Fróðskaparrit

Fróðskaparrit - 01.01.1998, Side 206

212 HIGHLAND AEOLIAN DEPOSITS IN THE FAROE ISLANDS ed aeolian material (Ballantyne and Whit- tington, 1987). In the Faroe Islands sediments and or- ganic materials are seen on ablating snow- patches in spring and summer (Fig. 5). Therefore it is very possible that some of the poorly-sorted aeolian deposits are niveo-aeolian in origin also here. As the wind speed in general is strongest in the winter (Søgaard, 1996), a niveo-aeolian origin for some of the high-lying wind- blown deposits is very likely. In the high- lands most precipitation falls as snow in winter, enabling snowdrift particularly in these areas. Sediment sources Obviously the sediments of the aeolian de- posits are the result of weathering of bedrock and erosion of the glacial sedi- ments that otherwise cover the landscape. Since vegetation was first established in the Faroese landscape in the early Holocene (Johansen, 1985), primarily free faces and other high-lying exposed bedrock surfaces must have been the main sediment source areas. This could explain the largest occur- rence of aeolian sheets above coastal free faces, as these are presumably most pro- ductive in terms of weathering. Inland free faces are generally lower and not so steep as the near vertical coastal cliffs. In vegeta- tion free areas with active periglacial land- forms, such as e.g. small-scale sorted poly- gons and sorted stripes, presumably some sediment is blown away and therefore en- able aeolian accumulation in local topo- graphical lee sites. Age As the windblown deposits occur in former glaciated areas and below periglacial trim- lines, these are younger than the last glacia- tion. Some aeolian sheets, however, occur above trimlines, indicating that they can be of Weichselian age. The existence of peat layers below some of the windblown de- posits indicates a mid to late Holocene age, as peat layers on the Faroe Islands are pri- marily known to have accumulated since the early to mid Holocene (Humlum et al., 1996). Luminescence dating of sand grains from some aeolian deposits has been at- tempted, despite that the sediments are de- void of quartz, but does contain feldspars. So far the luminescence technique has, however, not been successful because the luminescence property of the feldspar grains seems to be too small to be mea- sured. Presumably ash layers found in parts of the aeolian deposits, and 14C AMS dat- ing of macrofossil plant remnants from or- ganic rich layers in the aeolian deposits could date parts of the aeolian deposits, just as pollen stratigraphical investigations might lead to a closer determination of the flora at the time of deposition. Conclusions For the first time the geomorphology of the extensive highland aeolian deposits of the Faroe Islands has been described. They have been found to be primarily located on south facing slopes, indicating predomi- nantly northerly wind directions during time of deposition. Texturally and morpho- logically they resemble similar deposits in

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