimos because it is closer to Mars.^[5] However, mineralogical and noble gas work do not tie the lithic fragments to Mars, as they have other proven Martian meteorites, and this hypothesized link is tenuous at best. In support of the Phobos hypothesis, in 2017 two scientists at the Western University found that meteorites originating from Phobos (and even Deimos) can travel to Earth.^[6]

References

^ ^a ^b Meteoritical Bulletin Database: Kaidun
^ Ivanov, Andrei V.; Ulyanov, A. A.; Skripnic, A. Y.; Konokona, N. N. (March 1984). "The Kaidun Polymict Carbonaceous Breccia: the Mixture of Incompatible Types of Meteorites". Lunar and Planetary Science. 15. Astrophysics Data System: 393–394. Bibcode:1984LPI....15..393I.
^ Hogan, Jenny (22 April 2004). "'Weird' meteorite may be from Mars moon". New Scientist. Retrieved 15 August 2012.
^ Ivanov, Andrei V. (March 2004). "Is the Kaidun Meteorite a Sample from Phobos?". Solar System Research. 38 (2): 97–107. Bibcode:2004SoSyR..38...97I. doi:10.1023/B:SOLS.0000022821.22821.84.
^ Ivanov, Andrei V. (4 September 2003). "The Kaidun Meteorite: Where Did It Come From?" (PDF). Archived from the original (PDF) on 27 March 2009. Retrieved 20 August 2009.
^ Wiegert, P.; Galiazzo, M. (2017). "Meteorites from Phobos and Deimos at Earth?". Planetary and Space Science. 142: 48–52. arXiv:1705.02260. Bibcode:2017P&SS..142...48W. doi:10.1016/j.pss.2017.05.001.

External links

Kaidun: A Meteorite with Everything but the Kitchen Sink, written by Linda M. V. Martel, Hawai‘i Institute of Geophysics and Planetology

This article about the planet Mars or its moons is a stub. You can help Wikipedia by expanding it.

This meteorite-related article is a stub. You can help Wikipedia by expanding it.

[metbulldb-1] Meteoritical Bulletin Database: Kaidun

[2] Ivanov, Andrei V.; Ulyanov, A. A.; Skripnic, A. Y.; Konokona, N. N. (March 1984). "The Kaidun Polymict Carbonaceous Breccia: the Mixture of Incompatible Types of Meteorites". Lunar and Planetary Science. 15. Astrophysics Data System: 393–394. Bibcode:1984LPI....15..393I.

[3] Hogan, Jenny (22 April 2004). "'Weird' meteorite may be from Mars moon". New Scientist. Retrieved 15 August 2012.

[4] Ivanov, Andrei V. (March 2004). "Is the Kaidun Meteorite a Sample from Phobos?". Solar System Research. 38 (2): 97–107. Bibcode:2004SoSyR..38...97I. doi:10.1023/B:SOLS.0000022821.22821.84.

[5] Ivanov, Andrei V. (4 September 2003). "The Kaidun Meteorite: Where Did It Come From?" (PDF). Archived from the original (PDF) on 27 March 2009. Retrieved 20 August 2009.

[Wiegert,Galiazzo_2017-6] Wiegert, P.; Galiazzo, M. (2017). "Meteorites from Phobos and Deimos at Earth?". Planetary and Space Science. 142: 48–52. arXiv:1705.02260. Bibcode:2017P&SS..142...48W. doi:10.1016/j.pss.2017.05.001.

