Hostname: page-component-586b7cd67f-vdxz6 Total loading time: 0 Render date: 2024-11-26T05:07:34.616Z Has data issue: false hasContentIssue false

Progress in mineralogy

Published online by Cambridge University Press:  05 July 2018

Kingsley Dunham*
Affiliation:
Charleycroft, Durham DHI 3DY

Summary

The Mineralogical Society celebrated its 50th Anniversary in 1926; this address attempts to summarize the substantial developments in the subject over the past 50 years and looks ahead to the future. Up to 1926, only the techniques of goniometry, optical investigation of non-opaques, and classical chemical analysis had been fully exploited. X-ray crystallography, though already 14 years old, had made little impact but was to advance with great rapidity to achieve, for example, the modern conception of silicate structure by 1934. The insight into the atomic structure of minerals provided by this technique has been central to the advancement of the subject. The powder camera and more recently the counting diffractometer have become the chief determinative tools, though microscopy is still important. Diffractometry with a tied computer has greatly speeded up structural work. Advances in electron microscopy may soon make it possible to produce direct images of atomic structure. Meanwhile wet-chemical procedures have largely given place to spectroscopy (optical emission, X-ray, and atomic absorption), to the electron microprobe and to various still more advanced techniques, including the investigation of stable and unstable isotopic composition by mass spectrometry. Independently, the optical identification of opaque minerals has been brought to an advanced state. All these developments have opened the way for progress in the understanding of the paragenesis and genesis of minerals, subjects to which experimentation at high temperatures and pressure now contribute materially; and for practical applications in many fields, including ore deposits, beneficiation, ceramics, refractories, cement, sinters, and fuels.

Type
Centenary Presidential Address, 1976
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1977

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Abbey, (S.), 1975. Geol. Surv. Can. Pap. 74, 71 Google Scholar
Agrell, (S. O.), 1945. J. Iron Steel Inst. 11, 19 Google Scholar
Armstrong, (G.), Dunham, (K. C), Harvey, (C. O.), Sabine, (P. A.), and Waters, (W. F.), 1951. Mineral. Mag. 18, 347 Google Scholar
Atherton, (M. P.), 1968. Contrib. Mineral. Petrol. 18, 347 CrossRefGoogle Scholar
Bailey, (E. B.) and Thomas, (H. H.), 1924. Mem. Geol. Surv. G.B. (Mull)Google Scholar
Baldanza, (B.) and Levi-Donati, (G. R.), 1971. Mineral. Mag. 38, 197 CrossRefGoogle Scholar
Bannister, (F. A.), 1931. Mineral. Mag. 22, 575 Google Scholar
Barker, (T. V.), 1930. Systematic Crystallography (London, Murby)Google Scholar
Bell, (P. M.) and Mao, (H. K.), 1975. Rep. Dir. Geophys. Lab. Washington, 309 Google Scholar
Bigeleisen, (J.), 1949. J. Chem. Phys. 17, 675 CrossRefGoogle Scholar
