Morphoclimates and morphodynamics of the northern Swedish Lapland and east Iceland THE STUDY AREAS The morphoclimate of an area is largely dependent on the regional climate and existing landforms (Ah- nert 1982). The mountains of northernmost Swedish Lapland are situated close to the North Atlantic in a prevailing westerly wind regime which gives rise to a pronounced orographic effect and strong west- east gradient in cloudiness and precipitation. Pre- cipitation is mainly connected with cyclonic activity. The northerly position of the area is partly counter- acted by the influence of the Gulf Stream. The moun- tains belong to the northern part of the Scandinavian mountain chain (the Scandinavian Caledonides) with individual peaks reaching 1440 m a.s.l. Typical are flat plateaux at 1300 m a.s.l., intersected by glacially sculptured valleys with floors at 1000 m a.s.l. (Kling 1996; 2003). Iceland is located in the polar front area. The proximity of passing low-pressure areas implies a high cyclonic activity. Moreover, the climate in the coastal areas of East Iceland is modified by the cold East Iceland Stream, which may from time to time carry drift-ice (Schunke 1979; Liebricht 1983; Einars- son 1991). The mountains of the Icelandic Eastern Fjords (Austfirðir) rise steeply out of the North At- lantic, reaching maximum elevations of more than 1000 m a.s.l. The Austdalur drainage basin is located at 65Æ16’N, 13Æ48’W in the subarctic-oceanic moun- tain area of Seyðisfjörður whereas the Latnjavagge drainage basin is situated at 68Æ20’N, 18Æ30‘E in the arctic-oceanic mountains of northernmost Swedish Lapland. Both exhibit principal geomorphologic and geological characteristics and were thus chosen as representative test areas for the field work (Figure 1). Direct anthropogenic impact on the natural systems is presently small. Latnjavagge The Latnjavagge drainage basin drains to the south into the larger Kårsavagge basin. It has an area of ap- prox. 9 km
, a length of 4600 m, and elevation rang- ing from 950 m a.s.l. to 1440 m a.s.l. The bedrock of Latnjavagge is mainly composed of Cambro-Silurian mica-garnet shists and inclusions of marble (Kulling 1964; Kling 2003). Latnjavagge is dominated by flat plateaux at approx. 1300 m a.s.l., steep slopes which bound the glacially sculptured valley, and the flat valley floor situated between 950 and 1200 m a.s.l. Regional deglaciation occurred about 8000– 10000 yr ago (André 1995). The plateaux largely consist of bare bedrock and boulder fields. The tran- sition to steep slopes is generally abrupt and, on the east-facing side, covered by perennial snow and ice patches. The lower part of the valley floor is dom- inated by a lake, Latnjajaure (0.73 km
), and a se- ries of moraine ridges. The regolith thicknesses are generally small (Beylich et al. 2003). The area be- longs to the mid-alpine zone with a continuous vege- tation cover comprising dwarf shrub heaths and alpine meadows and bogs (Molau 2001; 2003). The distribu- tion of permafrost is still not thoroughly investigated but drilling outside the drainage basin at 1200 m a.s.l. suggested permafrost down to 80 m below the surface (Kling 1996; 2003; Beylich et al. 2003). Active de- nudative slope processes are frost weathering, rock- falls, boulder falls, ploughing boulders, avalanches, slush flows, debris flows and slides, solifluction (lobes and sheets), creep processes, chemical weathering and denudation, aquatic slope denudation, and deflation. In the main channels dissolved solids, suspended sed- iments and debris are transported. The largest part of the fluvially transported sediments is trapped in the lake. The hydrological regime is nival (Beylich 2001a; 2003; Beylich et al. 2003). Austdalur The 23 km
Austdalur basin drains to the north into the Seyðisfjörður fjord. It has a length of 6850 m, and elevation ranging from sea level up to 1028 m a.s.l. The Austfirðir Mountains are mainly composed of Upper-Miocene plateau basalt layers with interca- lated sedimentary rock layers slightly dipping to the west (Schunke 1975; Einarsson 1994). Pleistocene glaciations produced steep, alpine relief with trough valleys, corries, ridges, and rock walls (Schunke 1979; Sigbjarnarson 1983). Regional deglaciation oc- curred about 10000–12000 yr ago (Ingólfsson 1991). The drainage basins of the Austfirðir Mountains are mainly characterized by their steepness and high drainage density. In addition to the talus cones de- JÖKULL No. 52, 2003 35

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