BIBLIOGRAPHY - Spectral Properties

Although this is a comprehensive listing, it is not exhaustive. The reader is referred further to:

 

Abrams, M.J., Ashley, R.P., Rowan, L.C., Goetz, A.F.H. and Kahle, A.B., 1977. Mapping of hydrothermal alteration in the Cuprite mining district, Nevada, using aircraft scanner images for the spectral region 0.46 to 2.36mm. Geology, 5: 713-718.

Abrams, M.J., Ashley, R.P., Rowan, L.C., Goetz, A.F.H. and Kahle, A.B., 1977. Use of imaging in the 0.46-2.36mm spectral region for alteration mapping the Cuprite mining district, Nevada. USGS Open-File Report, 77-585.

Abrams, M.J., Brown, D., Lepley, L., and Sadowski, R., 1983. Remote sensing for copper exploration in southern Arizona. Economic Geology, 78: 591-604.

Abrams, M.J. Sadowski, R., and Prost, G.L., 1985. Helvetia Arizona Porphyry Copper Test Site Report, in the. Joint NASA/GEOSAT Test Case Project, Final Report, Part 2, Section 6, 5-1 to 5-78. American Association of Petroleum Geologists, Tulsa, Oklahoma.

Adams, J.B., 1967. Lunar surface composition and particle size: implications from laboratory and lunar spectral reflectance data. Journal of Geophysical Research, 72: 5717-5720.

Adams, J.B., 1974. Visible and near-infrared diffuse reflectance spectra of pyroxenes as applied to remote sensing of solid state objects in the Solar System. Journal of Geophysical Research, 79 (32): 4829-4836.

Adams, J.B., 1975. Interpretation of visible and near-infrared diffuse reflectance spectra of pyroxenes and other rock forming minerals, C. Karr (ed.), in Infrared and Raman Spectroscopy of Lunar and Terrestrial Materials 91-116. Academic Press, New York.

Adams, J.B., and Adams, J.D., 1984. Geologic mapping using Landsat MSS and TM images: Removing vegetation by modeling spectral mixtures. Proceedings of the International Symposium on Remote Sensing of Environment, Third Thematic Conference, Remote Sensing for Exploration Geology. Colorado Springs, Colorado, April 16-19, 1984.

Adams, J.B., Evans, D.L., Farr, T.G., Smith, M., Staley, J.T., Palmer, Borns, F., Curtiss, B., Taylor-George, S., Rouch, T.L., and Bjorkman, E., 1982. Interpretation of weathered surfaces in arid regions using Landsat mutispectral images. Remote Sensing of Arid and Semi-arid Lands, Conference Proceedings Vol. 11, Environmental Research Institute of Michigan.

Adams, J.B., and Filice, A.L., 1967. Spectral reflectance of 0.4 to 2.0mm of silicate rock powders, Journal of Geophysical Research, 72: 5705-5717.

Adams, J.B., McCord, T.B., 1972. Electronic spectra of pyroxenes and interpretation of telescopic spectral reflectivity curves of the moon. Geochimica et Cosmochimica Acta Proceedings of the Third Lunar Science Conference (Supplement 3) 3: 021-3034.

Adams, J.B. and Smith, M.O., 1986. Spectral mixing modeling: A new analysis of rock and soil types at the Viking Lander I site. Journal of Geophysical Research, 91: 8098-8112.

Adhav, R.S., and Murphy, A.T., 1963. A portable spectroradiometer. Journal of Scientific Instruments, 40: 497.

Ahern, F.J., Brown, R.J., Thomson, K.P.B., and Staenz, K., 1981. The CCRS visible-infrared laboratory: significant results from three years¹ operation. Proceedings of the First International Colloquium on Spectral Signatures in Remote Sensing, Avignon, France (Paris: INRA): 25-40.

Aines, R.D., and Rossman, G.R., 1984. Water in minerals? A peak in the infrared: Journal of Geophysical Research, 89: 4059-4071.

