A and B remains, however, indeterminate. Area B, for example, appears to have been subjected to extensive soil erosion relatively recently, resulting in small lichen sizes representing the period since initial soil stripping, but it may also have been affected by substantial rock weathering, large proportions of palagonite breccias (Zone X especially), and/or successive generations of lichens, all acting to produce relatively small thallus dimensions. In addition, the extent to which these growth-inhibiting factors may have been, or are still, operating even in areas C and D, remains uncertain; even in these lower, younger areas, growth may have been discontinuous, interrupted or disrupted (e.g. by progressive wind blasting and rock disintegration). EVIDENCE OF ABSOLUTE AGE OF SAN- DUR DEPOSITS (1) Lichenometríc evidence The absolute age of any sandur deposit, i.e. its period of formation and/or of abandonment by meltwaters, may be determined only where a reliable lichen growth curve may be established, or where the sandur can be shown to be morphologically related to a well-dated moraine system. Jaksch (1970, 1975) has correlated maximum lichen size on the terminal moraines with three known positions of the Sólheimajökull since 1890. These points plot as a straight line (Curve 1, Fig. 2), and the line has been extrapolated to represent a maximum thallus diameter of 110 mm. Lichen size data collected on the same moraines in August 1983 by Dugmore and Williams, however, indicate several differences with Jaksch’s data. Jaksch, for example, appears to have found larger lichens on the younger surfaces, but small- er lichens on the older surfaces, compared with those found by Dugmore and Williams. The average line plotted for the latter data, as shown in Curve 2 (Fig. 2), indicates a more rapid growth rate, averaging c. 85 mm/ 100 years (for the period 1860-1947) compared with Jaksch’s curve which represents an average growth rate of c. 73 mm/100 years (for the period 1890—1945). In addition, Dugmore and Williams’ curve suggests that the initial colonization period may be as much as 20-25 years at Sólheimajökull, compared with Jaksch’s esti- mate of about 15 years (Fig. 2). Nevertheless, the discrepancy in the dates predicted by the two curves reaches a maximum of only 9 years in 1840, and hence both curves seem to provide a reasonably close correspondence in dates based on lichen growth over the past 140 years. Although both plots appear as a straight line, it is likely that the growth rate decelerates with increasing thallus age, such that the lines plotted must represent the minimum age of a given deposit. The use of these lichen growth curves for dating the proglacial sandur deposits is based on the assumption that the rates of lichen growth on the moraines are not significantly different from those on the sandur deposits. Studies elsewhere (e.g. Maizels and Petch, 1985) seem to support this general assumption. The maximum thallus diameter found within each mor- phological zone (Fig. 1) has been plotted on Fig. 2, indicating the likely ages of formation and/or abandon- ment of deposits in areas C and D, and the largest sizes attained in areas A and B. In areas C and D, the Zone XI deposit thus appears to date from c. 1818 AD (curve 1) or c. 1829 (curve 2); the T2 terrace deposit appears to date from c. 1840 (or c. 1848 curve 2). The T3 deposit appears to date from c. 1883 (or c. 1882), and T4 from about 1935 (or c. 1930). The T5 deposits are believed to have formed since 1969, and indeed, these deposits are not apparent on the 1960 aerial photographs. The pré- dicted dates of the intermoraine outwash deposits appear to correspond closely to the dates proposed by Jaksch (op. cit.) and Carswell et al. (op. cit.) for the adjacent moraine deposits. The distal outwash deposits appear to date from c. 1925 (or 1923) possibly associ- ated with a 1918 jökulhlaup; the intermediate deposits from c. 1937-1940 (or 1933—1936), corresponding almost exactly with the known ice limit for 1937; and the proximal to c. 1949—1951 (or 1945—1947), also closely matching the known ice-marginal position for 1947. The apparent absolute ages of deposits in area A are highly variable, with the terrace surfaces being last colonized by lichen thalli between c. 1843 and 1898 (or 1852 and 1898, curve 2). Within the flood channels lichen thalli appear to date from between 1868 and 1909 (1873—1868). These high sandur deposits, however, are clearly of much greater age, and, according to historical evidence (Landnámabók) appear to date from before the tenth century (see below). The deep flood channel that truncates the high sandur on its northern margin and which extends into the settlement of Skógar in the west, has clearly been settled for at least several hund- red years. Hence it appears that the observed lichen sizes on the high sandur terraces in the west do not represent the absolute age of the deposit, but may reflect severe environmental conditions, interrupted or cyclic thallus development in an area that may only have been stripped of soil and vegetation cover towards the mid-nineteenth century. Evidence presented by Bjarna- son (1974) suggests that sheep numbers in Iceland increased rapidly from the early eighteenth century onwards, resulting in increasingly high grazing press- ures. This extensive heavy grazing may in turn have resulted in extensive erosion of sandur soils, such that 74 JÖKULL 35. ÁR

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