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Chondrules and Their Origins. Selected References 331 1983chto.conf..331T SELECTED REFERENCES The following list ofreferences has been compiled over the past several years by Debbie Taylor and Elbert King, Department of Geosciences ofthe University ofHouston. This list includes papers that specifically refer to the origins of chondrules, assume an origin of chondrules, or provide some of the fundamental data from which ideas about the origins of chondrules have been developed. Doubtless, there have been many omissions in this rather extensive literature, but the compilers hope that the list will serve as a nucleus of relevant papers or researchers in this field. Additional references can, of course, be found in the standard texts. For the older literature, the work ''A Bibliography on Meteorites," edited by Harrison Brown and published by the University of Chicago Press in 1953, continues to be especially useful and complete. Adib D. and Liou J. G. (1979) The Naragh meteorite: A new olivine-bronzite chondrite fall. Meteoritics 14, 257-272. Afiattalab F. and Wasson J. T. (1980) Composition of the metal phases in ordinary chondrites: Implications regarding classification and metamorphism. Geochim. Cosmochim. Acta 44, 431-446. Alexander E. C., Jr. and Manual 0. K. (1969) Xenon in chondrules and matrix material of chondrites. Geochim. Cosmochim. Acta 33, 298-301. Alfven H. (1971) Apples in a spacecraft. Science 173, 522-525. Allen J., Nozette S., and Wilkening L. L. (1979) Chondrule rims: Composition and texture (abstract). In Lunar and Planetary Science X, pp. 27-29. Lunar and Planetary Institute, Houston. Allen J. S., Nozette S., and Wilkening L. L. (1980) A study of chondrule rims and chondrule irradiation records in unequilibrated ordinary chondrites. Geochim. Cosmochim. Acta 44, 1161-1175. Anonymous (1978) Mineralogy and petrology of Kirin meteorite and its formation and evolution. Scientia Sinica 21, 805-822. Arrhenius G. and Alfven H. (1971) Fractionation and condensation in space. Earth Planet. Sci. Lett. 10, 253-267. Ashworth J. R. (1980) Chondrite thermal histories: Clues from electron microscopy of orthopy- roxene. Earth Planet. Sci Lett. 46, 167-177. Ashworth J. R. (1981) Fine structure in H-group chondrites. Proc. Roy. Soc. London A374, 179-194. Aurell J. (1969) Los meteoritos condritos. Inst. Invest. Geol Univ. Barcelona, Numero Especial 25, 157-164. Berwerth F. (1901) Uber die Struktur der Chondritischen Meteorsteine. Zentralblatt Min. Geol 21, 641-647. © Lunar and Planetary Institute • Provided by the NASA Astrophysics Data System 332 Chondrules and their Origins 1983chto.conf..331T Bevan A. W. R. and Axon H. J. (1980) Metallography and thermal history of the Tieschitz unequilibrated meteorite: Metallic chondrules and the origin of polycrystalline taenite. Earth Planet. Sci. Lett. 47, 353-360. Bevan A. W.R., Axon H.J., Scott E. R. D., and Rajan R. S. (1981) Comments on "metallic minerals, thermal histories and parent bodies of some xenolithic ordinary chondrite meteorites"; and reply. Geochim. Cosmochim. Acta 45, 1957-1958. Bhandari N., Shah V. B., and Wasson J. T. (1980) The Parsa enstatite chondrite. Meteoritics 15, 225-233. Binns R. ( 1967) Structure and evolution of non-carbonaceous chondritic meteorites. Earth Planet Sci. Lett 2, 23-28. Binns R. A. (1968) Cognate xenoliths in chondritic meteorites: Examples in Mezo-Madaras and Ghubara. Geochim. Cosmochim. Acta 32, 299-317. Blander M. (1982) Condensation of chondrules (abstract). In Papers Presented to the Conference on Chondrules and their Origins, pp. 1-2. Lunar and Planetary Institute, Houston. Blander M. and Abdel-Gawad M. (1969) The origin of meteorites and the constrained equilibrium condensation theory. Geochim. Cosmochim. Acta 33, 701-716. Blander M. and Fuchs L. H. (1975) The CAI and chondrules-solid or liquid condensates? (abstract). Meteoritics 10, 365. Blander M. and Katz J. L. ( 1967) Condensation of primordial dust. Geochim. Cosmochim. Acta 31, 1025-1034. Blander M., Keil K., Planner H. N ., and Nelson L. S. ( 1973) The origin of chondrules: Experimen- tal investigation of metastable liquid silicates (abstract). Meteoritics 8, 15. Blander M., Planner H. N., Keil K., Nelson L. S., and Richardson N. L. (1976) The origin of chondrules: experimental investigation of metastable liquids in the system Mg2SiO4-SiO2• Geochim. Cosmochim. Acta 40, 889-896. Borgstrom L. H. (1904) The Shelburne meteorite. J. Roy. Aston. Soc. Canada, 69-94. Bostrom K. and Frederiksson K. (1966) Surface conditions of the Orgueil meteorite parent body as indicated by mineral associations. Smithson. Misc. Coll 151, No. 3. Bosscha J., Jr. (1887) Uber den Meteorit von Karang-Modjo oder Magetan auf Java. Neues Jahrb. Mineral. Geol Beilage Bd. 5, 126-144. Bott M. H.P. ( 1982) The Interior ofthe Earth: Its Structure, Constitution, and Evolution. Edward Arnold Ltd., London. 