In the tholeiites of the Pleistocene centres the olivine may be totally or partly altered to iddingsite or other secondary minerals, and interstitial glass is almost invariably altered to green or brovvn-colour- ed fine-grained mineral aggregates. Vesicles are sometimes filled with calcite (± aragonite) and/or various zeolite minerals (see Prestvik 1979 for de- tails). Tholeiitic icelandites and icelandites fhese rock types occur both as lava flows and as hyaloclastite units. The analysed material does not mclude many icelandites, a rock type that is difficult to identify in the field, especially in the hyaloclastite sequences, where they tend to resemble both aphanatic tholeiites and tholeiitic icelandites. In the field icelandites were mapped together with these more basic rocks and not as a separate type (Prestvik 1979). It is possible, therefore, that the icelandites may be underrepresented among the analysed material. Porphyritic types occur among these rocks ( Table 1), but the aphyric (or nearly aphyric) ones are by far the most abundant. The groundmass texture of the tholeiitic icelandites varies from inter- granular or subophitic to pilotaxitic and hyalopi- litic. The icelandites which commonly display flow- banding, at least on a microscopic scale, usually have hyalopilitic matrices. In the tholeiitic icelandites zoned plagioclase phenocrysts commonly have sodic bytownidc cores lAn70-75)> and rims ranging from AnH to An().. Microphenocrysts cluster around An.,,54. Plagio- clase microphenocrysts in basic icelandite (SiO., ~56%) are sodic labradorite (An_5_), whereas andesine (An3_ 37) microphenocrysts occur in the more evolved icelandite (SiO,2 ~58%) of the 1727 Oræfajökull eruption. Small olivine phenocrysts of tholeiidc icelandites are relatively rich in the forsterite component (Fo(.? 78), which in the icelandite it is down to Fo47 4g. Olivine has not been found in all the icelandite samples. Clinopyroxene usually occurs as micro- phenocrysts (0.1-0.3 mm) in both tholeiitic iceland- ites and icelandites. Occasionally bigger pheno- crysts (up to 1.2 mm) are found. The composidon varies from Wo^.jEn^Fs^ for phenocrysts to VVo+4 En3_Fs2| in microphenocrysts of tholeiitic icelandit- es and from Wo^Ertj.jFs^ to VVo.j()Enj.,Fs3(| in ice- landite. Microphenocryst and matrix oxides are tit- anomagnetites in both tholeiidc icelandites (TiO., = 24-44%) and in icelandite (TiO., = 28%). Dacites and rhyoliles I n the field these rocks occur as small domes, lava flows, hyaloclastites, airfall ash layers, and dikes. Laminar llow structures are usually observed. Some of these rocks are obsidians or pitchstones, but more usually the rocks are crystalline or partly devitrifi- ed. Most rocks are slightly feldspar porphyritic and occasionally phenocrysts of olivine and pyroxene are found as well, especially in thedacites (Table 1). Oxide minerals are commonly observed as micro- phenocrysts in both dacites and rhyolites. In a couple ofsamples tiny needles ofmatrix amphibole and secondary quartz have been observed. Quartz is a common groundmass phase in the crystalline rhyolite, but it has never been found as a pheno- cryst. The composition of feldspar phenocrysts ranges from oligoclase/andesine (An28_38) in dacites to oligoclase (An1[j24) and anorthoclase (Or13Ab65 An2,,) in rhyolites. MatrLx feldspar in rhyolite is anorthoclase (Or17Ab7jAn10). Phenocrysts of oliv- ine (0.1-1.0 mm ) range from Fo^19 in dacite down to Fo3 in rhyolite. Clinopyroxene phenocrysts (0.5- 1.5 mm) in dacites range from ferroaugites (VVo+3 En,9Fs28 to Wo45En17Fs38) to almost hedenbergite (Wo+9En85Fs42 5 to VVo^ErtjFs^g) in rhyolite. Orthopyroxene (Wo3En.(Fs43) has been found in spherulite-like aggregates together with oligoclase crystals in a glassy matrix of one rhyolite sample. The oxides are titanomagnetites (TiO., = 22-24%) in dacites, but range towards magnetite (TiO,, = 7-12%) in rhyolites. In some of the rhyolites tiny zircon crystals occur. Intrusive rocks In the eroded section of the Breidamerkuríjall center both gabbro and granophyre are exposed. Gabbro is exposed only at a few localities along Breidárlón whereas a larger intrusion at Bæjarsker is a granophyre. The gabbro is medium grained (0.5-5 mm) with a hypidiomorphic to allotriomorphic - granular text- ure. The principal minerals are plagioclase (An_g0) and clinopyroxene accompanied by abundant oxide ores. Subordinate amounts of altered olivine, green and brown amphibole and some small grains of biotite are also present. The chemical analyses of JÖKULL 32. ÁR 71

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