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  • Al-Kathiri A., Hofmann B. A., Jull A. J. T., and Gnos E. 2005. Weathering of meteorites from Oman: Correlation of chemical and mineralogical weathering proxies with 14C terrestrial ages and the influence of soil chemistry. Meteoritics & Planetary Science 40:12151239.
  • Annexstad J. O., Schultz L., and Wänke H. 1986. Workshop on Antarctic meteorites. LPI Technical Report 86-01. Houston, TX: Lunar and Planetary Institute. 119 p.
  • Arnold J. R., Honda M., and Lal D. 1961. Record of cosmic-ray intensity in meteorites. Journal of Geophysical Research 66:35193531.
  • Bevan A. W. R. 2006a. Desert meteorites: A history. In The history of meteoritics and key meteorite collections: Fireballs, falls and finds, edited by McCallG. J. H., BowdenA. J., and HowarthR. J. Geological Society of London, Special Publication 256. pp. 325343.
  • Bevan A. W. R. 2006b. The Western Australian Museum meteorite collection. In The history of meteoritics and key meteorite collections: Fireballs, falls and finds, edited by McCallG. J. H., BowdenA. J., and HowarthR. J. Geological Society of London, Special Publication 256. pp. 305323.
  • Bevan A. W. R. and Binns R. A. 1989a. Meteorites from the Nullarbor Region, Western Australia I: A review of past recoveries and a procedure for naming new finds. Meteoritics 24:127133.
  • Bevan A. W. R. and Binns R. A. 1989b. Meteorites from the Nullarbor Region, Western Australia II: Recovery and classification of 34 new meteorite finds from the Mundrabilla, Forrest, Reid and Deakin areas. Meteoritics 24:134141.
  • Bevan A. W. R., Bland P. A., and Jull A. J. T. 1998. Meteorite flux on the Nullarbor, Australia. In Meteorites: Flux with time and impact effects, edited by GradyM. M., HutchisonR., McCallG. J. H., and RotheryD. A. Geological Society of London, Special Publication 140. pp. 5973.
  • Bland P. A. 2001. Quantification of meteorite infall rates. In Accretion of extraterrestrial matter throughout Earth’s history, edited by Peucker-EhrenbrinkB. and SchmitzB. New York: Kluwer Academic-Plenum Press. pp. 267303.
  • Bland P. A., Smith T. B., Jull A. J. T., Berry F. J., Bevan A. W. R., Cloudt S., and Pillinger C. T. 1996a. The flux of meteorites to the Earth over the last 50,000 years. Monthly Notices of the Royal Astronomical Society 238:551565.
  • Bland P. A., Berry F. J., Smith T. B., Skinener S. J., and Pillinger C. T. 1996b. The flux of meteorites to the Earth and weathering in hot desert ordinary chondrite finds. Geochimica et Cosmochimica Acta 60:20532059.
  • Bland P. A., Sexton A. S., Jull A. J. T., Bevan A. W. R., Berry F. J., Thornley D. M., Astin T. R., Britt D. T., and Pillinger C. T. 1998a. Climate and rock weathering: A study of terrestrial age dated ordinary chondritic meteorites from hot desert regions. Geochimica et Cosmochimica Acta 62:31693184.
  • Bland P. A., Coway A., Smith T. B., Berry F. J., Swabey S. E. J., and Pillinger C. T. 1998b. Calculating flux from meteorite decay rates: A discussion of problems encountered in deciphering a 105–106 year integrated meteorite flux at Allan Hills and a new approach to pairing. In Meteorites: Flux with time and impact effects, edited by GradyM. M., HutchinsonR., McCallG. J. H., and RotheryD. A. London: Geological Society of London, Special Publication 140. pp. 4358.
  • Bland P. A., Berry F. J., and Pillinger C. T. 1998c. Rapid weathering in Holbrook: An iron-57 Mössbauer spectroscopy study. Meteoritics & Planetary Science 33:127129.
  • Bland P. A., Bevan A. W. R., and Jull A. J. T. 2000. Ancient meteorite finds and the Earth’s surface environment. Quaternary Research 53:131142.
