Кронберг П.
Дистанционное изучение Земли: Основы и методы дистанционных исследований в геологии

Цитируемая литература. C-F

41. Canney F. C. (1975): Development and application of remote-sensing techniques in the search for deposits of copper and other metals in heavily vegetated areas. – Status Report June 1, 1975, USGS Project Report (IR) NC, 48: p. 42.
42. Canney F. C, Cannon H. L., Cathrall J. B. & Robinson K. (1979): Autumn colors, insects, plant disease and prospecting. – Econ. Geol., 74: 1673-1676.
43. Carlle Ch. (1982): Satellite mapping-geometric correction of remote sensing images – Inst, for Landmaling of Fotogrammetrie, Danmarks Tkn. Hojskole, Medd., 12, 128 pp.
44. Carta Geologica do Brasil ao milionesimo. Folha Cuiaba (1979). – Min. Minas e Energia, DNPM, Rio de Janeiro.
45. Carter W.U. (1982): Remote sensing for exploration of precambrian mineral deposits. – In: The Development of Precambrian Mineral Deposits. – Natural Resources and Energy Division, U. N. Dept. of Techn. Coop, for Development. New York (Pergamon), 365-381.
46. Chafii A. (1980): Die Geologie des westlichen Anteils des Brockenmassivs. – Clausth. Geol. Diss., 2; 71 S.
47. Chan S. H, & Collins W. (1983). Confirmation of the airborne biogeophysical mineral exploration technique using laboratory methods. – Econ. Geol., 78 (4): 723-736.
48. CNES (1982): SPOT-satellite-based remote sensing system. – Toulouse (Centre National d'Etudes Spatiales), 16 pp.
49. CNES (1983): SPOT-um Systeme spatial de teledetection de la Terre-Toulouse (Centre National d'Etudes Spatiales), 4 p.
50. Collins W., Chang S. H., Raines G.. Canney F. & Ashley R. (1983): Airborne biogeophysical mapping of hidden mineral deposits – Econ. Geol., 78: 737-749.
51. Condit H.R. (1970): The spectral reflectance of American soils. – Photogr. Eng., 36 (9): 955-966.
52. Condit H.R. & Grum F. (1964): Spectral energy distribution of daylight. – J. Opt. Soc. Amer., 54:937-944.
53. Conel J.E. & Southhard G. (1980): Application of remote sensing methods in uranium exploration, Copper Mountain, Wyoming, USA. – 26e Congr. Geol. Intern., Paris, Abstracts, 2, Section 11:817.
54. Conel J.E., Abrams M.J. & Goetz A.F.H. (1978): Study of alteration associated with uranium ocurrences in sandstone and its detection by remote sensing methods. – JPL – Publ., 1: 66-78.
55. Cordsen E. (1981): Zur spektralen und thermalen Erkundung von Boden-Dipl. – Arbeit, Inst. f. Pflanzenernahrung und Bodenkunde, Univ. Kiel.
56. Darch J.P. & Barber J. (1983): Multitemporal remote sensing of a geobotanical anomaly. – Econ. Geol, 78 (4): 770-782.
57. Dietz R.S., French B. & Oliveira M.A. M. (1973): Araguina Dome and Serra de Canghales (Goias) – Probable astroblemes. – SGB, Nucl. da Bahia, XXVII Congr. Bras. Geol., Resumo des Comm, Sess. Тёс, 1:102-103.
58. Doerffer R. (1978): Zum Problem der Fernerkundung von Substanzen im Wasser mit dem Multispektralabtaster. – Bildmessung und Luftbildwesen, 4:133-138.
59. Doerffer R. (1979): Untersuchungen uber die Verteilung oberflachennaher Substanzen im Elbe-Astuar mit Hilfe von Fernmesverfahren. – Arch. Hydrobiol. Suppl. 43 (Elbe-Astuar 4) (2/3): 119-224.
60. DFVLR (1979): Fernerkundung der Erde und Atmosphare. – DFVLR, Forschungsbereich Nachrichtentechnik und Erkundung, Inst. f. Optoelektronik, Wiss. Bericht: 54-66.
61. Dowideit G. (1977): Eine Blockausgleichung fur Abbildungen des seitwartsschauenden Radar (SLAR). – Wiss. Arbeiten der Lehrst, f. Geodasie, Photogrammetrie u. Kartographie an der TH Hannover, 76: 185 S.
62. Doyle F.J. (1979): A large format camera for shuttle. – Photogr. Eng. and Remote Sensing, 45 (1): 73-78.
63. Duplan M. (1973): Les grands lineaments de la France. – C. R. Acad. Sc, Paris, Ser. D, 276; 2947-2949.
64. Estes J.E. & Simoneit D.S. (1975): Fundamentals of image interpretation. – In: Reeves R. G. (ed.), Manual of Remote Sensing (1st ed.), Chapter 14. – Falls Church, Va. (Amer, Soc. of Photogrammetry).
65. Fraser R.S. (1975): Interaction mechanisms within the atmosphere. – In: Reeves R. G (ed.), Manual of Remote Sensing (1st ed.), Chapter 12. – Falls Church, Va. (Amer. Soc. of Photogrammetry).
66. Friedman J. D. (1968): Thermal anomalies and geologic features of the Mono Lake Area, California, as revealed by infrared imagery. – NASA Technical Letter, 82.
67. Friedman J. D. & Frank D. (1980): Infrared surveys, radiant flux and total heat discharge at Mount Baker volcano, Washington, between 1970 and 1975. – US Geol. Surv., Prof. Paper, 1022-D.
68. Friedman J. D., Olhoeft G. R., Johnson G. R. & Frank D. (1981): Heat content and thermal energy of the June dacite dome in relation to total energy yield, May-October 1980. In: The 1980 eruption of Mount St. Helens, Washington. US Geol. Surv.: 557-567.
69. Friedman J. D., Frank D., Kiefer H. H. & Sawatzky D.L. (1981): Thermal infrared surveys of the May 18 crater subsequent lava domes, and associated volcanic deposits. – In: The 1980 eruptions of Mount St. Helens, Washington, US Geol. Surv.: 279-293.
70. Friedman J. D. & Williams R.S. (1968): Infrared sensing of active geologic processes. – In: Env. Res. Inst. Michigan, Proceedings of the Fifth Symposium on Remote Sensing of Environment, University of Michigan, Ann Arbor, Michigan, p. 787-820.
71. Furst M. (1980): Die photogeologische Linearanalyse und ihre Anwedung bei der indirekten Erkundung von Kluftwasser. – Mainzer Geowiss. Mitt., 9: 53-83.
72. Furst M., Klupp K. & Muller R. (1978): Die photogeologische Linearanalyse und ihre Anwendung bei der Uranprospektion in der Oberpfalz. – Erlanger Geol. Ahn., 106: 34 S.

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