Anderson. J.A., and Wickersheim, K.A, 1964. Near infrared characterization of water and hydroxyl groups on silica surfaces. Surface Science, 2: 252-260.

Anderson, P.W., 1963. Theory of magnetic exchange interactions: Exchange in insulators and semiconductors, in F. Seitz and D. Turnbull (eds.) Solid State Physics, Advances in Research and Applications, 99-214. Academic Press, New York.

Ashley, R.P., 1974. Goldfield mining district, in Guidebook to the Geology of Four Tertiary Volcanic Centers in Central Nevada. Nevada Bureau of Mines and Geology Report 19: 49-66.

Balhausen, C.J., 1979. Molecular Electronic Structures of Transition Metal Complexes, McGraw-Hill, New York, 207pp.

Barber, J. And Horler, D.N.H., 1981. Fundamental relationships between plant spectra and geobotanical stress phenomena. Final Report on NASA Contract NAS 5-25738, Department of Pure and Applied Biology, Imperial College, University of London.

Bauer, M.E., Daughtry, C.S.T., Biehl, L.L., Kanemasu, E.T., and Hall, F.G., 1986. Field spectroscopy of agricultural crops. I.E.E.E. Transactions on Geoscience and Electronics, 24: 65-75.

Baur, W.H., 1964, On the crystal chemistry of salt. Hydrates II, A neutron diffraction study of MgSO4.4H2O. Acta Crystallographica, 17: 839-869.

Berry, J.K., Heimes, F.J., and Smith, J.A., 1978. A portable instrument for simultaneous recording of scene composition and spectral reflectance. Optical Engineering, 17: 143-146.

Birth, G.S., and McVey, G.R., 1968. Measuring the colour of growing turf with a reflectance spectrophotometer. Agronomy Journal, 60: 640-643.

Birth, G.S., and Zachariah, C.L., 1971. A spectrophotometer for biological applications. LARS Information Note 120171, Purdue University, Indiana.

Bloomstein, E.I., 1984. Ammonium alteration is a geochemical link in gold deposits of Carlin-Madras Belt. Association of Exploration Geochemists, Exploration of Ore Deposits of the North American Cordillera, Symposium, Vol. 27.

Boehnel, H.J. Fischer, W., and Knoll, G., 1978. Spectral field measurements for the determination of reflectance characteristics of vegetated surfaces: Proceedings of an International Symposium on Remote Sensing for Observation and Inventory of Earth Resources and the Endangered Environment, Feiburg, F.R. Germany, 2-8 July 1978. Edited by G. Hildebrandt and H. J. Boehnel (ISP Commission VII and IUFRO Subject Group 6.05); International Archives of Photogrammetry 22-7: 579-589.

Boehnel, H.J., Fischer, W., and Knoll, G., 1980. The dependence of the spectral signature of sugar beets on the observation level and the reflection geometry. Proceedings of the 14th Conference of the International Society for Photogrammetry: Hamburg, F.R. Germany, 13-25 July, 1980 102-11. Bonn: Photogrammetrisches Institut, Universitat Bonn.

Buckingham, W.F. and Sommer, S.E., 1983. Mineralogical characterization of rock surfaces formed by hydrothermal weathering: Application to remote sensing. Economic Geology, 78: 664-674.

Burns, R.G., 1970. Mineral applications of crystal field theory in (eds.) H.B. Harland and others, Cambridge Earth Sciences Series. Cambridge University Press, England.

Card, D.H., Peterson, D.L. and Matson, P.A., 1988. Prediction of leaf chemistry by the use of visible and near-infrared reflectance spectroscopy. Remote Sensing of Environment, 26: 123-147.

Cariati, F., Erre, L., Micera, G., Piu, P., and Gessa, C., 1981. Water molecules and hydroxyl groups in montmorillonite as studied by near infrared spectroscopy. Clays and Clay Minerals, 29 (2): 157-159.