[1]

[2]

[3]

[4]

[5]

[6]

@@ Line 27: / Line 27: @@
 ==Composition==
-It contains a uniquely wide variety of minerals, causing some confusion as to its origin. It is largely made up of [[carbonaceous chondrite]] material of type CR2, but it is known to contain fragments of other types, such as C1, CM1, and C3. Of the nearly 60 minerals found within the meteorite, several have not been found elsewhere in nature, such as [[florenskyite]], which has the [[chemical formula]]: [[Iron|Fe]][[Titanium|Ti]][[Phosphorus|P]].
+It contains a uniquely wide variety of minerals, causing debate about its origin. It is largely [[carbonaceous chondrite]] material of type CR2, but also  contains fragments of other types, such as C1, CM1, and C3. Of the nearly 60 minerals found in the meteorite, several have not been found elsewhere in nature, such as [[florenskyite]], which has the [[chemical formula]]: [[Iron|Fe]][[Titanium|Ti]][[Phosphorus|P]].
 ==Origin==
-In March 2004 it was suggested that the meteorite originated from the [[Phobos (moon)|Martian moon Phobos]].<ref>{{Cite news| url=https://www.newscientist.com/article/dn4902-weird-meteorite-may-be-from-mars-moon.html | accessdate=15 August 2012| title='Weird' meteorite may be from Mars moon| date=22 April 2004| first=Jenny| last=Hogan| publisher=[[New Scientist]]}}</ref><ref>{{Cite journal| last=Ivanov| first=Andrei V. | bibcode=2004SoSyR..38...97I| title=Is the Kaidun Meteorite a Sample from Phobos?|date=March 2004| journal=Solar System Research| volume=38| issue=2| pages=97–107| doi=10.1023/B:SOLS.0000022821.22821.84}}</ref> The reason [[Phobos (moon)|Phobos]] has been suggested is the existence of two extremely rare [[alkaline]]-rich [[Clastic rock|clasts]] visible in the meteorite, each of which entered the rock at different times. This suggests that the [[parent body]] would have been near a source of an alkaline-rich rock, which is in particular a product of [[Igneous differentiation|deep differentiation]]. This points to Mars and one of its moons, and Phobos is more likely than [[Deimos (moon)|Deimos]] because it is closer to Mars.<ref>{{Cite web| url=http://www.geokhi.ru/~meteorit/publication/ivanovlpsc03-e.pdf| format=[[PDF]]| accessdate=20 August 2009| title=The Kaidun Meteorite: Where Did It Come From?| date=4 September 2003| last=Ivanov| first=Andrei V.| url-status=dead| archiveurl=https://web.archive.org/web/20090327135632/http://www.geokhi.ru/~meteorit/publication/ivanovlpsc03-e.pdf| archivedate=27 March 2009| df=dmy-all}}</ref>  However, mineralogical and noble gas work do not tie the lithic fragments to Mars, as has been done with other proven Martian meteorites, and this hypothesized link is tenuous at best.
+In March 2004 it was suggested that the meteorite originated from the [[Phobos (moon)|Martian moon Phobos]].<ref>{{Cite news| url=https://www.newscientist.com/article/dn4902-weird-meteorite-may-be-from-mars-moon.html | accessdate=15 August 2012| title='Weird' meteorite may be from Mars moon| date=22 April 2004| first=Jenny| last=Hogan| publisher=[[New Scientist]]}}</ref><ref>{{Cite journal| last=Ivanov| first=Andrei V. | bibcode=2004SoSyR..38...97I| title=Is the Kaidun Meteorite a Sample from Phobos?|date=March 2004| journal=Solar System Research| volume=38| issue=2| pages=97–107| doi=10.1023/B:SOLS.0000022821.22821.84}}</ref> The reason [[Phobos (moon)|Phobos]] has been suggested is the existence of two extremely rare [[alkaline]]-rich [[Clastic rock|clasts]] visible in the meteorite, each of which entered the rock at different times. This suggests that the [[parent body]] would have been near a source of an alkaline-rich rock, which is almost wholly produced by [[Igneous differentiation|deep differentiation]]. This points to Mars and one of its moons, and Phobos is more likely than [[Deimos (moon)|Deimos]] because it is closer to Mars.<ref>{{Cite web| url=http://www.geokhi.ru/~meteorit/publication/ivanovlpsc03-e.pdf| format=[[PDF]]| accessdate=20 August 2009| title=The Kaidun Meteorite: Where Did It Come From?| date=4 September 2003| last=Ivanov| first=Andrei V.| url-status=dead| archiveurl=https://web.archive.org/web/20090327135632/http://www.geokhi.ru/~meteorit/publication/ivanovlpsc03-e.pdf| archivedate=27 March 2009| df=dmy-all}}</ref>  However, mineralogical and noble gas work do not tie the lithic fragments to Mars, as they have other proven Martian meteorites, and this hypothesized link is tenuous at best.
-On support to this suggestion, on 2017 it was found by 2 scientists at the Western University that meteorites originated from Phobos (and even Deimos) can arrive to the Earth.<ref name="Wiegert,Galiazzo 2017">{{cite journal
+In support of the Phobos hypothesis, in 2017 two scientists at the Western University found that meteorites originating from Phobos (and even Deimos) can travel to Earth.<ref name="Wiegert,Galiazzo 2017">{{cite journal
 |first1=P.|last1=Wiegert|first2= M.|last2=Galiazzo
 |title=Meteorites from Phobos and Deimos at Earth?

