Testing the size-frequency-based lichenometric dating The aim of this paper is to present the size- frequency approach on new lichenometric measure- ments taken on the Fláajökull moraines in 2005 and to show diversification in the lichen population growth on proximal, distal and upper surfaces of stones due to environmental factors. STUDY AREA Fláajökull flows south out of the Vatnajökull ice-cap and its marginal zone is at about 50–80 m a.s.l. (Fi- gure 1). The eastern lobe of the glacier has formed easily discernible moraine ridges, which to the west are bordered by the moraines of Heinabergsjökull and Skálafellsjökull. Together with Fláajökull, the gla- ciers formed a single piedmont lobe between the years 1860–1870 (Evans et al., 1999). Figure 1 shows the situations after the opening of a new subglacial tunnel in the spring of 2001, the erection of a new dam and the inundation of large parts of the marginal zone. METHODOLOGY Lichenometric measurements were performed in the summer 2005 following certain criteria: 1. only the longest axis (enveloping circle) of rela- tively circular isolated Rhizocarpon agg. thalli were measured; 2. measurements were made with a plastic ruler to the nearest millimetre; 3. testing fields were delimited along 5 moraine ridges of different ages (the oldest is number I), each having an area of 6000 m2 (20x300 m); 4. only the relatively largest thalli were measured and the aspect of the overgrown side of each stone (proximal, distal or upper) was noted, see Figure 2; 5. measurements were performed on all types of rocks, mostly basalts, dolerites and diabases. Between 497 and 942 thalli were measured on each testing field, with the total amounting to 3877. Figure 2. Sides of stones on which lichens were me- asured. Skilgreining á mælistöðum fléttna með tilliti til afstöðu þeirra til jökuljaðarsins. The procedure of data processing was the same as used by Bradwell (2004) and McKinzey et al. (2004). Lichens were divided into classes with an interval of 3 mm, and size frequency graphs were constructed. The logarithm (base 10) of the frequency (%), excluding lichens smaller then the modal class, was calculated and multiplied by -1. The slope of the regression li- nes (the frequency gradient) was calculated using the least squares method. According to this method, the steeper the slope of the regression line, the younger is the lichen population. Such a procedure was used for the entire population in each testing field and also se- parately for populations growing on proximal, distal and upper stone surfaces. The lichenometric dates obtained were verified by comparing them with the age of the moraines previo- usly derived by Dąbski (2002), Figure 1, who ana- lysed several sources of information, most important of which were: direct glaciological measurements (published annually by Icelandic Glaciological So- ciety in Jökull), a topographic map 1:50 000 based on aerial photographs from 1946, aerial photography from 1989, historical data published by Ahlmann and Thorarinsson (1937), Thorarinsson (1943), Denton (1975) and studies of neighbouring glaciers’ margi- nal zones (Bradwell, 2001; Jaksch, 1975; Gordon and Sharp, 1983; Kirkbridge and Dugmore, 2001; Snor- rason, 1984; Maizels and Dugmore, 1985; Thompson and Jones, 1986; Thomson, 1988; Evans et al., 1999). JÖKULL No. 57 23

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