6 On climatic changes in Iceland LEIFUR A. SlMONARSON Science Institute, University of Iceland, Reykjavík The fossil record of Iceland goes back as far as its oldest rocks which have been radiometrically dated at about 16 m.y. The lava pile of Iceland formed almost exclusively above sea level and as a result the fossil bearing strata are primarily of terrestrial origin. A number of sedimentary horizons con- taining identifiable plant remains occur inter- stratified with the lavas. Studies of their fossil floras' were initiated more than a hundred years ago and a Miocene age was correctly assigned to the oldest of them. This was later rejected in favour of an Eocene age and that view persisted into the nineteen- sixties. Radiometric dating of the lavas which came up in the mid-sixties made it clear that the floras could be no older than Miocene, as originally pro- posed by Oswald Heer. The global cooling that has occurred on the earth since the Miocene is well documented in the record of fossil floras, owing to the regular spacing apart of plant bearing horizons within the lava pile. Marine fossiliferous strata occur in a few places, but the age range — Pliocene up to Holocene — is much shorter than with the fossil floras. Singular amongst the marine deposits are the Tjörnes beds which contain fossil faunal assemblages represent- ing the entire Pliocene epoch. The Pleistocene faunal record is much less coherent. Holocene climatic trends have been recon- structed on the basis of both marine fossil evidence and on palynological studies of bog profiles where radiocarbon dating and tephrochronology are in- dispensible aids. Miocene — Pliocene climate Palaeobotanical studies of Tertiary interbeds in Iceland indicate more or less symmetrical horizons on both sides of the Quaternary formations. The oldest horizon, older than 14 m.y., is found along the northwest coast and comprises the Selárdalur flora (for location see Fig. 1). It consists of a mixed warm-temperate forest of conifers and deciduous trees with Sequoia, Pinus,Juglans, A Inus, Fagus, Ulmus, Tilia and Vitis. Taxodiaceae dominate over Pinaceae and angiosperms over conifers. The well- known Brjánslækur flora belongs to the next hori- zon, about 14—13 m.y. The most thermophilic taxa, as Vitis, have disappeared, whereas Abies, Sequoia, Comptonia, Betula prisca Ettingshausen, Acer, Alnus, Magnolia and Sassafras are prominent. Pinaceae dominate over Taxodiaceae. From 13 — 10 m.y. Pinaceae increased and conifers came to dominate over angiosperms. This is probably the oldest horizon in East Iceland (Gerpir). In the next horizon, about 10—9 m.y., comprising the Húsa- víkurkleif and Tröllatunga floras in West Iceland and the Hólmatindur flora in East Iceland, Poly- podiaceae, Osmunda, Salix, Juglans, Betula, Acer, Magnolia and Carya predominate. From 9—8 m.y. Alnus, Betula, Acer, Pterocarya, Fagus and Corylus are the most prominent taxa known from Mókolls- dalur in Northwest Iceland. Icelandic Tertiary floras older than 8 m.y. are warm-temperate and show close affinity with the retent flora in the Eastern Deciduous Forests of North America. The oldest horizons indicate annual mean temperature higher than 10°C and frosts were probably rare. Apparently the precipitation was more or less constant throughout the year. A slight cooling may be responsible for the disappearance of Vitis 14 m.y. ago and Magnolia 9 m.y. ago. The temperate Hredavatn flora in West Iceland is about 7 m.y. old and Fagus and other warm- temperate indicators are rare or absent, whereas Betula, Salix and conifers are prominent. Apparently the climate grew cooler during the Upper Miocene. The cooling trend continued in the Pliocene and from 6—3 m.y. Betula and Salix shrubs and grasses became more and more common when the forest declined, as indicated by the Sleggjulækur flora in West Iceland and the Pliocene Tjörnes flora in 44 JÖKULL 29. ÁR

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