Re: [meteorite-list] AD - 39 meteorite publications from 1896 to 2003
Very moving dedication to your grandfather, Arnaud. It was Goethe who stated (in 'Wahlverwandtschaften') that in the chain of generations impulses often overleap the following generation and have effect on the after next. With other words: we receive our attractions and repulsions from our grandparents and forward them to our grandchildren - in many cases at least. Best regards, Matthias - Original Message - From: "The Tricottet Collection" To: "MeteoriteList" Sent: Sunday, July 04, 2010 11:34 AM Subject: [meteorite-list] AD - 39 meteorite publications from 1896 to 2003 Dear list members, I reorganized the Tricottet Collection Library and I have 39 publications available. I will consider any offer for the complete lot only, trades possibles. See below for the list Thanks ArnaudM The Tricottet Collection of Natural History Specimens (Minerals, Fossils & Meteorites) www.thetricottetcollection.com Facebook: The Tricottet Collection Twitter: TricottetColl [1] Adams, L. H. and H. S. Washington (1924), The Distribution of Iron in Meteorites and in the Earth, J. Washington Acad. Sci., vol. 14, no. 14 [2] Antarctic Meteorite Working Group (1981), Antarctic meteorites. An international resource for scientific research, Lunar & Planetary Institute, 9 pp. [3] Banerjee, S. K. and R. B. Hargraves (1972), Natural remanent magnetizations of carbonaceous chondrites and the magnetic field in the early solar system, Earth Planet. Sci. Lett., 17, pp. 110-119 [4] Barringer, D. M. (1958), Four Years of Meteoritics, Contributions of the Meteoritical Society, vol. 6, no. 3 (in old envelope with Oliver 1958) [5] Beck, C. W. and L. LaPaz (1949), The Weatherford, Oklahoma, Meteorite, Contrib. Meteoritical Soc., Popular Astronomy, vol. 57, no. 9, pp. 450-454 [6] Beck, C. W. (1951), Observations on the Toluca, Mexico, Meteoritic Iron, Contrib. Meteoritical Soc., Popular Astronomy, vol. 59, no. 1, pp. 24-28 [7] Bitot, A., dir. (1955), Météorites, Comètes et Astéroïdes, Bibliothèque de Travail, L'Imprimerie à l'Ecole Cannes, 24 pp. [8] Briley, D. J. and C. B. Moore (1976), A Checklist of Published References to Barringer Meteorite Crater, Arizona, 1891-1970, Center for Meteorite Studies, Arizona State University, octavo, pp. iv., 71 pp. [9] Campbell Smith, W. (1932), A new meteoric stone from Suwahib, Arabia, Mineralogical Magazine, 23, no. 136, pp. 43-50 [10] Clarke, R. S. Jr. and B. Mason (1982), A new metal-rich mesosiderite from Antarctica, RKPA79015, Mem. Nat. Instit. Polar Res., Special Issue no. 25, Proc. 7th Symposium on Antarctic Meteorites, pp. 78-85 [11] Davis, G. L. (1950), Radium content of ultramafic igneous rocks: III. Meteorites, Am. J. Sci., 248, pp. 107-111 [12] De Laeter, J. R. and D. J. Hosie (1978), The abundance of barium in stony meteorites, Earth Planet. Sci. Lett., 38, pp. 416-420 [13] Edwards, G. (1955), Isotopic composition of meteoritic hydrogen, Nature, 176, 7 pp. [14] Fletcher, L. (1908), On the possible existence of a nickel-iron constituent (Fe5Ni3) in both the meteoric iron of Youndegin and the meteoric stone of Zomba, Mineralogical Magazine, 15, no. 69, pp. 147-152 [15] Foster, G. E. (1957), The Barringer (Arizona) Meteorite Crater, 30 pp. [16] Friedman, I. (1958), The water, deuterium, gas and