Cariati, F., Erre, L., Micera, G., Piu, P., and Gessa, C., 1983. Effects of layer charge on the near-infrared spectra of water molecules in smectites and vermiculites. Clays and Clay Minerals 31 (6): 447-449.

Carrere, V., 1989. Mapping alteration in the Goldfield mining district, Nevada, with the Airborne Remote Sensing for Exploration Geology Calgary, Alberta, Canada, October 2-65, 365-372, ERIM, Ann Arbor, MI.

Clark, R.N., 1983. Spectral properties of mixtures of montmorillonite and dark carbon grains: Implications for remote sensing mineral containing chemically and physically adsorbed water. Journal of Geophysical Research, 88 (B12): 10635-10644.

Clark, R.N. and Roush, T.L., 1984. Reflectance spectroscopy: Quantitative analysis techniques for remote sensing. Journal of Geophysical Research, 89: 6329-6340.

Clark, R.N., King, Trude, Klejwa, M. Swayze, G.A., and Vergo, N., 1990. High spectral resolution reflectance spectroscopy of minerals: Journal Geophysical Research, 95 (B-8): 12653-12680.

Clark, R.N., Swayze, G.A., Gallagher, A., Gorelick, N., and Kruse, F.A., 1991. Mapping with imaging spectrometer data using the complete band shape least squares algorithm simultaneously for two multiple spectral features from multiple minerals, in Proceedings of the 3rd Airborne Visible/Infrared Imaging Spectrometer (AVIRIS) Workshop, 20-21 May 1991, Jet Propulsion Laboratory, Pasadena, CA.

Clark, S.P., 1957. Adsorption spectra of some silicates in the visible and near infrared. American Mineralogist, 42: 732.

Cloutis, E.A, 198., Spectral reflectance properties of hydrocarbons: Remote sensing implications. Science, 245: 165-168.

Cloutis, E.A, 1989. Diffuse spectral reflectance properties of tar sands (0.35-2.6 microns): Implications for quantitative assessment of phase characteristics. Seventh Thematic Conference on Remote Sensing for Exploration Geology, Calgary, Alberta, Canada, October 2-6, 1989: 267-281.

Cloutis, E.A, 1990. Identification, detection and characterization of individual tar sand phases using diffuse reflectance spectroscopy (0.35-2.6 microns). AOSTRA (Alberta Oil Sands Technology and Research Authority). Journal of Research, 6: 17-27.

Cloutis, E.A, Hauff, P. L., and Moslow, T., 1992. Spectral reflectance properties of hydrocarbon-bearing rocks and sediments: implications for laboratory and field characterization of material properties. American Association of Petroleum Geologists Annual Meeting, June 20-23, 1992, Calgary, Alberta.

Coyne, L.M., McKeever, S.W.S. and Blake, D.F., 1990, Spectroscopic Characterization of Minerals and Their Surfaces. American Chemical Society Symposium Series 415. American Chemical Society, Washington, D.C.

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, 79: 553-557.

Crowley, J.K., 1986. Visible and near infrared spectra of carbonate rocks: reflectance variations related to petrographic texture and impurities: Journal of Geophysical Research, 91: 5001-5-12.

Crowley, J.K., 1991. Geochemical Study of Playa Efflorescent Salt Crusts and Associated Brine Chemical Data. PhD dissertation, University of Maryland, College Park, MD, 168pp.

Crowley, J.K., 1991. Spectral reflectance analysis of playa evaporate minerals - potential for use in playa geochemical studies and mineral resource exploration, in G.L. Raines, R.E. Lisle, R.W. Schafer and W.H. Wilkinson (eds.), Geology and Ore Deposits of the Great Basin. Symposium Proceedings: 255-262. Geological Society of Nevada, Reno, Nevada.

Crowley, J.K., 1991. Visible and near-infrared (0.4-2.5 microns) reflectance spectra of playa evaporite minerals. Journal of Geophysical Research, 96 (B10): 126,231-16,240.

