Meteoritics

For the 1953 journal, see Meteoritics & Planetary Science.
Look up meteoritics in Wiktionary, the free dictionary.

Meteoritics is a science that deals with meteorites and other extraterrestrial materials that further our understanding of the origin and history of the Solar System.[1][2] A specialist who studies meteoritics is known as a meteoriticist.[3]

History of investigation

Before the documentation of L'Aigle it was generally believed that meteorites were a type of superstition and those who claimed to see them fall from space were lying.

In 1960 John Reynolds discovered that some meteorites have an excess of 129Xe, a result of the presence of 129I in the solar nebula.[4]

Methods of investigation

Mineralogy

The presence or absence of certain minerals is indicative of physical and chemical processes. Impacts on the parent body are recorded by impact-breccias and high-pressure mineral phases (e.g. coesite, akimotoite, majorite, ringwoodite, stishovite, wadsleyite).[5][6][7] Water bearing minerals are an indicator for hydrothermal activity on the parent body (e.g. clay minerals).[8]

Radiometric dating

Radiometric methods can be used to date different stages of the history of a meteorite. Condensation from the solar nebula is recorded by calcium-aluminium-rich inclusions and chondrules. These can be dated by using radionuclides that were present in the solar nebula (e.g. 26Al/26Mg, 53Mn/53Cr, U/Pb, 129I/129Xe). After the condensed material accretes to planetesimals of sufficient size melting and differentiation take place. These processes can be dated with the U/Pb, 87Rb/87Sr,[9] 147Sm/143Nd and 176Lu/176Hf methods.[10] Metallic core formation and cooling can be dated by applying the 187Re/187Os method to iron meteorites.[11][12] Large scale impact events or even the destruction of the parent body can be dated using the 39Ar/40Ar method and the 244Pu fission track method.[13] After breakup of the parent body meteoroids are exposed to cosmic radiation. The length of this exposure can be dated using the 3H/3He method, 22Na/21Ne, 81Kr/83Kr.[14][15] After impact on earth (or any other planet with sufficient cosmic ray shielding) cosmogenic radionuclides decay and can be used to date the time since the meteorite fell. Methods to date this terrestrial exposure are 36Cl, 14C, 81Kr.[16]

See also

References

  1. "meteoritics, n.". OED Online. Oxford University Press. 19 December 2012.
  2. A rarely used synonym is Astrolithology: Leonard, Frederick C. (1953). "Introducing meteoritics: The Journal of the Meteoritical Society and the Institute of Meteoritics of the University of New Mexico". Meteoritics 1 (1): 1–4. doi:10.1111/j.1945-5100.1953.tb01299.x.
  3. "meteoriticist, n.". OED Online. Oxford University Press. 19 December 2012.
  4. Reynolds, J. (31 March 1960). "Isotopic Composition of Primordial Xenon". Physical Review Letters 4 (7): 351–354. Bibcode:1960PhRvL...4..351R. doi:10.1103/PhysRevLett.4.351.
  5. Coleman, Leslie C. (1977). "Ringwoodite and majorite in the Catherwood meteorite". Canadian Mineralogist 15: 97–101. Retrieved 19 December 2012.
  6. Ohtani, E.; Ozawa, S.; Miyahara, M.; Ito, Y.; et al. (27 December 2010). "Coesite and stishovite in a shocked lunar meteorite, Asuka-881757, and impact events in lunar surface". Proceedings of the National Academy of Sciences 108 (2): 463–466. Bibcode:2011PNAS..108..463O. doi:10.1073/pnas.1009338108.
  7. Ferroir, Tristan; Beck, Pierre; Van de Moortèle, Bertrand; Bohn, Marcel; et al. (1 October 2008). "Akimotoite in the Tenham meteorite: Crystal chemistry and high-pressure transformation mechanisms". Earth and Planetary Science Letters 275 (1–2): 26–31. Bibcode:2008E&PSL.275...26F. doi:10.1016/j.epsl.2008.07.048.
  8. Hutchison, R.; Alexander, C.M.O.; barber, D.J. (30 June 1987). "The Semarkona meteorite: First recorded occurrence of smectite in an ordinary chondrite, and its implications". Geochimica et Cosmochimica Acta 51 (7): 1875–1882. Bibcode:1987GeCoA..51.1875H. doi:10.1016/0016-7037(87)90178-5.
  9. Birck, J.L.; Allègre, C.J. (28 February 1978). "Chronology and chemical history of the parent body of basaltic achondrites studied by the 87Rb-87Sr method". Earth and Planetary Science Letters 39 (1): 37–51. Bibcode:1978E&PSL..39...37B. doi:10.1016/0012-821X(78)90139-5.
  10. Bouvier, Audrey; Vervoort, Jeffrey D.; Patchett, P. Jonathan (31 July 2008). "The Lu–Hf and Sm–Nd isotopic composition of CHUR: Constraints from unequilibrated chondrites and implications for the bulk composition of terrestrial planets". Earth and Planetary Science Letters 273 (1–2): 48–57. Bibcode:2008E&PSL.273...48B. doi:10.1016/j.epsl.2008.06.010.
  11. Smoliar, M. I.; Walker, R. J.; Morgan, J. W. (23 February 1996). "Re-Os Ages of Group IIA, IIIA, IVA, and IVB Iron Meteorites". Science 271 (5252): 1099–1102. Bibcode:1996Sci...271.1099S. doi:10.1126/science.271.5252.1099.
  12. "Re-Os ages of group IIA, IIIA, IVA, and IVB iron from meteorites.". Retrieved 19 December 2012.
  13. Bogard, D.D; Garrison, D.H; Jordan, auJ.L; Mittlefehldt, D (31 August 1990). "39Ar-40Ar dating of mesosiderites: Evidence for major parent body disruption < 4 Ga ago". Geochimica et Cosmochimica Acta 54 (9): 2549–2564. Bibcode:1990GeCoA..54.2549B. doi:10.1016/0016-7037(90)90241-C.
  14. Eugster, O (31 May 1988). "Cosmic-ray production rates for 3He, 21Ne, 38Ar, 83Kr, and 126Xe in chondrites based on 81Kr-Kr exposure ages". Geochimica et Cosmochimica Acta 52 (6): 1649–1662. Bibcode:1988GeCoA..52.1649E. doi:10.1016/0016-7037(88)90233-5.
  15. Nishiizumi, K.; Regnier, S.; Marti, K. (1 October 1980). "Cosmic ray exposure ages of chondrites, pre-irradiation and constancy of cosmic ray flux in the past". Earth and Planetary Science Letters 50 (1): 156–170. Bibcode:1980E&PSL..50..156N. doi:10.1016/0012-821X(80)90126-0.
  16. Nishiizumi, K.; Elmore, D.; Kubik, P.W. (30 June 1989). "Update on terrestrial ages of Antarctic meteorites". Earth and Planetary Science Letters 93 (3–4): 299–313. Bibcode:1989E&PSL..93..299N. doi:10.1016/0012-821X(89)90029-0.

Further reading

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