v t e Meteorites by name
A–B	Aarhus Abee Adelie Land Adhi Kot Adzhi-Bogdo Agen Akbarpur Albareto Allan Hills 77005 Allan Hills A81005 Allan Hills 84001 Allegan Allende Ambapur Nagla Andura Angers Angra dos Reis Ankober Anlong Annaheim Appley Bridge Arbol Solo Archie Arroyo Aguiar Assisi Atoka Avanhandava Baszkówka Beardsley Bendegó Bellsbank Bench Crater (Moon) Benton Białystok Blithfield Block Island (Mars) Bovedy Brachina Brahin Braunschweig Brenham Buzzard Coulee
C–D	Campo del Cielo Canyon Diablo Cape York Carancas Chambord Chassigny Chelyabinsk Chergach Chinga Chinguetti Claxton Coahuila Cranbourne D'Orbigny Dronino
E–F	Eagle Station Elbogen Ensisheim Esquel Fukang
G–H	Gao–Guenie Gay Gulch Gebel Kamil Gibeon Goose Lake Grant Hadley Rille (Moon) Heat Shield Rock (Mars) High Possil Hoba Homestead Hraschina Huckitta
I–J	Imilac Itqiy
K–L	Kaidun Kainsaz Karoonda Kesen Khatyrka Krasnojarsk L'Aigle Lac Dodon Loreto Łowicz
M–N	Mackinac Island (Mars) Mbozi Middlesbrough Millbillillie Mineo Monte Milone Moss Mundrabilla Muonionalusta Murchison Nakhla Nantan Neuschwanstein Northwest Africa 3009 Northwest Africa 7034 Northwest Africa 7325 Norton County Novato
O–P	Oileán Ruaidh (Mars) Old Woman Oldenburg Omolon Orgueil Ornans Osseo Ourique Pallasovka Paragould Park Forest Pavlovka Peace River Peekskill Penouille Příbram Pultusk
Q–R	Qidong Richardton Renazzo
S–T	Santa Rosa de Viterbo Meteorite Santa Vitoria do Palmar Sayh al Uhaymir 169 Seymchan Shelter Island (Mars) Shergotty Sikhote-Alin Sołtmany Springwater St-Robert Stannern Strathmore Sulagiri Sutter's Mill Sylacauga Tagish Lake Tamdakht Tenham Tissint Tlacotepec Toluca Treysa Twannberg
U–V	Veliky Ustyug Vermillion
W–X	Weston Willamette Winchcombe Winona Wold Cottage
Y–Z	Yamato 691 Yamato 791197 Yardymly Zagami Zaisho Zaklodzie
List: Meteorite fall Category

Revision as of 13:42, 22 June 2020

Composition

Origin

See also

References

External links