Crowley, J.K., and Vergo, N., 1988. Visible land near infrared (0.4-2.5microns) reflectance spectra of selected mixed-layer clays and related minerals. Proceedings, 66th Thematic Conference on Remote Sensing for Exploration Geology, Houston, Texas, May 16-19, 1988: 597-606.

Curtiss, B., and Maecher, A.G., 1991. Changes in Forest Canopy reflectance associated with chronic exposure to high concentrations of soil trace metals. Proceedings of the 8th Thematic Conference on Remote Sensing for Exploration Geology, Denver, Colorado, April 29-May 1, 1991: 337-347.

Davies, J., Dick, R., and Cumming, C., 1981. A field reflectance spectrometer. Seventh Canadian Symposium on Remote Sensing, Winnipeg, 1991, Proceedings: 416-422.

Daubner, L., Davies, J. And Goetz, A., 1981. Hand-held ratioing radiometer for remote radiance measurements. Seventh Canadian Symposium Remote Sensing, Winnipeg, 1981, Proceedings: 423-428.

Ehmann, W.J., and Vergo, N., 1986. Spectral discrimination of zeolites and diotahedral clays in the near infrared. Proceedings of the 5th Thematic Conference on Remote Sensing for Exploration Geology, Reno, Nevada, September 29-October 2, 1986: 417-425.

Elvidge, C.D., 1987. Reflectance characteristics of dry plant materials: Proceedings, 21st International Symposium on Remote Sensing of Environment, Ann Arbor, Michigan, October 26-30: 1987.

Elvidge, C.D., 1990. Visible and infrared reflectance characteristics of dry plant materials. International Journal Remote Sensing, 12: xx-yy.

Erd, R.C., White, D.E., Fahey, J.J., and Lee, D.L., 1964, Buddingtonite, an ammonium fledspar with zeolitic water. The American Mineralogist, 49 (7-8): 831-850.

Evans, B.W. and Guggenheim, S., Talc, pyrophyllite and related minerals. in S.W. Bailey (ed). Hydrous Phyllosilicates (exclusive of micas), Reviews in Mineralogy, Vol 19, Ch 8, 225-294. Mineralogical Society of America, Washington, D.C.

Farmer, V.C. (ed.), 1974. The Infrared Spectra of Minerals. Mineralogical Society, London, Monograph No. 4. Darking, Surrey, Adlard and Son, Ltd., 539 pp.

Felzer, B., Hauff, P.L., and Goetz, A.F.H., 1991. Quantitative reflectance spectroscopy using NH4 absorption bands for buddingtonite and associated minerals at Cuprite, Nevada. Proceedings, 8th Thematic Conference on Geologic Remote Sensing, Denver, Colorado, April 29-May 2, 1991.

Gaffey, S.J., 1984, Spectral Reflectance of Carbonate Minerals and Rocks in the Visible and Near Infrared (0.35 to 2.55 microns) and its Application to Carbonate Petrology. Unpublished PhD dissertation, University of Hawaii, 236pp.

Gaffey, S.J., 1985. Reflectance spectroscopy in the visible and near-infrared (0.35 to 2.55 microns). Applications in carbonate petrology. Geology, 13: 270-273.

Gaffey, S.J., 1986, Spectral reflectance of carbonate minerals in the visible and near-infrared (0.35 to 2.55 microns): Calcite, aragonite, and dolomite. American Mineralogist, 71: 151-162.

Gaffey, S.J., 1987. Spectral reflectance of carbonate minerals in the visible and near-infrared (0.35 to 2.55 microns): Anhydrous carbonate minerals: Journal of Geophysical Research, 92 (B1): 1428-1440.

Gladwell, D.R., Lett, R.E. and Lawrence, P., 1983. Application of reflectance spectrometry to mineral exploration using portable radiometers. Economic Geology, 78: 699-710.

