Hostname: page-component-848d4c4894-nmvwc Total loading time: 0 Render date: 2024-06-16T11:19:21.516Z Has data issue: false hasContentIssue false
  • English
  • Français

The Origin of Igneous Rocks

Published online by Cambridge University Press:  01 May 2009

Arthur Holmes
Arthur Holmes
Affiliation:
The University, Durham.
Get access Rights & Permissions [Opens in a new window]

Extract

THE leading problems presented by igneous rocks are:—

(a) the nature and sources of the primary magmas;

(b) the mechanics of magmatic intrusion and emplacement; and

(c) the processes which have brought about the manifold diversity of igneous rock-types.

Type
Original Articles
Information
Geological Magazine , Volume 69 , Issue 12 , December 1932 , pp. 543 - 558
Copyright
Copyright © Cambridge University Press 1932

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

REFERENCES

Allison, F., (1932). “ Magneto-Optic Method of Analysis as a New Research Tool,” Indust. and Eng. Chem., iv, 912.Google Scholar
Backlund, H. G., (1932). “ On the Mode of Intrusion of Deep-seated Alkaline Bodies,” Bull. Geol. Inst. Upsala, xxiv, 124.Google Scholar
Benson, W. N., (1926). “ The Tectonic Conditions accompanying the Intrusion of Basic and Ultrabasic Rocks,” Mem. Nat. Acad. Sci., Washington, xix, No. 1, 190.Google Scholar
Bowen, N. L., (1928). The Evolution of the Igneous Rocks. Princeton.Google Scholar
Brammall, A., (1931). “ The Genesis of Ores in Relation to Petrographic Processes,” Rep. Brit. Assoc., London, 385–7.Google Scholar
Brammall, and Harwood, H. F., (1932). “ The Dartmoor Granites: Their Genetic Relationships,” QJGS., lxxxviii, 171237.CrossRefGoogle Scholar
Daly, R. A., (1914). Igneous Rocks and their Origin. New York.Google Scholar
Eskola, P., (1932). “ On the Origin of Granitic Magmas,” Min. Pet. Mitt., xlii, 445–81.Google Scholar
Fenner, C. N., (1931). “ The Residual Liquids of Crystallizing Magmas,” Min. Mag., xxii, 539–60.Google Scholar
Greig, J. W., Shepherd, E. S., and Merwin, H. E., (1929). Bull. Geol. Soc. Am., xl, pp. 94–5. See also Annual Report of the Director, Geophysical Laboratory. Year Book of the Carnegie Institution, Washington, for 19301931, 75–100.Google Scholar
Gutenberg, B., (1932). “ Travel Time Curves at Small Distances, and Wave Velocities in Southern California,” Gerlands Beiträge, xxxv, 650.Google Scholar
Gutenberg, B., and Richter, C. F., (1931). “ On Supposed Discontinuities in the Mantle of the Earth,” Bull. Seis. Soc. Am., xxi, 216–22.CrossRefGoogle Scholar
Holmes, A., (1915). “ The Origin of Igneous Rocks,” Science Progress, 6773.Google Scholar
Holmes, A., (1926). “ Contributions to the Theory of Magmatic Cycles,” Geol. Mag., LXIII, 306–29.CrossRefGoogle Scholar
Holmes, A., (1927). “ Some Problems of Physical Geology and the Earth’s Thermal History,” Geol. Mag., LXIV, 263–78.CrossRefGoogle Scholar
Holmes, A., (1931). “ The Problem of the Association of Acid and Basic Rocks in Central Complexes,” Geol. Mag., LXVIII, 241–55.CrossRefGoogle Scholar
Holmes, A., and Harwood, H. F., (1929). “ The Tholeiite Dikes of the North of England,” Min. Mag., xxii, 152.Google Scholar
Holmes, A., (1932). “ The Petrology of the Volcanic Fields East and South-East of Ruwenzori, Uganda,” QJGS., lxxxviii, 370442.CrossRefGoogle Scholar
Jeffreys, H., (1929). The Earth. Second edition, Cambridge.Google Scholar
Kranck, E. H., (1928). “ On Turjaite and the Ijolitic Stem of Turja, Kola,” Fennia, li, No. 5, 1104.Google Scholar
Krokström, T., (1932). “ On the Ophitic Texture and the Order of Crystallization in Basaltic Magmas,” Bull. Geol. Inst. Upsala, xxiv, 197216.Google Scholar
Niggli, P., (1923). “ Der Taveyannazsandstein und die Eruptivgesteine der jung-mediterranean Kettengebirge,” Schweiz. Min. Pet. Mitt., iii, 169275.Google Scholar
Poole, J. H. J., (1930). “The Thermal Instability of the Earth’s Crust” (II), Sci. Proc. Soy. Dublin. Soc., xix, N.S. NO. 32, 385408.Google Scholar
Read, H. H., (1931). “ On Corundum-Spinel Xenoliths in the Gabbro of Haddo House, Aberdeenshire,” Geol. Mag., LXVIII, 446–53.CrossRefGoogle Scholar
Reynolds, Doris L., (1931). “ The Dykes of the Ards Peninsula, Co. Down.Geol. Mag., LXVIII, 97111 and 145–65.CrossRefGoogle Scholar
Sederholm, J. J., (1907). “ On Granite and Gneiss,” Bull. Geol. Comtn. Finlande, No. 23. See also “. On Migmatites ” (II), Geol. Mag.., No. 77.Google Scholar
Shand, S. J., (1930). “ Limestone and the Origin of Felspathoidal Rocks,” Geol. Mag., LXVII, 415–27.CrossRefGoogle Scholar
Smythe, C. H. Jr, (1927). “ The Genesis of Alkaline Rocks,” Proc. Am. Phil. Soc., lxvi, 535–80.Google Scholar
Thomas, H. H., and Smith, W. Campbell, (1932). “ Xenoliths of Igneous Origin in the Trégastel-Ploumanac’h Granite, Côtes du Nord, France,” QJGS., lxxxviii, 274–96.CrossRefGoogle Scholar
Wagner, P. A., (1914). The Diamond Pipes of South Africa. Johannesburg.Google Scholar
Wagner, P. A., (1928). “ The Evidence of the Kimberlite Pipes on the Constitution of the Outer Part of the Earth,” S. Af. Journ. Sci., xxv. 127248.Google Scholar
Wagner, P. A., (1929). The Platinum Deposits and Mines of South Africa. Edinburgh.Google Scholar
Wegmann, C. E., and Kranck, E. H., (1931). “ Beiträge zur Kenntnis der Svecofenniden in Finnland,” Bull. Comm. Geol. Finlande. No. 89.Google Scholar
Wells, A. K., and Wooldridge, S. W., (1931). “ The Rock Groups of Jersey, with Special Reference to Intrusive Phenomena at Ronez,” Proc. Geol. Assoc., xlii, 178215.CrossRefGoogle Scholar
Wiman, E., (1932). “ Studies of some Archaean Rocks in the Neighbourhood of Uppsala, Sweden, and of their Geological Position,” Bull. Geol. Inst. Upsala, xxiii, 1170.Google Scholar