mantle beneath Iceland. - f: M. H. P. Bott, S. Saxov, M. Talvani & J. Thiede (ritstj.), Structure and development of the Greenland-Scotland Ridge: 31-61, Plenum Press, New York. Sveinn Jakobsson. 1979. Petrology of Recent basalts of the eastern volcanic zone, Iceland. - Acta Nat. Isl. 26: 1-103. Sveinn Jakobsson, Jón Jónsson & F. Shido. 1978. Petrology of the western Reykjanes Peninsula, Iceland. - J. Petrol. 19: 669- 705. Swanson, D. A. & T. J. Casadevall. 1983. Vol- canology. - Rev. Geophys. Space Phys. 21: 1419-1435. Tsukui, M. M. Sakuyama, T. Kouaguchi & K. Ozawa. 1986. Long-term eruption rates and dimensions of magma reservoirs beneath Quaternary polygenetic volcanoes in Japan. — J. Volcanol. Geotherm. Res. 29: 189- 202. Vogt, P. R. G. L. Johnson & Leó Kristjánsson. 1980. Morphology and magnetic anomalies north of Iceland. - J. Geophys. 47: 67-80. Walker, G. P. L. 1965. Some aspects of Quater- nary volcanism in Iceland. - Trans. Leices- ter Lit. Philos. Soc. 49: 25—40. Walker, G. P. L. 1974. Eruptive mechanisms in Iceland. - f: Leó Kristjánsson (ritstj.), Geodynamics of Iceland and the north Atlantic area: 189-201, Reidel, Dordrecht. Whitehead, J. A. H. J. B. Dick & H. Schouten. 1984. A mechanism for magmatic accretion under spreading centres. - Nature. 312: 146—148. Williams, H. & A. R. McBirney. 1979. Vol- canology. Freeman, San Francisco, 397 bls. SUMMARY Magma chambers in the volcanic zones of Iceland by Ágúst Guðmundsson Nordic Volcanological Institute University of Iceland, Reykjavík This paper reviews and extends the author’s models for the formation and dynamics of magma chambers in the volca- nic zones of Iceland (Ágúst Guðmundsson 1986a, 1986b, 1987). The main conclusions of the paper may be summarized as follows. 1) The volcanic zones of Iceland consist of some 30 volcanic systems (Fig. 1), each one composed of volcanic and tectonic fissures and some also containing a central volcano. In this paper all volcanic systems are considered to be fed by partially mol- ten magma reservoirs, located at the depth of 8—10 km within the volcanic zones. The average magma content of the reservoirs is 25%, but the uppermost parts of them are probably totally molten. The cross-sectio- nal area of a reservoir is thought to be similar to the area of the associated volca- nic system. The maximum thickness of the reservoirs is 14 km. 2) In addition to a reservoir, some vol- canic systems have a shallow, totally mol- ten magma chamber, located in the crust (Fig. 2). The chambers are fed by reser- voirs, are located at a depth of 1—3 km, and have volumes of 20-200 km3. They are either sill-like, spherical or stock-like. 3) Magma reservoirs form in those areas, at the boundary of the crust and upper mantle, where the crust is relatively thin and weak. These are also the regions where the crust is most likely to yield as a result of plate movements. The magma flows towards these regions to accumulate and from reservoirs. Each part of the vol- canic zone is fed by one or many magma reservoirs (Fig. 3). 4) The formation of shallow magma chambers is envisaged as follows. Dike intrusions build up, temporary, high hori- zontal compressive stresses that lead to formation of a sill which, subsequently, J

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