Goetting, H.R. and Lyon, R.J.P., 1986. A knowledge based software environment for the analysis of spectroradiometer data. Proceedings 5th Thematic Conference on Remote Sensing for Exploration Geology, Reno, Nevada, Sept. 29-Oct. 2, 1986. (Also: Proceedings: IEEE - IGARSS ¹86, Sept. 2-8, Zurich, 235-238.)

Goetz, A.H.F. and Boardman, J.W., 1989. Quantitative determination of imaging spectrometer specifications based on spectral mixing models. Proceedings ISARSS ¹89, Vancouver, Canada, July 10-14, 1989,a: 1036-1039.

Goetz, A.H.F. and Rowan, L.C., 1981. Geologic remote sensing. Science, 211: 781-791.

Goetz, A.H.F. and Srivastava, V., 1985. Mineralogical mapping in the Cuprite mining district, Nevada. in Vane, G. And Goetz, A.F.H. (eds), Proceedings, Airborne Imaging Spectrometer Data Analysis Workshop, Jet Propulsion Laboratory Publication 85-41: 22-31.

Goetz, A.H.F., Rowan L.C. and Kingston, M.J., 1982. Mineral identification from orbit: Initial results from the shuttle multispectral infrared radiometer. Science, 218 1020-1024.

Green A., and Craig, 1985. Hull Quotient Subtraction, CSIRO, Australia.

Green, A. and Craig, M.D., 1985. Analysis of aircraft spectrometer data with logarithmic residuals. Proceedings of the Airborne Imaging Spectrometer Data Analysis Workshop, Jet Propulsion Laboratory Publication 85-41: Jet Propulsion Laboratory, Pasadena, California, April 8-10, 1985: 111-119.

Grove, C.I, Hook, S. And Paylor, E.D., 1992. Laboratory Reflectance Spectra of 160 Minerals, 0.4 to 2.5 micrometers. JPL Publication 92-2, Pilot Land Data System. Jet Propulsion Laboratory, Pasadena, California.

Hapke, B., 1981. Bidirectional reflectance spectroscopy. 1. Theory. Journal of Geophysical Research, 86: 3039-3054.

Hapke, B., 1981. Bidirectional reflectance spectroscopy. 2. Experiments and Observations. Journal of Geophysical Research, 86: 3055-3060.

Hauff, P.L., Kruse, F.A., Madrid, R., 1991. Defining gold ore-zones using illite polytypes, in Geology and Ore Deposits of the Great Basin Symposium, Proceedings: 239-247.

Hayashi, H., and Oinuma, K., 1965. Relationships between infrared absorption spectra in the region of 450-900 cm-1 and chemical composition of chlorite: American Mineralogist, 50: 476-483.

Hayashi, H., and Oinuma, K., 1967. SI-O absorption band near 1000 cm-1 and OH absorption bands of chlorite. American Mineralogist, 51: 1206-1210.

Holden, P.N. and Gaffy, M.J., 1989. Observation of spectral variation indicative of kerogen type and catagenic biomarkers in reflectance spectra of source rock. Conference on Remote Sensing for Exploration Geology, ERIM, Calgary, Alberta, Canada, October 2-6, 1991: 14.

Holden, P.N., Suindaraman, P. And Gaffy, M.J., 1991. Estimation of porphyrin concentration in the keogen fraction of shales using high resolution reflectance spectroscopy. Geochimica Cosmochimica Acta, 55: 3893-3899.

Hook, S.J. and Rast, M., 1990. Mineralogic mapping using Airborne Visible Infrared Imaging Spectrometer (AVIRIS), Shortware Infrared (SWIR) data acquired over Cuprite, Nevada: in Green, R.O. (ed), Proceedings of the Second Airborne Visible/Infrared Imaging Spectrometer (AVIRIS) Workshop, Jet Propulsion Laboratory Publication 90-54: 199-207.

