briiche. Eiszeitalte und Gegenwart. 17: 85—86. — .1967. An outline of the structure of SW-Iceland. í: Sveinbjörn Björnsson (ritstjóri); Soc. Sci. Islandica. Rit 38: 151 — 161. — 1974. Evolution of the axial rifting zone in northern Iceland and the Tjörnes Fracture Zone. Geol. Soc. Am. Bull. 85: 495 — 504. — 1978. Fissure swarms and central vol- canoes of the neovolcanic zones in Ice- land. Geol. J. Spec. Iss. 10: 415-432. — & H. Noll. 1975. K-Ar ages of rocks from Húsafell, western Iceland, and the deve- lopment of the Húsafell central volcano. Jökull. 24: 40—57. Talwani, M. & O. Eldholm. 1977. Evolution of the Norwegian-Greenland Sea. Geol. Soc. Am. Bull. 88: 969—999. Talwani, M., C. C. Windisch & M. G. Langseth. 1971. Reykjanes Ridge crest. A detailed geophysical study. J. Geophys. Res. 76: 473-517. Vogt, P. R. 1974. The Iceland phenomenon: Implications of a hot spot on the ocean crust, and implications for flow below the plates. 1: Leó Kristjánsson (ritstjóri): Geodynamics of Iceland and the North Atlantic. 102—126. D. Reidel, Dor- drecht. Walker, G. P. L. 1959. Geology of the Reydarfjördur area, eastern Iceland. Quat. J. Geol. Soc. London. 114: 367—393. — 1963. The Breiddalur central volcano, eastern Iccland. Quat. J. Geol. Soc. London. 119: 29—63. — 1964. Geological investigations in east- ern Iceland. Bull. Volc. 27: 1 —15. Ward, P. L. 1971. New interpretation of the geology of Iceland. Geol. Soc. Am. Bull. 82: 2991—3012. Watkins, N. D., & G. P. L. Walker. 1977. Magneto-stratigraphy of eastern Ice- land. Am. J. Sci. 277: 513—594. Wilson,J. T. 1973. Mantle plumes and plate motions. Tectonophysics 19:149—164. SUMMARY Evolution of rift zones in western Iceland by Dr. Haukur Jóhannesson Department of Geology Museurn of Natural History P. 0. Box 5320. Reykjavík, Iceland The active rift zones in Iceland form syn- cline structures due to loading and sub- sequent sagging. By mapping dip and strike, the whereabouts of extinct rift zones may be found in the form of syncline structures. A major syncline has been identified in west- ern Iceland, the Snaefellsnes syncline (i. e. Snaefellsnes rift zone), which runs obliquely across the Snaefellsnes peninsula and east- ward along the fjord Hvammsfjördur where it joins a syncline in Vatnsnes in northern Iceland (Fig. 2). The Snaefellsnes syncline is situated about 70 km west of the presently active Reykjanes-Langjökull rift zone. Mid- way between the two is the Borgarnes anticline. The Hrcdavatn unconformity (Fig. 2) plays a major role in the geology of western Iceland. The lava flows below the uncon- formity have been tilted and eroded before bcing covered by the Hredavatn sedi- mentary horizon and the overlying rock series (Fig. 3 and 4). The Hredavatn uncon- formity is on the eastern and southern flanks of the Snaefellsnes syncline but its counter- part on the northern and northwestern flanks is the Tindar unconformity and Tindar sedimentary horizon (Fig. 2 and 4). To study the age relations a continuous 5.5 knt thick section of the lava pile was mapped and by studying the palaeomagnetic polarity of the lava flows a polarity time scale for the region was produced and fitted to the revised polarity time scale of La- Brecque et al. 1977 (Fig. 6). By using all available data a distribution map of the palaeomagnetic epochs could be drawn (Fig. 7 and 8). The oldest rocks are found in the axis of the Borgarnes anticline as expected; they were previously dated by 29

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