  • Bland P. A., Berry F. J., Jull A. J. T., Smith T. B., Bevan A. W. R., Cadogan J. M., Sexton A. S., Franchi I. A., and Pillinger C. T. 2002. 57Fe Mössbauer spectroscopy studies of meteorites: Implications for weathering rates, meteorite flux and early solar system processes. Hyperfine Interactions 142:481494.
  • Brown R. M., Andrews H. R., Ball G. C., Burn N., Imahori Y., Milton J. C. D., and Fireman E. L. 1984. 14C content of ten meteorites measured by tandem accelerator mass spectrometry. Earth and Planetary Science Letters 67:18.
  • Chang C. and Wänke H. 1969. Beryllium-10 in meteorites: Their cosmic-ray exposure and terrestrial ages. In Meteorite research, edited by MillmanP. Dordrecht: Reidel. pp. 397406.
  • Chennaoui Aoudjehane H. and Jull A. J. T. 2006. Desert Meteorite Workshop abstracts. Meteoritics & Planetary Science 41:A201A216.
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  • Clarke R. S. 1976. The Meteoritical Bulletin, No. 54. Meteoritics 11:6993.
  • Clayton R. N. 1993. Oxygen isotopes in meteorites. Annual Review of Earth and Planetary Sciences 21:115149.
  • Clayton R. N. and Mayeda T. K. 1996. Oxygen isotope composition of achondrites. Geochimica et Cosmochimica Acta 60:19992017.
  • Dollase W. A. 1975. Statistical limitations of Mössbauer spectral fitting. American Mineralogist 60:257264.
  • Donahue D. J., Linick T. W., and Jull A. J. T. 1990. Isotope-ratio and background corrections for accelerator mass spectrometry radiocarbon measurements. Radiocarbon 32:135142.
  • Franchi I. A., Delisle G., Jull A. J. T., Hutchison R., and Pillinger C. T. 1995. An evaluation of the meteorite potential of the Jiddat al Harasis and the Rub al Khali regions of southern Arabia. LPI Technical Report 95-02. Houston, TX: Lunar and Planetary Institute. pp. 2930.
  • Gattacceca J., Valenzuela E. M., Leclerc M. D., Rochette P., Suavet C., Jull T., Uehara M., Munayco P., Bourot-Denise M., and Scorzelli R. B. 2009. Atacama: The densest meteorite collection area among hot deserts. Meteoritics & Planetary Science 44:5083.
  • Gnos E., Lorenzetti S., Eugster O., Jull A. J. T., Hofmann B. A., Al-Kathiri A., and Eggimann M. 2009. The Jiddat al Harasis 073 strewn field, Sultanate of Oman. Meteoritics & Planetary Science 44:375387.
  • Goel P. S. and Kohman T. L. 1962. Cosmogenic carbon-14 in meteorites and terrestrial ages of ‘finds’ and craters. Science 136:875876.
  • Grady M. M. 2000. Catalogue of meteorites, 5th ed. Cambridge: Cambridge University Press. 696 p.
  • Graham A. L. 1990. The Meteoritical Bulletin, No. 68. Meteoritics 25:5970.
  • Grossman J. N. 1996. The Meteoritical Bulletin, No. 80. Meteoritics & Planetary Science 31:A175A180.
  • Halliday I., Blackwell A. T., and Griffin A. A. 1989. The flux of meteorites to the Earth’s surface. Meteoritics 24:173178.
  • Hofmann B. A., Gnos E., Zurfluh F. J., Giscard M. D., Jull A. J. T., Weber P., and Al-Busadi S. H. 2009. Oman meteorite search project 2001–2009: Status and summary. Meteoritics & Planetary Science 43:5225.
  • Jull A. J. T. 2001. Terrestrial ages of meteorites. In Accretion of extraterrestrial matter throughout Earth’s history, edited by SchmitzB. and Peuker-EhrenbrinkB. New York: Kluwer Academic/Plenum Publishers. pp. 241266.
  • Jull A. J. T. 2006. Terrestrial ages of meteorites. In Meteorites and the early solar system II, edited by LaurettaD. and McSweenH. Y.Jr. Tucson, AZ: The University of Arizona Press. pp. 889905.