Hugenin, R.L. and Jones, J.L., 1986. Intelligent information extraction from reflectance spectra: Journal of Geophysical Research, 91 (B9): 9585-9598.

Hunt, G.R. , 1997. Spectral signatures of particulate minerals in the visible and near-infrared. Geophysics, 42 (3): 501-513.

Hunt, G.R., 1979. Near-infrared (1.3-2.4 mm) spectra of alteration minerals - potential for use in remote sensing. Geophysics, 44: 1974-1986.

Hunt, G.R., 1980, Electromagnetic Radiation: The communication link in Remote Sensing. in B.S. Siegal and A.R. Gillespie (eds). Remote Sensing in Geology, Chapter 2: 5-45, , John Wiley & Sons, New York.

Hunt, G.R., 1982. Spectroscopic properties of rocks and minerals, in Robert S. Carmichael (ed); Handbook of Physical Properties of Rocks, 1. CRC Press.

Hunt, G.R. and Ashley, R.P., 1979. Spectra of altered rocks in the visible and near-infrared. Economic Geology, 74: 1613-1629.

Hunt, G.R. and Salisbury, J.W., 1970. Visible and near-infrared spectra of minerals and rocks: 1. Silicate Minerals. Modern Geology, 1: 283-300.

Hunt, G.R. and Salisbury, J.W., 1971. Visible and near-infrared spectra of minerals and rock: II. Carbonates. Modern Geology, 2: 23-30.

Hunt, G.R. and Salisbury, J.W., 1976. Visible and near-infrared spectra of minerals and rocks: XI. Sedimentary Rocks: Modern Geology, 5: 211-217.

Hunt, G.R. and Salisbury, J.W., 1976. Visible and near-infrared spectra of minerals and rocks: XII. Metamorphic Rocks. Modern Geology, 5: 219-228.

Hunt, G.R. and Salisbury, J.W. and Lenhof, C.J., 1971. Visible and near-infrared spectra of minerals and rocks: III. Oxides and Hydroxides. Modern Geology, 2: 195-205.

Hunt, G.R. and Salisbury, J.W. and Lenhof, C.J., 1971. Visible and near-infrared spectra of minerals and rocks: IV. Sulphides and Sulphates. Modern Geology, 3: 1-14.

Hunt, G.R. and Salisbury, J.W. and Lenhof, C.J., 1972. Visible and near-infrared spectra of minerals and rocks: V. Halides, Phosphates, Arsenates, Vanadates and Borates. Modern Geology, 3: 121-132.

Hunt, G.R. and Salisbury, J.W. and Lenhof, C.J., 1973. Visible land near-infrared spectra of minerals and rocks: VI. Additional Silicates: Modern Geology, 4: 85-106.

Hunt, G.R. and Salisbury, J.W. and Lenhof, C.J., 1973. Visible and near-infrared spectra of minerals and rocks: VII. Acidic Igneous Rocks: Modern Geology, 4: 217-224.

Hunt, G.R. and Salisbury, J.W. and Lenhof, C.J., 1973. Visible and near-infrared spectra of minerals and rocks: VIII. Intermediate Igneous Rocks: Modern Geology, 4: 237-244.

Hunt, G.R. and Salisbury, J.W. and Lenhof, C.J., 1974. Visible and near-infrared spectra of minerals and rocks: IX. Basic and Ultrabasic Igneous Rocks: Modern Geology, 5: 15-22.

Hunt, G.R. and Salisbury, J.W. and Lenhof, C.J., 1974. Mid-infrared spectral behavior of igneous rocks. Air Force Cambridge Research Laboratories Publication AFCRL-TR-74-0625. (See also AFCRL-TR-75-0356 and AFCRL-TR-76-0003 by the same authors).

Hunt, G.R. and Salisbury, J.W. and Lenhof, C.J., 1975. Visible and near-infrared spectra of minerals and rocks: X. Stony Meteorites. Modern Geology, 5: 115-128.

