SEARCH

SEARCH BY CITATION

References

  • Berkley J. L. 1986. Four Antarctic ureilites: Petrology and observations on ureilite petrogenesis. Meteoritics 21:169189.
  • Berkley J. L., Taylor G. J., Keil K., Harlow G., and Prinz M. 1980. The nature and origin of ureilites. Geochimica et Cosmochimica Acta 44:15791597.
  • Bischoff A., Horstmann M., Laubenstein M., and Haberer S. 2010. Asteroid 2008 TC3—Almahata Sitta: Not only a ureilitic meteorite, but a breccia containing many different achondritic and chondritic lithologies (abstract #1763). 41st Lunar and Planetary Science Conference. CD-ROM.
  • Brearley A. J. 1993. Matrix and fine-grained rims in the unequilibrated CO3 chondrite, ALHA77307: Origins and evidence for diverse, primitive nebular dust components. Geochimica et Cosmochimica Acta 57:15211550.
  • Brearley A. and Prinz M. 1992. CI chondrite-like clasts in the Nilpena polymict ureilite: Implications for aqueous alteration processes in CI chondrites. Geochimica et Cosmochimica Acta 56:13731386.
  • Britt D. and Consolmagno G. 2004. Meteorite porosities and densities: A review of trends in the data (abstract #2108). 35th Lunar and Planetary Science Conference. CD-ROM.
  • Cohen B., Goodrich C., and Keil K. 2004. Feldspathic clast populations in polymict ureilites: Stalking the missing basalts from the ureilite parent body. Geochimica et Cosmochimica Acta 68:42494266.
  • Deer W., Howie R., and Zussman J. 1978. Single-chain silicates, rock-forming minerals, vol. 2A. The Geological Society, Essex, England, 668 p.
  • Downes H., Mittlefehldt D. W., Kita N. T., and Valley J. W. 2008. Evidence from polymict ureilite meteorites for a disrupted and re-accreted single ureilite parent asteroid gardened by several distinct impactors. Geochimica et Cosmochimica Acta 72:48254844.
  • Franchi I., Sexton A., Wright I. P., and Pillinger C. 1998. Oxygen isotopic homogeneity in the ureilite population (abstract #1685). 28th Lunar and Planetary Science Conference. CD-ROM.
  • Friedrich J. M., Wignarajah D. P., Chaudhary S., Rivers M. L., Nehru C. E., and Ebel D. S. 2008. Three-dimensional petrography of metal phases in equilibrated L chondrites—Effects of shock loading and dynamic compaction. Earth and Planetary Science Letters 275:172180.
  • Goehner R. P. and Michael J. R. 1996. Phase identification in a scanning electron microscope using backscattered electron Kikuchi patterns. Journal of Research of National Institute of Standards and Technology 101:301308.
  • Goodrich C. A. 1992. Ureilites: A critical review. Meteoritics 27:327352.
  • Goodrich C. A. and Delaney J. S. 2000. Fe/Mg-Fe/Mn relations of meteorites and primary heterogeneity of achondrite parent bodies. Geochimica et Cosmochimica Acta 64:149160.
  • Goodrich C. A., Jones J., and Berkeley J. 1987a. Origin and evolution of the ureilite parent magmas: Multi-stage igneous activity on a large parent body. Geochimica et Cosmochimica Acta 51:22552273.
  • Goodrich C. A., Keil K., Berkley J. L., Laul J. C., Smith M. R., Wacker J. F., Clayton R. N., and Mayeda T. K. 1987b. Roosevelt County 027—A low-shock ureilite with interstitial silicates and high noble gas concentrations. Meteoritics 22:191218.
  • Goodrich C. A., Scott E. R. D., and Fioretti A. M. 2004. Ureilitic breccias: Clues to the petrologic structure and impact disruption of the ureilite parent asteroid. Chemie der Erde 64:283327.
  • Goodrich C. A., Van Orman J. A., and Wilson L. 2007. Fractional melting and smelting on the ureilite parent body. Geochimica et Cosmochimica Acta 71:28762895.
  • Grady M. 2000. Catalogue of meteorites, 5th ed. Cambridge: Cambridge University Press. pp. 1136.
  • Herrin J., Zolensky M., Ito M., Jenniskens P., and Shaddad M. 2009. Fossilized smelting; reduction textures in the Almahata Sitta ureilite (abstract). Meteoritics & Planetary Science 44:A89.
  • Herrin J., Ito M., Zolensky M., Mittlefehldt D., Jenniskens J., and Shaddad M. 2010a. Thermal history and fragmentation of ureilitic asteroids; insights from the Almahata Sitta fall (abstract 1095). 41st Lunar and Planetary Science Conference. CD-ROM.