uranium content of tektites, Geochimica Cosmochimica Acta, 14, no. 4, pp. 316-322 [17] Fuchs, L. H. and E. Olsen (1973), Composition of metal in type III carbonaceous chondrites and its relevance to the source-assignment of lunar metal, Earth Planet. Sci Lett., 18, pp. 379-384 [18] Hartley, W. N. (1906), The description and spectrographic analysis of a meteoric stone, Transac. Chemical Soc., 89, pp. 1566-1568 [19] Hovey, E. O. (1896), Catalogue of Meteorites in the Collection of The American Museum of Natural History, to July 1, 1896, American Museum of Natural History, art. VIII, pp. 149-155 [20] Hovey, E. O. (1922), Aerolite from Rose City, Michigan, American Museum Novitates, no. 52, New York, 7 pp. [21] Ksanda, C. J. and E. P. Henderson (1939), Identification of diamond in the Canyon Diablo iron, American Mineralogist, 24, pp. 677-680 [22] LaPaz, L. (1956), A Preliminary Report on the Dumas, Moore County, Texas, Aerolite | A Recent Macro-spicular Recovery From the Glorieta, New Mexico, Fall, Meteoritics, vol. 1, no. 4 [23] Mason, B. and A. D. Maynes (1967), The Composition of the Allegan, Bur-Gueluai, and Cynthiana Meteorites, Proc. U.S. National Museum, vol. 124, no. 3624 [24] Mason, B. et al. (1971), Transition Element Distribution in Stony Meteorites and in Terrestrial and Lunar Rocks, Chemie der Erde, Band 30, Heft 1/4 [25] Merrill, G. P. (1921), On the Mineral Composition and Structure of the Troup Meteorite, Proc. U.S. National Museum, vol. 59, no. 2384, pp. 477-478, 1 pl. [26] Merrill., G. P. (1926), The present condition of knowledge on the composition of meteorites, Proc. Am. Phil. Soc., vol. 6
[meteorite-list] AD - 39 meteorite publications from 1896 to 2003
Dear list members, I reorganized the Tricottet Collection Library and I have 39 publications available. I will consider any offer for the complete lot only, trades possibles. See below for the list Thanks ArnaudM The Tricottet Collection of Natural History Specimens (Minerals, Fossils & Meteorites) www.thetricottetcollection.com Facebook: The Tricottet Collection Twitter: TricottetColl [1] Adams, L. H. and H. S. Washington (1924), The Distribution of Iron in Meteorites and in the Earth, J. Washington Acad. Sci., vol. 14, no. 14 [2] Antarctic Meteorite Working Group (1981), Antarctic meteorites. An international resource for scientific research, Lunar & Planetary Institute, 9 pp. [3] Banerjee, S. K. and R. B. Hargraves (1972), Natural remanent magnetizations of carbonaceous chondrites and the magnetic field in the early solar system, Earth Planet. Sci. Lett., 17, pp. 110-119 [4] Barringer, D. M. (1958), Four Years of Meteoritics, Contributions of the Meteoritical Society, vol. 6, no. 3 (in old envelope with Oliver 1958) [5] Beck, C. W. and L. LaPaz (1949), The Weatherford, Oklahoma, Meteorite, Contrib. Meteoritical Soc., Popular Astronomy, vol. 57, no. 9, pp. 450-454 [6] Beck, C. W. (1951), Observations on the Toluca, Mexico, Meteoritic Iron, Contrib. Meteoritical Soc., Popular Astronomy, vol. 59, no. 1, pp. 24-28 [7] Bitot, A., dir. (1955), Météorites, Comètes et Astéroïdes, Bibliothèque de Travail, L'Imprimerie à l'Ecole Cannes, 24 pp. [8] Briley, D. J. and C. B. Moore (1976), A Checklist of Published References to Barringer Meteorite Crater, Arizona, 1891-1970, Center for Meteorite Studies, Arizona