King, T.V.V. and Clark, R., 1989. Spectral characteristics of chlorites and MG-serpentines using high resolution reflectance spectroscopy, Journal Geophysical Research, 94: 13,997-14,008.

King, T.V.V. and Ridley, W.I., 1987. Relation of the spectroscopic reflectance of olivine to mineral chemistry and some remote sensing implications. Journal of Geophysical Research, 92 (B11):. 11457-11469.

Krohn, M.D., 1986. Spectral properties (0.4-2.5 mm) of selected rocks associated with disseminated gold and silver deposits in Nevada and Idaho. Journal of Geophysical Research, 91 (B1): 767-783.

Krohn, M.D. and Altaner, S.P., 1987. Near infrared detection of ammonium minerals. Geophysics, 52: 924-930.

Kruse, F.A., Calvin, W.M. and Seznec, O., 1988. Automated extraction of absorption features from Airborne Visible/Infrared Imaging Spectrometer (AVIRIS) and Geophysical Environmental Research Imaging Spectrometer (GERIS) data. Proceedings of the Airborne Visible/Infrared Imaging Spectrometer (AVIRIS) Performance Evaluation Workshop, Jet Propulsion Laboratory Publication 88-38: 62-75.

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 spectrometer. : IEEE Transactions on Geoscience and Remote Sensing, 29: 1010-1104.

Kruse, F.A., Selznec, O. And Krotkov, P.M., 1990. An expert system for geologic mapping with image spectrometers. in Proceedings: Applications of Artificial Intelligence VII, Society of Photo-Optical Instrumentation Engineers (SPIE), 1293: 904-917.

Kruse, F.A., Kierein-Young, K.S. and Boardman, J.W., 1990. Mineral mapping at Cuprite, Nevada with a 63-channel imaging spectrometer. Photogrammetric Engineering and Remote Sensing, 56 (1): 83-92.

Lang, H.R., Bartholomew, M.J., Grover, C.I. and Paylor, E.D., 1990. Spectral reflectance characterization (0.4-2.5 and 8.0 to 12.0 mm) of Phanerozoic strata, Wind River Basin and Southern Bighorn Basin areas, Wyoming. Journal of Sedimentary Petrology, 60, (4): 504-524.

Lang, H.R., Adams, S.L. Conel, J.E., McGuffie, B.A., Paylor, E.D. and Walker, R.E., 1987. Multispectral remote sensing as stratigraphic and structural tool, Wind River Basin and Big Horn Basin areas, Wyoming, AAPG Bulletin 71: 4.

Lee, K. and Raines, G.L., 1984. Reflectance spectra of some alteration minerals--a chart compiled from published data) 4mm-2.5mm. U. S. Geological Survey Open File Report 86-96, 6p, 1 chart.

Lindberg, J.D. and Snyder, D.G., 1972. Diffuse reflectance spectra of several clay minerals: American Mineralogist, 57: 485-493.

Lister, R., Ali, K., Buda, R., Horsfall, G.L., and Butine, W., 1987. GOLD: An expert system for mineral identification from reflectance spectra. Australian Joint Artificial Intelligence Conference, Sydney: 29-43.

Lyon, R.J.P., 1964. Evaluation of infrared spectrophotometry for compositional analysis of lunar and planetary soils. Part II: Rough and powdered surfaces. NASA-CF-100, Washington, D.C., 262p.

Lyon, R.J.P., 1990. Effects of weathering, desert varnish, etc. on spectral signatures of mafic, ultramafic and felsic rocks, Lenora, West Australia. Remote Sensing Science for the Nineties - ICARSS¹90, Proceedings, III, Baltimore, MD, May 23: 1719-1722.

Lyon, R.J.P. and Zhu Hua, 1989. Spectral band shapes as criteria for mineral discrimination in field spectroscopy. Proceedings, Seventh Thematic Remote Sensing for Exploration Geology, Calgary, Alberta, Canada, Oct 2-6: 411-423.

