Diamictites of late Pliocene age in westem Iceland Áslaug Geirsdóttir Science Institute, University oflceland, 101 Reykjavík, Iceland ABSTRACT The sedimentology and stratigraphic relations of several late Cainozoic diamictites from localities in the Borgarfjörður and the Hvalfjörður areas, western Iceland is reviewed. Attention is drawn to the impor- tance offacies analysis of sediments in environmental interpretation of ancient rock successions. A multi- criteria approach was used to determine the origin °f the diamictites. The diamictites represent diverse environments of deposition that can be attributed not only to glacial activity, but also to volcanism and mass flow deposition. Important questions about the successions con- cern the number and stratigraphical arrangement of glacial horizons. Lithological analysis identifies five glacial units in the upper Borgarfjörður area and at least six glacial units are recognized in the Hvalfjörð- ur area. The oldest glacial deposit has an approximate oge of 2.6 Ma and the five glacial units in the Borg- orfjörður area were deposited during a time-span of 500,000-600,000years. Two ofthe glacial deposits in the Hvalfjörður area were presumably formed during late Gauss magnetic epoch, all others are correlated with the Matuyama epoch. A tentative correlation is made between the glacial deposits in Borgarfjörður and the glacial deposits in Hvalfjörður area. The re- sults imply more varied depositionalprocesses for the origin of the diamictites in Borgarfjörður and Hval- fjörður area and fewer and perhaps less extensive glaciations during late Pliocene than previously as- sumed. INTRODUCTION Geologic mapping and geochronologic studies suggest that many stratigraphic sections within the late Pliocene rocks of Iceland (ca. 3.1 Ma to 1.8 Ma) arenearly continuous (e.g. Sæmundsson, 1980,1985). They consist of alternating basaltic lava flows in- terbedded with sediments of diverse appearance and origin which contain evidence of physical processes responsible for their formation, climate and deposi- tional setting. Such stratigraphic successions offer a great opportunity to work out a detailed paleoenviron- mental reconstruction. However, until quite recently, the principal emphasis has been on the geochronology, the mineralogy, geochemistry and magma genesis of the lava flows, with a simple interpretative description of the interbedded sediments. Based on their non- sorted appearance, the interbedded sediments have fre- quently been regarded as subglacial in origin implying more frequent major glaciations than found elsewhere on land in the northem hemisphere. The differentiation of diamictites is a particular problem in Iceland where glacial and volcanic pro- cesses work both interactively and separately. Due to the ubiquitous volcanic source rock, diamictites such as till, tillites, and other coarse-grained but non-glacial deposits (e.g., fluvial gravels, lahars and autoclastic and epiclastic volcanic sediments) may have similar field appearance. A further complication is the inter- action of volcanic activity with glacial processes. Var- ious deposits can be ascribed to either one or a combi- nation of volcanic and glacial processes. In addition, diamictite units may be taken as either representative of an ice cap cover or a succession of mountain glacia- JÖKULL, No. 40, 1990 3

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