Bloch, (F.), 1946. Phys. Rev. 70, 460 CrossRefGoogle Scholar
Hansen, (W. N.), and Packard, (M.), 1946. Ibid. 69, 127 Google Scholar
Bott, (M. H. P.) and Masson Smith, (D.), 1957. Q. J. Geol. Soc. London 113, 93 CrossRefGoogle Scholar
Bowcn, (N. L.), 1922. J. Geol. 30, 177 Google Scholar
Bowcn, (N. L.), 1928. The Evolution of the Igneous Rocks (Princeton)Google Scholar
Bowcn, (N. L.), 1940. J. Geol. 48, 225 Google Scholar
Bowcn, (N. L.) and Tuttle, (O. F.), 1949. Bull. Geol. Soc. Am. 60, 439 Google Scholar
Bowcn, (N. L.) and Tuttle, (O. F.), 1950. J. Geol. 58, 489 Google Scholar
Bowcn, (N. L.) and Tuttle, (O. F.), 1958. Geol. Soc. Am. Mem. 74 Google Scholar
Bowie, (S. H. U.), 1967 In Physical Methods in Determinative Mineralogy (ed. Zussman, J.) (London) Google Scholar
Bowie, (S. H. U.) and Taylor, (K.), 1958. Mining Mag. 99, 265 Google Scholar
Bowie, (S. H. U.) Simpson, (P. R.) and Atkin, (D.), 1975. Fortschr. Mineral, Spes. 52, 567 Google Scholar
Boyd, (F. R.), 1973. Geochim. Cosmochim. Ada 37, 2533 CrossRefGoogle Scholar
Boyd, (F. R.) and England, (J. L.), 1963. J. Geophys. Res. 68, 311 CrossRefGoogle Scholar
Bragg, (W. L.), 1922. Mineral. Mag. 19, 316 Google Scholar
Bragg, (W. L.) 1937. Atomic Structure of Minerals (Cornell)Google Scholar
Bragg, (W. L.) 1975. The Development of X-ray Analysis (London)Google Scholar
Buckley, (H. E.) and Vernon, (W. S.), 1925. Mineral. Mag. 20, 382 Google Scholar
Buddington, (A. F.), Fahcy, (J.), and Vlisidis, (A.), 1955. Am. J. Sci. 253, 497 CrossRefGoogle Scholar
Buseck, (P. R.) and Iijima, (S.), 1974. Am. Mineral. 59, 1; 1975. Ibid. 60, 771 Google Scholar
Campbell Smith, (W.), 1956. Q. J. Geol. Soc. London 112, 189 CrossRefGoogle Scholar
Campbell Smith, (W.), 1976. Mineral Mag. 40, 429 CrossRefGoogle Scholar
Castaing, (R.) and Guinier, (A.), 1950. Proc. Int. Conf. Electron Microsc. Delft 1949, 60 Google Scholar
Castaing, (R.) and Slodzian, (G.), 1962. C. R. Acad. Sci. Paris 255, 1893 Google Scholar
Chesters, (J. L.), 1963. Steelplant Refractories (London)Google Scholar
Christie, (C. H. J.), ed., 1962. Nor. Geol. Tidskr. 42 Google Scholar
Clarke, (F. W.), 1924. U.S. Geol. Surv. Bull. 710 Google Scholar
Clayton, (R. N.), Grossman, (L.), and Mayeda, (T. K.), 1973. Science 182, 485 CrossRefGoogle Scholar
Crook, (T.), 1933. History of the Theory of Ore Deposits (London)Google Scholar
Davis, (B. T.) and Boyd, (F. R.), 1966. J. Geophys. Res. 71, 3567 CrossRefGoogle Scholar
Deer, (W. A.), Howie, (R. A.), and Zussman, (J.), 1962. Rock-forming Minerals. 5 vols. (London)Google Scholar
Dines, (H. G.), 1956. Mem. Geol. Surv. G.B. (South-west England) Google Scholar
Donnay, (J. D. H.), 1946. Bull. Soc.fr. Mineral. 69, 152 Google Scholar
Donnay, (J. D. H.) and Harker, (D.), 1937. Am. Mineral. 22, 446 Google Scholar
Dunham, (K. C), 1934. Q. J. Geol. Soc. London 98, 689 CrossRefGoogle Scholar
Dunham, (K. C), 1935. New Mex. Sell. Bur. Mines Bull. 11, 158 Google Scholar
Dunham, (A. C), Hodge, (B. L.), and Johnson, (G. A. L.), (1965). Q. J. Geol. Soc. London, 111, 383 CrossRefGoogle Scholar
