An overview of vis-nir-swir field spectroscopy - Spectral International

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________________________________________________________________ SELECTED REFERENCES Belperio, A., and Freeman, H., 2004, Common geological characteristics of Prominent Hill and Olympic Dam - Implications for iron oxide copper-gold exploration models. Australian Institute of Mining Bulletin, Nov-Dec. Issue, p. 67-75. Campbell, L.S., and Henderson, P., 1997, Apatite paragenesis in the Bayan Obo REE- Nb-Fe ore deposit, Inner Mongolia, China: Lithos, v. 42, p. 89-103. Chao, E.C.T., Back, J.M., Minkin, J.A., Tatsumoto, M., Wang Junwen, Conrad, J.E., McKee, E.H., Hou Zonglin, Meng Qingrun, and Huang Shengguang, 1997, The sedimentary carbonate-hosted giant Bayan Obo REE-Fe-Nb ore deposit of Inner Mongolia, China: A cornerstone example for giant polymetallic ore deposits of hydrothermal origin: U.S. Geological Survey Bulletin 2143. Cross, K.C., Daly S.J., and Flint, R.B., 1993, Olympic Dam deposit, in Drexel, J.F., Preiss, W.V., and Parker, A.J., eds., The geology of South Australia: South Australia Department of Mines and Energy Bulletin 54, v. 1, p. 132-138. Crowley, J.K. , 1984, Near infrared reflectance of zunyite: Implications for field mapping and remote-sensing detection of hydrothermally altered high alumina rocks: Economic Geology, v. 79, p. 553–557. ——1996, Mg- and K- bearing borates and associated evaporites at Eagle Borax Spring, Death Valley, Califonia: A spectroscopic exploration: Economic Geology, v. 91, p. 622–635. ——1999, Association of magnesium-rich clay minerals and borate deposits: A potential remote sensing guide for borate mineral exploration?: International Conference on Applied Geologic Remote Sensing, 13th, Vancouver, B.C., March 1 – 3, 1999, ERIM International Inc., Proceedings, p. I-255–262. Daliran, F., 2002, Kiruna-type iron oxide-apatite ores and "apatitites" of the Bafq district, Iran, with an emphasis on the REE geochemistry of their apatites, in Porter, T.M., ed., Hydrothermal iron oxide copper-gold and related deposits: A global perspective: PGC Publishing, Adelaide, v. 2, p. 303-320. Denniss A.M., Colman, T. B., Cooper, D.C., Hatton, W.A., and Shaw, M.H., 1999, The combined use of PIMA and VULCAN technology for mineral deposit evaluation at Parys Mountain mine, Anglesey, UK: International Conference on Applied Geologic Remote Sensing, 13th, Vancouver, B.C., March 1 – 3, 1999, ERIM International Inc., Proceedings, p. I-25–32. Frietsch, R., Rapunen, H., and Vokes, F.M., 1979, The ore deposits in Finland, Norway and Sweden - a review: Economic Geology, v. 74, p. 975-1001. Gandhi, S.S., 2003, An overview of the Fe oxide-Cu-Au deposits and related deposit types: CIM Montreal 2003 Mining Industry Conference and Exhibition, Canadian Institute of Mining, Technical Paper, CD-ROM. Gandhi, S.S. (compiler), 2004c, World distribution of iron oxide +/- Cu +/- Au +/- U deposits: World Minerals Geoscience Database Project, Geological Survey of Canada, unpublished database. Gandhi, S.S., and Bell, R.T., 1993, Metallogenic concepts to aid exploration for the giant Olympic Dam-type deposits and their derivatives, in Maurice, Y.T., ed., Proceedings of the 8th quadrennial international association on the genesis of ore deposits symposium: E. Schweizerbart'sche Verlagsbuchhandlung, Stuttgart, Germany, p. 787-802. 68
________________________________________________________________ Gow, P.A., Wall, V.J., Oliver, N.H.S., and Valenta, R.K., 1994, Proterozoic iron oxide (Cu-U-Au-REE) deposits: Further evidence of hydrothermal origins: Geology, v. 22, p. 633-636. Grove, C.I. , Hook, S. , and Paylor, E.D. , 1992, Laboratory reflectance spectra of 160 minerals, 0.4 to 2.5 micrometers: Pilot Land Data System, Jet Propulsion Laboratory, Pasadena, California, JPL Publication 92-2. Groves, D.I., and Vielreicher, N.M., 2001, The Phalabowra (Palabora) carbonatitehosted magnetite-copper sulfide deposit, South Africa: An end-member of the iron-oxide copper-gold-rare earth element deposit group?: Mineralium Deposita, v. 36, p 189-194. Hauff, P.L., 1993, SPECMIN Mineral Identification System and Spectral Library, v. 1 and 2.: Arvada, Colorado, SpectralInternational, Inc., 600 p. Haynes, D.W., 2000, Iron oxide copper (-gold) deposits: Their position in the ore deposit spectrum and modes of origin, in Porter, T.M., ed., Hydrothermal iron oxide copper-gold and related deposits: A global perspective: PGC Publishing, Adelaide, v. 1, p. 71-90. Hitzman, M.C., 2000, Iron oxide-Cu-Au deposits: What, where, when, and why?, in Porter, T.M., ed., Hydrothermal iron oxide copper-gold and related deposits: A global perspective: PGC Publishing, Adelaide, v. 1, p. 9-25. Hitzman, M.W., Oreskes, N., and Einaudi, M.T., 1992, Geological characteristics and tectonic setting of Proterozoic iron oxide (Cu-U-Au-LREE) deposits: Precambrian Research, v. 58, p. 241-287. Hunt, G.R. and Ashley, R.P., 1979, Spectra of altered rocks in the visible and near infrared: Economic Geology, v. 74, p. 1613–1629. Hunt, G.R., and Salisbury, J.W., 1970, Visible and near-infrared spectra of minerals and rocks: I. Silicate minerals: Modern Geology, v. 1, p. 23–30. ——1971, Visible and near-infrared spectra of minerals and rocks: II. Carbonates: Modern Geology, v. 2, p. 283–300. Hunt, G.R., Salisbury, J.W., and Lenhoff, C.J., 1971a, Visible and near-infrared spectra of minerals and rocks: III. Oxides and hydroxides: Modern Geology, v. 2, p. 195–205. ——1971b, Visible and near-infrared spectra of minerals and rocks: IV. Sulphides and sulphates: Modern Geology, v. 3, p. 1–14. ——1971c, Visible and near-infrared spectra of minerals and rocks: VI. Additional silicates: Modern Geology, v. 4, p. 85–106. Huston, D.L., Kamprad, J., and Brauhart, C., 1999, Definition of high-temperature alteration zones with PIMA: An example from the Panorama VHMS district, central Pilbara Craton: Australian Geological Survey Organisation Research Newsletter, v. 30, p. 10–12. Injoque, J.E., 2002, Fe oxide-Cu-Au deposits in Peru, an integrated view, in Porter, T.M., ed., Hydrothermal iron oxide copper-gold and related deposits: A global perspective: PGC Publishing, Adelaide, v. 2, p. 97-113. Kodama, H., 1985, Infrared spectra of minerals; reference guide to identification and characterization of minerals for the study of soils: Research Branch Agriculture Canada, Technical Bulletin1985-1E, 197 p. Kruse, F.A. and Hauff, P. L., 1991, Identification of illite polytype zoning in disseminated gold deposits using reflectance spectroscopy and X-ray diffraction — potential for mapping with imaging spectrometers: IEEE Transactions on Geoscience and Remote Sensing, v. 29, p. 1101–1104. 69
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