landite, icelandite (andesite), dacite and rhyolite. The equivalent plutonic rocks (gabbro, etc.) have also been observed. The major element composition along with information on phenocryst phases of four typical extrusive rock types of the tholeiitic series is shown in Table 1. In this series, close parallels to the tholeiitic magma types of the classical Hebridean province can be demonstrated. The transitional series is a hypersthene- normative alkalic series. The basic rocks are usually characterized by a high content of Fe and Ti, and low Al. The basalts of this series will plot above the division line in Fig. 2, but evolved compositions on the other hand plot below the division line. This series is made up of the following main rock types: ankaramite, transitional basalt, basaltic andesite (hawaiite), andesite (mugearite), trachyte (?) and comenditic rhyolite. Equivalent plutonic rocks to some of these compositions have been observed. The majorelement composition of four typical rock types of the transitional alkalic series is shown in Table 1. The alkalic series is of mild character, the rocks are nepheline normative and plot above the di- vision line in Fig. 2. The alkalic series is made up of ankaramite (?), alkali olivine basalt, hawaiite (trachybasalt), mugearite (trachyandesite), benmo- reite, trachyte (?) and alkalic rhyolite. Equivalent plutonic rocks have not been found with certainty. The major element composition of three typical members of this series is shown in Table 1. The alkalic series of Vestmannaeyjar (Fig. 7) is nearly identical to the Plateau Magma Type of the Hebridean volcanic province. Several typical differentiation trends within these three rock series is shown with regard to their alkali:silica content in Fig. 2. The plots of Post- glacial basalts of the rock series is shown in Fig. 8. Compositional variation within each rock series is perceptible, i.e. the exact trend of differentiation of a volcanic system may vary from that of others belonging to the same rock series. However, each rock series has characteristics which are retained, e.g. the trends in the alkalksilica diagram of Fig. 2. The occurrence and distribution of the rock series will be discussed in the following sections. TERTIARY TO PLEISTOCENE VOLCANIC ROCKS Tertiary The petrology of the Tertiary rocks of Iceland (about 16—3.1 m.y. ago) appears to be fairly homogenous from a genetical point of view. Volcanism in this period was probably confined to an axial rift zone, similar to the present axial rift zone, and only rocks belonging to the tholeiitic series have been observed within the exposed Tertiary volcanic systems of which there are approximately 44. From a petrological point of view large areas are still unknown, but the central complexes of several individual volcanic systems have been studied in detail, especially the Thing- múli and Álftafjördurcomplexes in eastern Iceland and the Setberg I, Reykjadalur and Hafnarfjall complexes in western Iceland. These central volcanoes generally consist of basic, intermediate and acid lavas, pyroclastic rocks and a minor amount of sediments. Intrusive activity is confined to feeder dykes (dolerite), cone sheets (dolerite and acid rocks) and irregular intrusions (mainly gabbro and granophyre), a laccolith being recorded in one case. These studies indicate the existence of a complete olivine tholeiite — tholeiite — basaltic icelandite — icelandite — (dacite) — rhyolite series of rocks. Picrite basalts are infrequent. At this point it is appropriate to note that the field terms frequently used in Iceland of olivine basalt, tholeiite and plagioclase porphyritic basalt are not genetical and apply to the macroscopical ap- pearance, although these field types prove in most cases to be tholeiitic. The petrochemical trends of these Tertiary central volcanoes are very similar, apart from minor differences, e.g. parellel shifts in trend lines as in the alkali: silica diagram of Fig. 2. The mineralogy of the Tertiary volcanoes is relatively simple. In Thingmúli, where the rock suite has been suggested to be derived by a process of fractional crystallization from a basaltic parent, olivine is a ubiquitous phenocryst phase (Fo 85— 65) in the basic rocks, and is also found as a groundmass constituent of the olivine tholeiite. The olivine is absent in the tholeiites and the basaltic icelandite, but reappears in the icelandites and the acid rocks (as Fo 45), a recurrence analogous to that of the olivine in the Skaergaard intrusion. Plagioclase is the only feldspar, and the groundmass constituent becomes progressivly more sodic going from the basalts towards the acid end of the series. In the basic rocks augite is rare as a phenocryst phase; in the groundmass augite and pigeonite coexist and vary in composition in a 60 JÖKULL 29. ÁR

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