State University, octavo, pp. iv., 71 pp. [9] Campbell Smith, W. (1932), A new meteoric stone from Suwahib, Arabia, Mineralogical Magazine, 23, no. 136, pp. 43-50 [10] Clarke, R. S. Jr. and B. Mason (1982), A new metal-rich mesosiderite from Antarctica, RKPA79015, Mem. Nat. Instit. Polar Res., Special Issue no. 25, Proc. 7th Symposium on Antarctic Meteorites, pp. 78-85 [11] Davis, G. L. (1950), Radium content of ultramafic igneous rocks: III. Meteorites, Am. J. Sci., 248, pp. 107-111 [12] De Laeter, J. R. and D. J. Hosie (1978), The abundance of barium in stony meteorites, Earth Planet. Sci. Lett., 38, pp. 416-420 [13] Edwards, G. (1955), Isotopic composition of meteoritic hydrogen, Nature, 176, 7 pp. [14] Fletcher, L. (1908), On the possible existence of a nickel-iron constituent (Fe5Ni3) in both the meteoric iron of Youndegin and the meteoric stone of Zomba, Mineralogical Magazine, 15, no. 69, pp. 147-152 [15] Foster, G. E. (1957), The Barringer (Arizona) Meteorite Crater, 30 pp. [16] Friedman, I. (1958), The water, deuterium, gas and uranium content of tektites, Geochimica Cosmochimica Acta, 14, no. 4, pp. 316-322 [17] Fuchs, L. H. and E. Olsen (1973), Composition of metal in type III carbonaceous chondrites and its relevance to the source-assignment of lunar metal, Earth Planet. Sci Lett., 18, pp. 379-384 [18] Hartley, W. N. (1906), The description and spectrographic analysis of a meteoric stone, Transac. Chemical Soc., 89, pp. 1566-1568 [19] Hovey, E. O. (1896), Catalogue of Meteorites in the Collection of The American Museum of Natural History, to July 1, 1896, American Museum of Natural History, art. VIII, pp. 149-155 [20] Hovey, E. O. (1922), Aerolite from Rose City, Michigan, American Museum Novitates, no. 52, New York, 7 pp. [21] Ksanda, C. J. and E. P. Henderson (1939), Identification of diamond in the Canyon Diablo iron, American Mineralogist, 24, pp. 677-680 [22] LaPaz, L. (1956), A Preliminary Report on the Dumas, Moore County, Texas, Aerolite | A Recent Macro-spicular Recovery From the Glorieta, New Mexico, Fall, Meteoritics, vol. 1, no. 4 [23] Mason, B. and A. D. Maynes (1967), The Composition of the Allegan, Bur-Gueluai, and Cynthiana Meteorites, Proc. U.S. National Museum, vol. 124, no. 3624 [24] Mason, B. et al. (1971), Transition Element Distribution in Stony Meteorites and in Terrestrial and Lunar Rocks, Chemie der Erde, Band 30, Heft 1/4 [25] Merrill, G. P. (1921), On the Mineral Composition and Structure of the Troup Meteorite, Proc. U.S. National Museum, vol. 59, no. 2384, pp. 477-478, 1 pl. [26] Merrill., G. P. (1926), The present condition of knowledge on the composition of meteorites, Proc. Am. Phil. Soc., vol. 65, no. 2, pp. 119-130 [27] Merrill, G. P. (1928), Concerning the origin of the metal in meteorites, Proc. U. S. Nat. Museum, 73, art. 21, pp. 1-7 [28] Merrill, G. P. (1929), A newly found meteoric stone reported by W. B. Lang from Peck’s Spring Midland County, Texas, Proc. U. S. Nat. Museum, 75, art. 16, pp. 1-2 [29] Moore, C. B. and P. P. Sipiera (1975), Identification of Meteorites, Center for Meteorite Studies, Arizona State Univ., Tempe, 16 pp. [30] Moore, C. B. and P. P. Sipiera (1979), Identificacion de Meteoritos, Center for Meteorite Studies, Arizona State Univ., Tempe, 16 pp. [31] Nichiporuk, W. and C. B. Moore (1974), Lithi