  • Jull A. J. T., Donahue D. J., Zabel T. H., and Fireman E. L. 1984. Carbon-14 ages of Antarctic meteorites with accelerator and small-volume counting techniques. Proceedings, 15th Lunar and Planetary Science Conference. Journal of Geophysical Research 89:C329C335.
  • Jull A. J. T., Donahue D. J., and Linick T. W. 1989. Carbon-14 activities in recently fallen meteorites and Antarctic meteorites. Geochimica et Cosmochimica Acta 53:20952100.
  • Jull A. J. T., Wlotzka F., Palme H., and Donahue D. J. 1990. Distribution of terrestrial age and petrologic type of meteorites from western Libya. Geochimimica et Cosmochimica Acta 54:28952898.
  • Jull A. J. T., Donahue D. J., and Wlotzka F. 1991. Terrestrial ages and petrologic description of Roosevelt County meteorites (abstract). 22nd Lunar and Planetary Science Conference. pp. 667668.
  • Jull A. J. T., Donahue D. J., Cielaszyk E., and Wlotzka F. 1993. Carbon-14 terrestrial ages and weathering of 27 meteorites from the southern high plains and adjacent areas (USA). Meteoritics 28:188195.
  • Jull A. J. T., Donahue D. J., Reedy R. C., and Masarik J. 1994. A 14C depth profile in the L5 chondrite Knyahinya. Meteoritics 29:649651.
  • Jull A. J. T., Bevan A. W. R., Cielaszyk E., and Donahue D. J. 1995. Carbon-14 terrestrial ages and weathering of meteorites from the Nullarbor Plain, Western Australia. LPI Technical Report 95-02. Houston, TX: Lunar and Planetary Institute. pp. 3738.
  • Jull A. J. T., Cloudt S., and Cielaszyk E. 1998. 14C terrestrial ages of meteorites from Victoria Land, Antarctica, and the infall rates of meteorites. In Meteorites: Flux with time and impact effects, edited by GradyM. M., HutchisonR., McCallG. J. H., and RotheryD. A. Geological Society of London, Special Publication 140. pp. 7591.
  • Jull A. J. T., McHargue L. R., Kim K. J., Johnson J. A., Bland P. A., and Bevan A. W. R. 2005. Studies of 14C and 10Be production rates and terrestrial ages of desert meteorites (abstract). Meteoritics & Planetary Science 40:A78.
  • Kring D. A., Jull A. J. T., McHargue L. R., Bland P. A., Hill D. H., and Berry F. J. 2001. Gold Basin meteorite strewn field, Mojave Desert, northwestern Arizona: Relic of a small late Pleistocene impact event. Meteoritics & Planetary Science 36:10571066.
  • Levine J., Andrés A., Faestermann T., Fernández-Niello J. O., Korschinek G., Maria La Gamma A., Rugel G., Steier P., and Wallner A. 2008. The 410,000 year terrestrial age of the eucrite Rio Cuarto 001. Meteoritics & Planetary Science 43:805813.
  • Martin H. A. 1973. Palynology and historical ecology of some cave excavations in the Australian Nullarbor. Australian Journal of Botany 21:283316.
  • McCorkell R. H., Fireman E. L., D’Amica J., and Thompson S. O. 1968. Radiometric isotopes in Hoba West and other iron meteorites. Meteoritics 4:113122.
  • McHargue L. R., Damon P. E., and Donahue D. J. 1995. Enhanced cosmic-ray production of 10Be coincident with the Mono Lake and Laschamp Geomagnetic Excursions. Geophysical Research Letters 22:659662.
  • Muñoz C., Guerra N., Martinez-Frias J., Lunar R., and Cerda J. 2007. The Atacama Desert: A preferential arid region for the recovery of meteorites—Find features and strewn field distribution patterns. Journal of Arid Environments 71:188200.
  • Nishiizumi K. 1995. Terrestrial ages of meteorites from cold and hot deserts. LPI Technical Report 95-02. Houston, TX: Lunar and Planetary Institute. pp. 5355.