  • Herrin J., Zolensky M., Ito M., Le L., Mittlefehld D., Jenniskens P., and Shaddad M. 2010b. Thermal and fragmentation history of ureilitic asteroids; insights from the Almahata Sitta fall. Meteoritics & Planetary Science 45. This issue.
  • Horstmann M. and Bischoff A. 2010. Characterization of spectacular lithologies from the Almahata Sitta breccia (abstract #1784). 41st Lunar and Planetary Science Conference. CD-ROM.
  • Hudon P., Romanek C., Paddock L., and Mittlefehldt D. W. 2004. Evolution of the ureilite parent body (abstract #2075). 35th Lunar and Planetary Science Conference. CD-ROM.
  • Hutchison R. 2004. Meteorites. A petrologic, chemical and isotopic synthesis. Cambridge University Press. 506 p.
  • Ivanov A. V., Zolensky M. E., Saito A., Ohsumi K., MacPherson G. J., Yang S. V., Kononkova N. N., and Mikouchi T. 2000. Florenskyite, FeTiP, a new phosphide from the Kaidun meteorite. American Mineralogist 85:10821086.
  • Jenniskens P., Shaddad M., Numan D., Elsir S., Kadoda A., Zolensky M., Le L., Robinson G. A., Friedrich J., Rumble D., Steele A., Chesley S., Fitzsimmons A., Duddy S., Hsieh H., Ramsay G., Brown P., Edwards W., Tagliaferri E., Boslough M., Spalding R., Dantowitz R., Kozubal M., Pravec P., Borovi✓ka J., Charvat Z., Vaubaillon J., Kuiper J., Albers J., Bishop L., Mancinelli R., Sandford S., Milam S., Nuevo M., and Worden S. 2009. The impact and recovery of asteroid 2008 TC3. Nature 458:485488.
  • Ketcham R. A. 2005. Computational methods for quantitative analysis of three dimensional features in geological specimens. Geosphere 1:3241.
  • Ketcham R. A. and Carlson W. D. 2001. Acquisition, optimization and interpretation of X-ray computed tomographic imagery: Applications to the geosciences. Computers & Geosciences 27:381400.
  • Klöck W. and Stadermann F. J. 1994. Mineralogical and chemical relationships of interplanetary dust particles, micrometeorites and meteorites. In Analysis of interplanetary dust, edited by ZolenskyM. E., WilsonT. L., RietmeijerF. J. M., and FlynnG. J. AIP Press. pp. 5187.
  • Kogure T. 2003. A program to assist Kikuchi pattern analysis. Journal of the Crystallographic Society of Japan 45:391395. (in Japanese with English abstract: the program is available at http://www-gbs.eps.s.u-tokyo.ac.jp/kogure/edana).
  • Kohout T., Jenniskens P., Shaddad M. H., and Haloda J., 2010. Inhomogeneity of asteroid 2008 TC3 (Almahata Sitta meteorites) revealed through magnetic susceptibility measurements. Meteoritics & Planetary Science 45. This issue.
  • Lindsley D. H. 1983. Pyroxene thermometry. American Mineralogist 68:477493.
  • Mason B. 1962. Meteorites. USA: J. Wiley and Sons, Inc. New York, NY. pp. 111112.
  • Mikouchi T., Zolensky M., Ohnishi I., Suzuki T., Takeda H., Jenniskens P., and Shaddad M. 2010. Transmission electron microscopy of pyroxenes in the Almahata Sitta ureilite. Meteoritics & Planetary Science 45. This issue.
  • Mittlefehldt D. W. 1986. Fe-Mg-Mn relations of ureilite olivines and pyroxenes and the genesis of ureilites. Geochimica et Cosmochimica Acta 50:107110.
  • Mittlefehldt D. W., McCoy T. J., Goodrich C. A., and Kracher A. 1998. Non-chondritic meteorites from asteroidal bodies. In Planetary materials, edited by PapikeJ. Reviews in Mineralogy, vol. 36. Mineralogical Society of America, Washington, D.C. pp. 4.14.195.
  • Nagahara H. 1984. Matrices of type 3 ordinary chondrites—Primitive nebular records. Geochimica et Cosmochimica Acta 48:25812595.
  • Ross A., Steele A., Fries M., Kater L., Downes H., Jones A., Smith C., Jenniskens P., Zolensky M., and Shaddad M. Forthcoming. MicroRaman spectroscopy of diamond and graphite in Almahata Sitta and comparison with other ureilites. Meteoritics & Planetary Science. 45.