Emmons, (R. C), 1923 In Winchell, (N. A.), Microscopical Characters of Artificial Minerals (New York) Google Scholar
Ernich, (F.), 1926. Lehrbuch der Mineralchemie (Munich)Google Scholar
Eskola, (P.), 1921. Vidensk. Skr., math.-natur. Kl. 8Google Scholar
Eskola, (P.), 1939. In Die Entstehung der Gesteine (Berlin)Google Scholar
Fairbanks, (E. E.), 1946. Econ. Geol. 41, 761 CrossRefGoogle Scholar
Fairbairn, (H. W.), 1951. U.S. Geol. Surv. Bull. 980 Google Scholar
Faure, (G.) and Hurley, (P. M.), 1963. J. Petrol. 4, 31 CrossRefGoogle Scholar
Fedorov, (E. S.), 1920. Mem. Acad. Sci. Russ. 8, Phys.-math. 30 Google Scholar
Fitzgerald, (A. C), Keil, (K.), and Heinrich, (E. W.),’ 1968. Science 174, 530 Google Scholar
Fleischer, (R. L.), Price, (P. B.), and Walker, (R. M.), 1975. Nuclear Tracks in Solids (Berkeley)Google Scholar
Friedman, (H.) and Birks, (L. S.), 1948. Rev. Sci. Instrum. 19, 325 CrossRefGoogle Scholar
Frondel, (J. W.), 1975. Lunar Mineralogy (New York)Google Scholar
Galopin, (R.) and Henry, (N. F. M.), 1972. Microscopic Study of Opaque Minerals (Cambridge)Google Scholar
Gast, (P. W.), 1968. Geochim. Cosmochim. Ada 32, 1057 CrossRefGoogle Scholar
Gerlach, (W.), 1925. Z. anorg. Chem. IA2, 383Google Scholar
Gjibels, (R. O.), 1973. Minerals Sci. Eng. 5, 304 Google Scholar
Goldschmidt, (V. M.), 1927. Nor. Vid. Skr, Kristiania (Oslo)Google Scholar
Goldschmidt, (V. M.) 1954. Geochemistry (London)Google Scholar
Greenfield, (S.), Jones, (I. L. L.), and Berry, (C. T.), 1964. Analyst 89, 713 CrossRefGoogle Scholar
Guthrie, (W. C. A.) and Miller, (C. C), 1933. Mineral. Mag. 33, 405 Google Scholar
Hanawalt, (J. D.) and Rinn, (H. W.), 1936. Ind. Eng. Chem. Anal. Ed. 8, 244 CrossRefGoogle Scholar
Harker, (A.), 1904. Mem. Geol. Surv. G.B (Skye) Google Scholar
Harker, (A.), 1932. Metamorphism (London)Google Scholar
Hartshorne, (N. H.) and Stuart, (A.), 1934. Crystals and the Polarising Microscope (London)Google Scholar
Helgeson, (H. G.), 1964. Complexing and Hydrothermal Ore Deposition (New York)Google Scholar
Henderson, (P.), 1975. Geochim. Cosmochim. Ada 39, 1055 CrossRefGoogle Scholar
Hey, (M. H.), 1939. Mineral. Mag. 25, 402 Google Scholar
Hey, (M. H.), 1941. Ibid. 27, 114 Google Scholar
Hey, (M. H.), 1954. Ibid. 30, 481 Google Scholar
Hey, (M. H.), 1969. Ibid. 37, 83 Google Scholar
Hey, (M. H.), 1973. Mineral. Mag. 39, 4CrossRefGoogle Scholar
Hey, (M. H.), 1974. Ibid. 39, 895 Google Scholar
Embrey, (P. G.), and Fejer, (E. E.), 1969. Ibid. 37, 349 Google Scholar
Hinthorpe, (J. R.) and Anderson, (C. A.), 1974. Lunar Sci. 5, 337 Google Scholar
Holland, (H. D.), 1965. Econ. Geol. 60, 1101CrossRefGoogle Scholar
Howie, (R. A.), 1967. Earth-Sci. Rev. 3, 31 CrossRefGoogle Scholar
Hull, (A. W.), 1919. J. Am. Chem. Soc. 41, 1168CrossRefGoogle Scholar
Hutchinson, (J. L.), Irusteta, (M. G.), and Whittaker, (M. J. W.), 1975. Ada Crystallogr. A31, 794Google Scholar
Hutchison, (R.), Chambers, (A. L.), Paul, (D. K.), and Harris, (P. G.), 1975. Mineral. Mag. 40, 153CrossRefGoogle Scholar