  • Nishiizumi K. and Caffee M. W. 2001. Exposure histories of lunar meteorites Dhofar 025, 026, and Northwest Africa 482 (abstract). Meteoritics & Planetary Science 36:A148A149.
  • Nishiizumi K., Klein J., Middleton R., and Arnold J. R. 1987. Long-lived cosmogenic nuclides in the Derrick Peak and Lazarev iron meteorites. 18th Lunar and Planetary Science Conference. 725725.
  • Nishiizumi K., Okazaki R., Park J., Nagao K., Masarik J., and Finkel R. C. 2002. Exposure and terrestrial history of Dhofar 019 Martian meteorite (abstract). 33rd Lunar and Planetary Science Conference. p. 1366.
  • Nishiizumi K., Imamura M., Caffee M., Southon J., Finkel R., and McAnich J. 2007. Absolute calibration of 10Be AMS standards. Nuclear Instruments and Methods in Physics Research Section B 258:403413.
  • Rumble D., Miller M. F., Franchi I. A., and Greenwood R. C. 2007. Oxygen three-isotope fractionation lines in terrestrial silicate minerals: An inter-laboratory comparison of hydrothermal quartz and eclogitic garnet. Geochimica et Cosmochimica Acta 71:35923600.
  • Scherer P., Schultz L., and Weber H. 1997a. Comparative noble gas study of CK, CV and some unusual carbonaceous chondrites (abstract). Meteoritics & Planetary Science 32:A115.
  • Scherer P., Schultz L., Neupest U., Knauer M., Neumann S., Leya I., Michel R., Mokos J., Lipschutz M. E., Metzler K., Suter M., and Kubik P. 1997b. Allan Hills 88019: An Antarctic H-chondrite with a very long terrestrial age. Meteoritics & Planetary Science 32:769773.
  • Schlüter J., Schultz L., Thiedig B., Al-Mahdi B. O., and Abu Aghreb A. E. 2002. The Dar al Gani meteorite field (Libyan Sahara): Geological setting, pairing of meteorites, and recovery density. Meteoritics & Planetary Science 37:10791093.
  • Schultz L., Annexstad J. O., and Zolensky M. 1995. Workshop on meteorites from hot and cold deserts. LPI Technical Report 95-02. Houston, TX: Lunar and Planetary Institute. 83 p.
  • Schultz L., Franchi I. A., Reid A. M., and Zolensky M. 2000. Workshop on extraterrestrial materials from cold and hot deserts. LPI Technical Report 99-07. Houston, TX: Lunar and Planetary Institute. 99 p.
  • Schultz L., Franke L., and Bevan A. W. R. 2005. Noble gases in ten Nullarbor chondrites: Exposure ages, terrestrial ages and weathering effects. Meteoritics & Planetary Science 40:659664.
  • Simpson E. S. 1912. Two new meteorites from Western Australia. Bulletin of the Geological Survey of Western Australia 48:8789.
  • Sipiera P. P., Becker M. J., and Dodd B. D. 1987a. Preliminary classification of an additional eight chondrites from Roosevelt County, New Mexico. Meteoritics 22:504505.
  • Sipiera P. P., Becker M. J., and Kawachi Y. 1987b. Classification of twenty-six chondrites from Roosevelt County, New Mexico. Meteoritics 22:151155.
  • Sisterson J. M., Jull A. J. T., Beverding A., Koehler A. M., Castaneda C., Vincent J., Donahue D. J., Englert P. A. J., Gans C., Young J., and Reedy R. C. 1994. Proton production cross sections for 14C from silicon and oxygen: Implications for cosmic-ray studies. Nuclear Instruments and Methods in Physics Research Section B 92:510512.
  • Suess H. and Wänke H. 1962. Radiocarbon content and terrestrial age of 12 stony meteorites and one iron meteorite. Geochimica et Cosmochimica Acta 26:475480.
  • Tyra M., Farquhar J., Wing B. A., Benedix G. K., Jull A. J. T., Jackson T., and Thiemens M. H. 2007. Terrestrial alteration of carbonate in a suite of Antarctic CM chondrites: Evidence from oxygen and carbon isotopes. Geochimica et Cosmochimica Acta 71:782795.