  • Rumble D., Zolensky M., Friedrich J., Jenniskens P., and Shaddad M. 2010. The oxygen isotope composition of Almahata Sitta. Meteoritics & Planetary Science 45. This issue.
  • Sabbah H., Morrow A. L., Jenniskens P., Shaddad M. H., and Zare R. N. 2010. Polycyclic aromatic hydrocarbons in asteroid 2008 TC3: Dispersion of organic compounds inside asteroids. Meteoritics & Planetary Science 45. This issue.
  • Scott E., Taylor J., and Keil K. 1993. Origin of ureilite meteorites and implications for planetary accretion. Geophysical Research Letters 20:415.
  • Shaddad M. H., Jenniskens P., Numan D., Kudoda A. M., Elsir S, Riyad I. F., Elkareem A., Alameen M., Alameen N. M., Eid O., Osman A. T., AbuBaker M. I., CHesley S. R., Chodas P. W., Albers J., Edwars W. N., Brown P. G., Kuiper J., and Friedrich J. M. 2010. The recovery of asteroid 2008 TC3. Meteoritics & Planetary Science 45. This issue.
  • Simon S., Davis A., Grossman L., and McKeegan K. 2002. A hibonite-corundum inclusion from Murchison: A first generation condensate from the solar nebula. Meteoritics & Planetary Science 37:533548.
  • Singletary S. J. and Grove T. L. 2003. Early petrologic processes on the ureilite parent body. Meteoritics & Planetary Science 38:95108.
  • Steele A., Fries M., Jenniskens P., and Zolensky M. 2009. Characterisation of diamond in the Almahata Sitta meteorite (abstract #9.08). Division of Planetary Sciences–Astronomical Association of America Society, American Astronomical Society, Washington, D.C. Annual Meeting.
  • Takeda H. 1987. Mineralogy of Antarctic ureilites and a working hypothesis for their origin and evolution. Earth and Planetary Science Letters 81:358370.
  • Takeda H. 1989. Mineralogy of coexisting pyroxenes in magnesian ureilites and their formation conditions. Earth and Planetary Science Letters 93:181194.
  • Takeda H. and Yamaguchi A. 2009. Decomposed pigeonite in Antarctic ureilites and the thermal history of the parent body. Proceedings of the NIPR Symposium on Antarctic Meteorites 32:6869.
  • Takeda H., Mori H., and Ogata H. 1989. Mineralogy of augite-bearing ureilites and the origin of their chemical trends. Meteoritics 24:7381.
  • Takeda H., Yamaguchi A., and Mikouchi T. 2009. Low-calcium pigeonite in Northwest Africa and Asuka ureilites with reference to planetary processes (abstract). Meteoritics & Planetary Science 44:A200.
  • Tribaudino M. 2006. Microtextures and crystal chemistry of pigeonite in the ureilites ALHA77257, RKPA80239, Y-791538 and ALHA81101. Meteoritics & Planetary Science 41:979988.
  • Tribaudino M., Pasqual D., Mollin G., and Secco L. 2003. Microstructures and crystal chemistry in P21/c pigeonites. Mineralogy and Petrology 77:161176.
  • Warren P. H. 2010. Ureilites: Pigeonite thermometry and the unimportance of pressure-buffered smelting during evolution as asteroidal mantle restites (abstract #1530). 41st Lunar and Planetary Science Conference. CD-ROM.
  • Warren P. H. and Huber H. 2006. Ureilite petrogenesis: A limited role for smelting during anatexis and catastrophic disruption. Meteoritics & Planetary Science 41:835849.
  • Warren P. H. and Rubin A. 2006. Melted-reduced pigeonite, vermicular silica, Si-rich glasses, and other impact smelting products in the LAR 04315 ureilite (abstract). Meteoritics & Planetary Science 41:A184.
  • Warren P. H., Ulff-Moeller F., Huber H., and Kallemeyn G. W. 2006. Siderophile geochemistry of ureilites: A record of early stages of planetesimal core formation. Geochimica et Cosmochimica Acta 70:21042126.
  • Weisberg M., Connolly H., and Ebel D. 2004. Petrology and origin of amoeboid olivine aggregates in CR chondrites. Meteoritics & Planetary Science 39:17411753.
  • Wilson L. W., Goodrich C. A., and Van Orman J. A. 2008. Thermal evolution and physics of melt extraction on the ureilite parent body. Geochimica et Cosmochimica Acta 72:61546176.
  • Zolensky M., Nakamura K., Gounelle M., Mikouchi T., Kasama T., Tachikawa O., and Tonui E. 2002. Mineralogy of Tagish Lake: An ungrouped type 2 carbonaceous chondrite. Meteoritics & Planetary Science 37:737761.