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Weiterführende Literatur
Buchwald VF (1975) Handbook of iron meteorites. Their history, distribution, composition and structure. University of California Press, Berkeley Los Angeles London
Heide F, Wlotzka F (1988) Kleine Meteoritenkunde, 3. Aufl. Springer, Berlin Heidelberg New York
Kleinschrot D (2003) Meteorite — Steine, die vom Himmel fallen. Beringeria, Sonderheft 4, 89 pp, Würzburg
Lipschutz ME, Schultz L (1998) Meteorites. In Weissman P, McFadden L-A, Johnson T (eds) The Encyclopedia of the Solar System. Academic Press, San Diego, pp 629–671
Norton OR (2002) The Cambridge Encyclopedia of meteorites. Cambridge University Press, Cambridge, UK
Wasson JT (1985) Meteorites. Their record of early solar system history. Freeman, New York
Zitierte Literatur
Alvarez LW, Alvarez W, Asaro F, Michel HV (1980) Extraterrestrial cause for the Creataceous Tertiary extinction. Science 208:1095–1108
Becker L, Poreda RJ, Hunt AG, Bunch TE, Rampino M (2001) Impact event at the Permian-Triassic boundary: Evidence from extraterrestrial noble gases in fullerenes. Science 291:1530–1533
Bischoff A (2001) Meteorite classification and the definition of new chondrite classes as a result of recent meteorite search expeditions in hot and cold deserts. Planet Space Sci 49:769–776
Bischoff A, Keil K (1983) Ca-Al-rich chondrules and inclusions in ordinary chondrites. Nature 303:588–592
Bowring SA, Williams IS (1999) Priscoan (4.00-4.03 Ga) orthogneises from northwestern Canada. Contrib Mineral Petrol 134:3–16
Goldstein JI, Axon HJ (1973) The Widmannstätten figure in iron meteorites. Naturwissenschaften 60:313–321
Gooding JL, Keil K (1981) Relative abundances of chondrule primary textural types and their bearing on conditions of chondrule formation. Meteoritics 16:17–43
Grady MM (1999) Meteorites from cold and hot deserts: How many, how big, and what sort? Workshop on Extraterrestrial Materials from Cold and Hot Deserts. Kwa-Maritane, Pilanesberg, South Africa
Hildebrandt AR, Penfield GT, Kring DA, Pilkington M, Camargo ZA, Jacobsen SB, Boynton WV (1991) Chicxulub Crater; A possible Cretaceous/Tertiary boundary impact crater in the Yucatán Peninsula, Mexico. Geology 19:867–871
Jagoutz E, Wänke H (1986) Sr and Nd systematics of Shergotty meteorite. Geochim Cosmochim Acta 50:939–953
Meibom A, Clark BE (1999) Evidence for the insignificance of ordinary chondritic material in the asteroidal belt. Meteoritics Planet Sci 34:7–24
Metzler K, Bischoff A, Stöffler D (1992) Accretionary dust mantles in CM chondrites: Evidence for solar nebula processes. Geochim Cosmochim Acta 56:2873–2897
Schulze H, Bischoff A, Palme H, Spettel B, Dreibus G, Otto J (1994) Mineralogy and chemistry of Rumuruti: The first meteorite fall of the new R chondrite group. Meteoritics 29:275–286
Tschermak G (1883) Beitrag zur Classifikation der Meteoriten. Sitzungsber Akad Wiss Wien 88(1):347–371
van Schmus WR, Wood JA (1967) A chemical-petrologic classification for the chondritic meteorites. Geochim Cosmochim Acta 31:747–765
Weiß S (2003) „Sternschnuppe“ mitten im Geröll. Lapis 28(12):5
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(2005). Meteorite. In: Mineralogie. Springer-Lehrbuch. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-27405-7_29
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DOI: https://doi.org/10.1007/3-540-27405-7_29
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