Paul, (D. K.), and Harris, (P. G.), 1970. Ibid. 37, 726 Google Scholar
Insley, (H.) and Frechette, (V. D.), 1955. Microscopy of Ceramics and Cement. New YorkGoogle Scholar
Jensen, (M. L.) 1967. In Geochemistry of Hydrothermal Ore Deposits (Barnes, (H. L.), ed. (New York))Google Scholar
Kelley, (K. K.), i960. Bull. U.S. Bur. Mines, 584 Google Scholar
Kleeman, (J. D.) and Lovering, (J. F.), 1967. At. Energ. Aust. 10, 3Google Scholar
Krumbein, (W. C.) and Garrels, (R. M.), 1952. J. Geol. 60, 1Google Scholar
Kullerud, (G.), 1964. Fortschr. Mineral. 41, 221Google Scholar
Larsen, (E. S. Jr.), 1921. U.S. Geol. Surv. Bull. 679 Google Scholar
Levine, (E. M.), Robbins, (C. R.), and McMurdie, (H. T.), 1969. Phase Diagrams for Ceramists. Supplement.Google Scholar
Lowell, (J. D.) and Guilbert, (J. M.), 1970. Econ. Geol. 65, 373CrossRefGoogle Scholar
Lundegardh, (H.), 1928. Ark. Chem. Mineral. Geol. 10Google Scholar
Ma, (A. L.), 1975. Science, 190, 967Google Scholar
McConnell, (J. D. C), 1971. Mineral. Mag. 38, 1CrossRefGoogle Scholar
Moorbath, (S.), 1975. Proc. Geol. Assoc. 86, 259CrossRefGoogle Scholar
Moorbath, (S.) 1975. Nature, 254, 395CrossRefGoogle Scholar
Mossbauer, (R. L.), 1958. Z. Phys. 151, 124, and Naturwiss. 45, 538CrossRefGoogle Scholar
Myashiro, (A.). 1973. Metamorphism and Metamorphic Belts (London)CrossRefGoogle Scholar
Natural Environment Research Council, 1969. Progress in Experimental Petrology (Edinburgh)Google Scholar
Natural Environment Research Council 1976. Progress in Experimental Petrology, 3 (Edinburgh)Google Scholar
Natural Environment Research Council 1972. Progress in Experimental Petrology, 2 (Manchester)Google Scholar
Nier, (A. O. C), 1940. Rev. Sci. Instrum. 11, 212CrossRefGoogle Scholar
Nurse, (R. W.) and Midgeley, (H. G.), 1953. J. Iron and Steel Inst. 172, 121Google Scholar
O'Nions, (R. K.) and Pankhurst, (R. J.), 1974. J. Petrol. 15, 603CrossRefGoogle Scholar
Osborn, (F. F.), 1959. Am. J. Sci. 257, 609CrossRefGoogle Scholar
Palache (C), 1938. Geol. Soc. Am. Bull. 449, 447Google Scholar
Porter, (M. W.) and Spiller, (R. C), 1956. The Barker Index of Crystals (Cambridge)Google Scholar
Purcell, (E. M.), 1946. Phys. Rev. 69, 681CrossRefGoogle Scholar
Bloembergen, (N.), and Pound, (R. J.), 1946. Ibid. 69, 127Google Scholar
Torrey, (H. C), and Pound, (R. J.), 1946. Ibid. 69, 37Google Scholar
Rankama, (K.) and Sahama (Th. G.), 1950. Geochemistry (Chicago)Google Scholar
Read, (H. H.), 1957. The Granite Controversy (London)CrossRefGoogle Scholar
Reynolds, (D. L.), 1946. Q. J. Geol. Soc. London, 102, 339CrossRefGoogle Scholar
Richey, (J. E.) and Thomas, (H. H.), 1930. Mem. Geol. Surv. G.B. (Ardnamurchan)Google Scholar
Robie, (R. A.) and Waldbaum, (D. R.), 1968. U.S. Geol. Surv. Bull. 1259 Google Scholar
Roedder, (E.), 1967. In Geochemistry of Hydrothermal Ore Deposits (Barnes, (H. L.), ed.)Google Scholar
Sandell, (E. B.), 1944. Colorimetric Determination of Trace Metals (New York)Google Scholar
Schneiderhohn, (H.) and Ramdohr, (P.), 1931. Lehrbuch der Erzmikroscopie (Berlin)Google Scholar