403 pp. Boumon J. L. C. de (1802) Mineralogical description of the various stones said to have fallen upon the Earth. Phil Trans. Roy. Soc. London 92, 180-186. Boynton W. V. and Hill D. H. (1982) Rare-earth and other trace elements in rim and interior portions of a peculiar Allende chondrule (abstract). In Lunar and Planetary Science XIII, pp. 63-64. Lunar and Planetary Institute, Houston. Boynton W. V., Hill D. H., and Wilkening L. L. (1982) Trace elements in rim and interior of chondrules from Chainpur (abstract). In Papers Presented to the Conference on Chondrules and their Origins, p. 3. Lunar and Planetary Institute, Houston. © Lunar and Planetary Institute • Provided by the NASA Astrophysics Data System Selected References 333 1983chto.conf..331T Bradley J. G., Huneke J. C., and Wasserburg G. J. (1978) Ion microprobe evidence for the presence of excess 26 Mg in an Allende anorthite crystal. J. Geophys Res. 83, 244-254. Brezina A. (1885) Die Meteoritensammlung desk. k. mineralogischen Hofcabinetes in Wien am 1. Mai 1885. Jahr. Geo/. Reichsanstalt Wien 35, 151-276. Bridge T. E. ( 1969) Possible origin ofchondrules and meteorites (abstract). Meteoritics 4, 262-263. Brigham C., Murrell M. T., and Burnett D. S. ( 1982) SiO2-rich chondrules in ordinary chondrites (abstract). In Papers Presented to the Conference on Chondrules and their Origins, p. 4. Lunar and Planetary Institute, Houston. Brownlee D. E., Bates B., and Beauchamp R. H. (1982) Meteor ablation spherules as chondrule analogs (abstract). In Papers Presented to the Conference on Chondrules and their Origins, p. 5. Lunar and Planetary Institute, Houston. Bunch T. E. and Chang S. (1980) An alternative origin of Allende CAI inclusion rims, or a correlation between the early solar system and a British steel furnace (abstract). In Papers Presented to the 43rd Annual Meteoritical Society Meeting, p. 39. Lunar and Planetary Institute, Houston. Bunch T. E. and Chang S. (1980) Carbonaceous chondrites-11, carbonaceous chondrite phyllosilicates and light element geochemistry as indicators of parent body processes and surface conditions. Geochim. Cosmochim. Acta 44, 1543-1577. Bunch T. E., Chang S., Frick U., Neil J. M., and Moreland G. (1979) Carbonaceous chondrites- I, Characteriz.ation and significance of carbonaceous chondrite (CM) xenoliths in the Jodzie howardite. Geochim. Cosmochim. Acta 43, 1727-1742. Bunch T. E., Quaide W., Prinz M., Keil K., and Dowty E. (1972) Lunar ultramafic glasses, chondrules and rocks. Nature Phys. Sci 239, 57-59. Butler J. C., King E. A., Jr., and Carman M. F. (1971) Grain size frequency distribution oflunar samples and estimation of lunar surface ages (abstract). Meteoritics 6, 254-255. Butler J. C., King E. A., and Carman M. F. (1972) Size frequency distributions and petrographic observations of Apollo 15 samples (abstract). In The Apollo 15 Lunar Samples, (J. W. Chamberlain and C. WatkiJ?s, eds.), pp. 45-47. Lunar and Planetary Institute, Houston. - - - - Caffee M. W., Hohenberg C. M., Hudson B., and Swindle T. D. (1982) I-Xe ages of individual Bjtirbole chondrules (abstract). In Lunar and Planetary Science XI/L pp. 75-76. Lunar and Planetary Institute, Houston. Caffee M. W., Hohenberg C. M., and Swindle T. D. (1982) Isotopic measurements in individual chondrules (abstract). In Papers Presented to the Conference on Chondrules and their Origins, pp. 6-8. Lunar and Planetary Institute, Houston. Cameron A.G. W. (1966) The accumulation of chondritic material. Earth Planet. Sci. Lett 1, 93-96. Cameron A. G. W. (1973) Accumulation processes in the primitive solar nebula. Icarus 18, 407-450. Cameron A.G. W. (1982) Chondrule-related processes in the primitive solar nebula (abstract). In Papers Presented to the Conference on Chondrules and their Origins, pp. 9-11. Lunar and © Lunar and Planetary Institute • Provided by the NASA Astrophysics Data System 334 Chondrules and their Origins 1983chto.conf..331T Planetary Institute, Houston. Cameron A G. W. and Fegley M. B. ( 1982) Condensation events near the total evaporation front within the primitive solar nebula (abstract). In Lunar and Planeto,ry Science XIII, pp. 81-82. Lunar and Planetary Institute, Houston. Christophe Michel-Levy M. (1975) A few observations on the Tieschitz H3 chondrite (abstract). Meteoritics 10, 381-383. Christophe Michel-Levy M. (1981) Some clues to the history of the H-group chondrites. Earth Planet Sci Lett 54, 67-80. Christophe Michel-Levy M. (1982) A special case of associated chondrules in Allende: snapshot of a punching-out process? (abstract). In Papers Presented to the Conference on Chondru/es and their Origins, p. 12. Lunar and Planetary Institute, Houston. Christophe Michel-Levy M. and Levy C. (1972) Mineralogical aspects of Apollo XN samples: lunar chondrules, pink spinet bearing rocks, ilmenites (abstract). In Lunar Science III, pp. 136-138. The Lunar Science Institute, Houston. Cirlin E. H. and Housley R. M. ( 1982) On the distribution of Zn in Allende chondrules, inclusions, and matrix (abstract). In Lunar and Planeto,ry Science XIII, pp. 104-105. Lunar and Planetary Institute, Houston. Clarke R. S., Jr., Jarosewich E., Mason B., Nelen J., Gomez M., and Hyde J. R. (1970) The Allende, Mexico, meteorite shower. Smithson. Contrib. Earth Sci 5, 1-53.
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