  • Valenzuela E. M., Leclerc M. D., Munayco P., Scorzelli R. B., Jull A. J. T., Rochette P., Gattacceca J., Suavet C., Denise M., and Morata D. 2008. Weathering patterns of ordinary chondrites from different locations in the Atacama Desert, Chile (abstract). Meteoritics & Planetary Science 43:A5065.
  • Verish R. S., Rubin A. E., Moore C. B., and Oriti R. A. 2000. Deflation and meteorite exposure on playa lakes in the southwestern United States: Unpaired meteorites at Lucerne Dry Lake, California. LPI Technical Report 99-07. Houston, TX: Lunar and Planetary Institute. pp. 7475.
  • Welten K. C., Alderliesten C., Van Der Borg K., Lindner L., Loeken T., and Schultz L. 1997. Lewis Cliff 86360: An Antarctic L-chondrite with a terrestrial age of 2.35 million years. Meteoritics & Planetary Science 32:775780.
  • Welten K. C., Nishiizumi K., Masarik J., Caffee M. W., Jull A. J. T., Klandrud S. E., and Wieler R. 2001. Neutron-capture production of chlorine-36 and calcium-41 in two H-chondrite showers from Frontier Mountain, Antarctica. Meteoritics & Planetary Science 36:301317.
  • Welten K. C., Caffee M. W., Leya I., Masarik J., Nishiizumi K., and Wieler R. 2003. Noble gases and cosmogenic radionuclides in the Gold Basin L4 chondrite shower: Thermal history, exposure history and pre-atmospheric size. Meteoritics & Planetary Science 38:157173.
  • Welten K. C., Nishiizumi K., Finkel R. C., Hillegonds D. J., Jull A. J. T., Franke L., and Schultz L. 2004. Exposure history and terrestrial ages of ordinary chondrites from the Dar al Gani region, Libya. Meteoritics & Planetary Science 39:481498.
  • Welten K. C., Nishiizumi K., Folco L., and Caffee M. A. 2006. Cosmogenic radionuclides in a weathered 2.8 million year old H chondrite found on top of Frontier Mountain, Antarctica (abstract). Meteoritics & Planetary Science 41:A187.
  • Welten K. C., Folco L., Nishiizumi K., Caffee M. W., Grimberg A., Meier M. M. M., and Kober F. 2008. Meteoritic and bedrock constraints on the glacial history of Frontier Mountain in northern Victoria Land, Antarctica. Earth and Planetary Science Letters 270:308315.
  • Wieler R., Graf T., Signer P., Vogt S., Herzog G. F., Tuniz C., Fink D., Fifield L. K., Klein J., Middleton R., Jull A. J. T., Pellas P., Masarik J., and Dreibus G. 1996. Exposure history of the Torino meteorite. Meteoritics & Planetary Science 31:265272.
  • Wieler R. and Graf T. 2001. Cosmic ray exposure history of meteorites. In Accretion of extraterrestrial matter throughout Earth’s history, edited by Peucker-EhrenbrinkB. and SchmitzB. Amsterdam: Kluwer. pp. 221240.
  • Weisberg M., Smith C., Benedix G., Herd C. D. K., Righter K., Haack H., Yamaguchi A., Aoudjehane H. C., and Grossman J. N. 2010. The Meteoritical Bulletin No. 97. Meteoritics & Planetary Science 45:449493.
  • Wlotzka F. 1992. The Meteoritical Bulletin, No. 72. Meteoritics 27:109117.
  • Wlotzka F. 1993. The Meteoritical Bulletin, No. 74. Meteoritics 28:692703.
  • Wlotzka F. 1994. The Meteoritical Bulletin, No. 77. Meteoritics 29:891897.
  • Wlotzka F., Jull A. J. T., and Donahue D. J. 1995. Carbon-14 terrestrial ages of meteorites from Acfer, Algeria. LPI Technical Report 95-02. Houston, TX: Lunar and Planetary Institute. pp. 7273.
  • Zolensky M. E., Wells G. L., and Rendell H. M. 1990. The accumulation rate of falls at the Earth’s surface: The view from Roosevelt County, New Mexico. Meteoritics 25:1117.