McLeod, R.L., Gabell, A.R., Green, A.A. and Bardavsky, V., 1987. Chlorite infrared spectral data as proximity indicators of volcanic massive sulphide mineralisation, in Pacific Rim Congress, 1987, Australasian Institute of Mining and Metallurgy, Parkville, Victoria, Australia: 321-324.

Milton, E.J., 1987. Principles of field spectroscopy. International Journal of Remote Sensing, 8 (12): 1807-1827.

Mustard, J.F., 1992. Chemical composition of actinolite from reflectance spectra. American Mineralogist, 77: 345-358.

Mustard, J.F. and Pieters, C.M., 1989. Photometric phase functions of common geologic minerals and applications to quantitative analysis of mineral mixture reflectance spectra. Journal of Geophysical Research, 94: 13.619-13.634.

Newman, A.C.D., (ed.), 1987, Chemistry of Clays and Clay Minerals, Mineralogical Society, Monograph No. 6. Longman Scientific and Technical, Essex, U.K., 480p.

Noble, D.C., Vogel, T.A., Weiss, S.I., Erwin, J.W., McKee, E.H., and Younker, L.W., 1984. Stratigraphic relations and source areas of ash flow sheets of the Black Mountain and Stonewall Mountain Volcanic Centers, Nevada. Journal of Geophysical Research 89 (B10): 8593-8602.

Peters, D.C., 1983. Using airborne multispectral scanner to map alteration related to roll-front uranium migration. Economic Geology, 78: 641-653.

Pieters, C.M., 1986. Composition of the lunar crust from near-infrared spectroscopy: Journal of Geophysical Research, 24: 557-578.

Pinet, P. And Chevrel, S., 1990. Spectral identification of geological units on the surface of Mars related to the presence of silicates from earth-based near-infrared telescope Charge-Coupled Device Imaging. Journal of Geophysical Research, 95 (B9) 14435-14446.

Pinet, P. And Chevrel, S., 1991. New infrared imaging spectroscopy: Learning from planetary geology, in J.J. Hunt (ed), Physical measurements and Signatures in Remote Sensing, 5th International Colloquim, 21 volumes, Courchevel, France, 14-18 Jan., 1991, ESA SP-319: 219-222.

Podwysocki, M.H., Segal, D.B., and Abrams, M.J., 1983. Use of multispectral scanner images for assessment of hydrothermal alteration in the Marysvale, Utah, mining area. Economic Geology, 78: 675-687.

Post, J. L. and Noble, P. N., 1993. The near-infrared combination band frequencies of dioctahedral smectites, micas, and illites. Clays and Clay Minerals, 41 (6):.

Raines, G.L., McGee, L.C. and Sutley, S.J., 1985. Near infrared spectra of West Shasta gossans compared with true and false gossans from Australia and Saudi Arabia. Economic Geology, 80: 2230-2239.

Roberts, D.A., Yamaguchi, Y., and Lyon, R.J.P., 1985. Calibration of airborne imaging spectrometer data to percent reflectance using field spectral measurements, Proceedings 19th International Symposium on Remote sensing of the Environment, Ann Arbor, Michigan, Oct. 21-25, 1985, 10 pp.

Rowan, L.C. and Kahle, A.B., 1982. Evaluation of 0.46 to 2.36 mm multispectral scanner images of the East Tintic mining district, Utah, for mapping hydrothermally altered rocks. Economic Geology, 77: 441-452.

Rowan, L.C., Kingston, M.J., and Crowley, J.K., 1986. Spectral reflectance of carbonates and related alkalic igneous rocks: Selected samples from four North American localities. Economic Geology, 81: 857-871.

Rowan, L.C. Salisbury, J.W., Kingston, M.J., Vergo, N. And Bostick, N.H., 1991. Evaluation of visible and near-infrared and thermal infrared reflectance spectra for studying thermal alteration of Pierre Shale, Wolcott, Colorado. Journal of Geophysical Research.

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