Jukka Kciyhkö et al. eral metres above the normal river level (Figure 3; site P; Figure 6B). An additional outwash plain (also referred to as Grjót; ca. 5x lOkm) has formed to the south of Grímsstaðir, on the western bank between the current channel and the road F88 to Áskja (Figure 3; site R). Siliceous tephra classes (b7 and b8) dominate the tephra fan that formed during the 1875 eruption on the ENE side of Askja (Figure 3; site S). The contin- uous fan deposit covers ca. 63 km (class b7), and is surrounded by class b8, a mixture of light-coloured tephra and darker sand/lava. The eastern edge of the fan has been eroded (and perhaps, partly buried) by aeolian (and fluvial?) activity. Class b8 can also be found interleaved with hyaloclastite formations or loose palagonitised sediments (b9), the latter being rather light-coloured (i.e. with reasonably high re- flectance in visible wavelengths). Dyngjufjöll ytri (Figure 3; site T) is the largest hyaloclastite forma- tion in this area, followed by the N-S oriented ridges (Fjallgarðar) between Möðrudalur and Grímsstaðir in the east. In addition to these subglacially formed sed- imentary formations. light-coloured sediments occur in places as loose scree and exposed indurated strata, for example at the Sydra formation to the north of Grímsstaðir (Figure 3; site U). These supposedly (cf. Van Vliet-Lanoe et al., 2001) interglacial fluvial and lacustrine deposits are now being eroded by wind and water. Miscellaneous category The miscellaneous category is dominated by the class c2: Vegetated soil (ca. 20% of the total area). Vege- tated areas are abundant in the north-west of the study region, around Mývatn (Figure 3; site V). These vary from well-drained dwarf-shrub heaths to wetlands and patches of dense mountain birch scrub, as described in the 1:40 000 Vegetation map of Iceland (1982). The Vegetation Map of Iceland 1:500 000 (Guðjóns- son and Gíslason, 1998) depicts three vegetation types for the study region: heath, birch scrub and wetland. Of the 30 classes generated by our unsupervised TM clustering, six were unambiguously identified as veg- etation - these were classes in which “greenness” ob- scured the underlying surface characteristics. Four classes represented well or moderately-drained soils, and two classes represented wetlands. A typical er- ror in remote sensing studies of the subarctic biome is the partial misclassification of Betula nana domi- nated wetlands as Betula pubescens scrub due to their similar reflectance patterns (cf. Káyhkö and Pellikka, 1994). The vegetated area defined in our TM classi- fication agrees well with the area shown on the map by Guðjónsson and Gíslason (1998). The current project, however, does not concern vegetated areas per se, which is why vegetation is not considered here in more detail. Other classes within the miscellaneous category are cl: Hydrothermal alteration or solfatara, c4: Ice and snow, and c3: Water bodies. The largest occur- rence of class cl is the Námafjall solfatara area near Mývatn (Figure 3; site X). During the image acquisi- tion in July, some of the mountain tops, e.g. Herðu- breið (Figure 3; site Y) and Trölladyngja (Figure 3; site Z), and the rim of Askja caldera in the west had ice and/or snow cover. SYNTHESIS AND DISCUSSION Distribution of land cover types Unsupervised clustering of the Landsat TM image, followed by manual merging of the classes, revealed the principal characteristics of the land cover types of Ódáðahraun. This region is dominated by unvegetated lava fields, often covered with loose surficial sedi- ments consisting of mobile, redeposited aeolian sand. As primary soil cover is almost completely absent from most of the area, this region cannot be consid- ered to be undergoing erosion, sensu stricto, as there is no soil cover to be eroded. Instead, this region acts as a transport pathway for the sediment released by glaciofluvial processes at the ice cap margin. Continu- ous expanses of vegetation, threatened by the advanc- ing semi-desert, occupy the north and north- west of the region. Arnalds (1992a, b) has demonstrated that the margins of Ódáðahraun erode by the gradual en- largement by wind action of small erosion scars. This process proceeds until the majority of the landscape has become barren with only few scattered remnants of soil cover (rofabarðs). 12 JÖKULLNo. 51

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