Hostname: page-component-848d4c4894-v5vhk Total loading time: 0 Render date: 2024-07-03T14:18:09.419Z Has data issue: false hasContentIssue false
  • English
  • Français

Deformational behaviour of migmatites and problems of structural analysis in migmatite terrains

Published online by Cambridge University Press:  01 May 2009

Eileen McLellan
Eileen McLellan
Affiliation:
Department of Geology and Geophysics, Yale University, New Haven, Connecticut 06511, U.S.A.
Get access Rights & Permissions [Opens in a new window]

Abstract

An understanding of the response of migmatites to deformation is crucial to an interpretation of their structures, and in anatectic and intrusive migmatite terrains due consideration must be given to the modification of deformation processes imposed by melts. In partially molten systems containing more than 30% melt the classical theories of fold formation are inapplicable; the folds produced are of the ‘viscous fold’ type. Their geometry is unpredictable and may mimic structures due to refolding; this is particularly true at very high degrees of melting where flow of melt carrying rafts of solids begins. Failure to distinguish ‘viscous folds’ from the products of refolding will lead to errors in interpreting the structural and metamorphic history of an area, and to consequent misinterpretation of the true structural relations between geometrically complex high-grade and more regularly deformed low-grade areas.

Type
Articles
Information
Geological Magazine , Volume 121 , Issue 4 , July 1984 , pp. 339 - 345
Copyright
Copyright © Cambridge University Press 1984

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

Agostino, P. N., 1971. Theoretical and experimental investigations of ptygmatic structures. Bulletin of the Geological Society of America 82, 2651–60.CrossRefGoogle Scholar
Allison, E. G., Brock, P., & White, J., 1958. The rheology of aggregates containing a liquid phase with special reference to the mechanical properties of refractories at high temperatures. Transactions of the British Ceramics Society 58, 495531.Google Scholar
Arzi, A. A., 1978. Critical phenomena in the rheology of partially melted rocks. Tectonophysics 44, 173–84.CrossRefGoogle Scholar
Auten, T. A., Gordon, R. B., & Stocker, R. L., 1974. Q-l and mantle creep. Nature, London 250, 317–18.CrossRefGoogle Scholar
Barrière, M., 1977. Deformation associated with the intrusive Ploumanac'h complex, Brittany. Journal of the Geological Society of London 134, 311–24.CrossRefGoogle Scholar
Berthelsen, A., 1960. An example of a structural approach to the migmatite problem. In The Granite-Gneiss Problem (eds. Barth, T. F. W., & Sorensen, H.), pp. 149–57. Report of the 21st International Geological Congress, Norden, Part XIV. Copenhagen: Det. Barlingske Bogtrykkeri.Google Scholar
Biot, M. A., 1961. Theory of folding of stratified viscoelastic media and its implications in tectonics and orogenesis. Bulletin of the Geological Society of America 72, 15951620.Google Scholar
Busch, W., Schneider, G., & Mehnert, K. R., 1974. Initial melting at grain boundaries. Part II: Melting in rocks of granodiorite, quartz-granodioritic and tonalitic composition. Neues Jahrbuch für Mineralogie, Monatshefte (1974), 3470.Google Scholar
Campbell, D. S., 1980. Structural and metamorphic development of migmatites in the Svecokarelides near Tampere, Finland. Transactions of the Royal Society of Edinburgh (Earth Sciences) 71, 185200.CrossRefGoogle Scholar
Chapple, W. M., 1968. A mathematical theory of finite-amplitude rock-folding. Bulletin of the Geological Society of America 79, 4768.CrossRefGoogle Scholar
De Caprariis, P., 1974. Stress-induced viscosity changes and the existence of dominant wavelengths in folds. Tectonophysics 23, 139–48.CrossRefGoogle Scholar
Donath, F. A., & Parker, R. B., 1964. Folds and folding. Bulletin of the Geological Society of America 75, 4662.CrossRefGoogle Scholar
Holland, J. G., & Lambert, R. St J., 1969. Structural regimes and metamorphic facies. Tectonophysics 7, 197219.CrossRefGoogle Scholar
Hopgood, A. M., 1980. Polyphase fold analysis of gneisses and migmatites. Transactions of the Royal Society of Edinburgh (Earth Sciences) 71, 5568.CrossRefGoogle Scholar
Hopgood, A. M., Bowes, D. R., & Addison, J., 1976. Structural development of migmatites near Skaldo, southwest Finland. Bulletin of the Geological Society of Finland 48, 4362.CrossRefGoogle Scholar
Hudleston, P. J., 1973. The analysis and interpretation of minor folds developed in the Moine rocks of Morar, Scotland. Tectonophysics 17, 39132.CrossRefGoogle Scholar
Mehnert, K. R., 1968. Migmatites and the Origin of Granitic Rocks. Amsterdam: Elsevier.Google Scholar
Oxburgh, E. R., 1970. Geometrical and Kinematic Analysis of Natural Fluid Flow Pattern and its Application to ‘Flow-folding’ in Rocks. Geological Society of India, West Commemoration Volume, 1970.Google Scholar
Paquet, J., François, P., & Nedelec, A., 1981. Effect of partial melting on rock deformation; experimental and natural evidences on rocks of granitic compositions. Tectonophysics 78, 545–65.CrossRefGoogle Scholar
Park, R. G., 1969. Structural correlation in metamorphic belts. Tectonophysics 7, 323–38.CrossRefGoogle Scholar
Quinquis, H., Audren, C., Brun, J. P., & Cobbold, P. R., 1978. Intense progressive shear in Ile de Groix blueschists and compatibility with subduction or obduction. Nature, London 273, 43–5.CrossRefGoogle Scholar
Ramberg, H., 1960. Relations between length of arc and thickness of ptygmatically folded veins. American Journal of Science 258, 3646.CrossRefGoogle Scholar
Shaw, H. R., Wright, T. L., Peck, D. L., & Okamuro, P., 1968. The viscosity of basaltic magma; an analysis of field measurements in Makaopuhi Lava Lake, Hawaii. American Journal of Science 266, 225–64.CrossRefGoogle Scholar
Sturt, B. A., Ramsay, D. M., Pringle, I. R., & Teggin, D. E., 1977. Precambrian gneisses in the Dalradian sequence of northeast Scotland. Journal of the Geological Society of London 134, 41–4.CrossRefGoogle Scholar
Sturt, B. A., & Ramsay, D. M., 1979. The status of the Banff nappe. In Caledonides of the British Isles— Reviewed (ed. Harris, A. L., Holland, C. H., & Leake, B. E.). Geological Society of London Special Publication No. 8.Google Scholar
Van Der Molen, I., & Paterson, M. S., 1979. Experimental deformation of partially-melted granite. Contributions to Mineralogy and Petrology 70, 299318.CrossRefGoogle Scholar
Williams, P. F., 1970. A criticism of the use of style in the study of deformed rocks. Bulletin of the Geological Society of America 81, 3283–96.CrossRefGoogle Scholar