Schouten, (C), 1962. Determinative Tables for Ore Microscopy (Amsterdam)Google Scholar
Seager, (A. F.), 1959. Mineral. Mag. 32, 63Google Scholar
Shapiro, (L.) and Brannock, (W. W.), 1956. U.S. Geol. Surv. Bull. 1036C Google Scholar
Shearman, (D. J.), 1966. Trans. Inst. Min. Metall. 75, B208Google Scholar
Short, (M. M.), 1931. 1940 2nd ed. U.S. Geol. Surv. Bull. 825 Google Scholar
Siebel, (J.), 1943. Metall. u. Erz, 11/12, JuniheftGoogle Scholar
Sobolev, (V. S.), 1959. Aim. Mestorozhd, Yakutii (Moscow)Google Scholar
Spencer, (L. J.), 1933. Mineral. Mag. 23, 387Google Scholar
Spencer, (L. J.), 1933. Geogr. J. 81, 227CrossRefGoogle Scholar
Spencer, (L. J.), 1949. Mineral. Mag. 28, 728 and 734Google Scholar
Springer, (O.), 1969. Fortschr. Mineral. 45, 103Google Scholar
Stanton, (R. L.), 1964. Trans. Inst. Min. Metall. 74, 45 Google Scholar
Stewart, (F. H.), 1949. Mineral. Mag. 28, 621Google Scholar
Stewart, (F. H.), 1951. Ibid. 29, 445 and 557Google Scholar
Tatsumi, (T.), 1970. Volcanism and Ore Genesis (Tokyo)Google Scholar
Tilley, (C. E.), 1924. Q. J. Geol. Soc. London, 80, 22CrossRefGoogle Scholar
Tilley, (C. E.), 1952. Am. J. Sci. Bowen vol. 529Google Scholar
Tilley, (C. E.), 1954. Am. J. Sci. 252, 65CrossRefGoogle Scholar
Tilley, (C. E.), 1958. Q. J. Geol. Soc. London, 113, 325Google Scholar
Tomkieff, (S. I.), 1925. Mineral. Mag. 20, 408Google Scholar
Torgeson, (R.) and Sahama (Th. G.), 1948. J. Am. Chem. Soc. 70, 2156 CrossRefGoogle Scholar
Tyrrell, (G. W.), 1928. Mem. Geol. Surv. G.B. (Arran) Google Scholar
Urey, (H. C), 1947. J. Chem. Soc. 562CrossRefGoogle Scholar
Lowenstam, (H. A.), Epstein, (S.), and McKinney, (C. R.), 1951. Geol. Soc. Am. Bull. 62, 399 Google Scholar
Uytenbogaardt, (W.) and Burke, (E. A. J.), 1971. Tables for Microscopic Determination of Ore Minerals (Amsterdam)Google Scholar
Vernadsky, (W.), 1924. La Geochimie (Paris)Google Scholar
Vincent, (E. A.) and Phillips, (R.), 1954. Geochim. Cosmochim. Ada 6, 1 CrossRefGoogle Scholar
Vinogradov, (A. P.), 1962. Geokhimiya 7, 555 Google Scholar
Vyalasov, (L. N.), I973. Spectral Reflectances of Ore Minerals (Moscow)Google Scholar
Wager, (L. R.) and Deer, (W. A.), 1939. Medd. Gronland, 105, pt. 4Google Scholar
Wager, (L. R.) and Brown, (G. M.), 1967. Layered Igneous Rocks (Edinburgh)Google Scholar
Wager, (L. R.) and Mitchell, (R. L.), 1951. Geochim. Cosmochim. Ada 1, 129 CrossRefGoogle Scholar
Vincent, (E. A.), and Smales, (A. A.), 1957. Econ. Geol. 52, 855Google Scholar
Walsh, (A.), 1955. Spectrochim. Ada 7, 108 CrossRefGoogle Scholar
Warren, (B. E.) and Bragg, (W. L.), 1928. Z. Kristallogr. 69, 168 Google Scholar
White, (D. E.), 1974. Econ. Geol. 69, 934 CrossRefGoogle Scholar
Winchell, (A. N.), 1933. Elements of Optical Mineralogy, 2 (New York)Google Scholar
Yermakov [Ermakov], (N. P.), 1965. Research on the Nature of Mineral-forming Solutions (trans. V. P. Sokolov) (London)Google Scholar
Yoder, (H. S., Jr.), 1952. Am. J. Sci. Bowen vol. 569Google Scholar
Zavoisky, (E.), 1945. J. Phys. U.S.S.R. 9, 211 Google Scholar