described by Thompson and Jones (1986), but here the wider development of the outwash fan and the changing positions and pattems of its major chan- nels are considered. From the lichenometric dating study (Thompson and Jones ibid.), it is known that the isolated remnants of the highest terrace (units B and C in Fig. 5), — representing the maximum aggradation of the sandur at the time of the 1870 ice advance — were finally abandoned during the phase of incision which accompanied the strong glacier recession of the 1890s. By examination of the relict channel pattems on these abandoned surfaces, it is apparent that they had been formed by meltwater issuing from numerous sources along the ice-front, building up an apron of small coalescing fans in front of the glacier, partially burying or cutting through the 1870 moraines. Subsequently, with the continued retreat of the ice, meltwater feeding the Svínafellsá fan became concentrated into two major streams, issuing from the extreme southem tip of the glacier tongue and cutting through the late nineteenth century moraines. This pattem is indicated on the 1904 map (Fig. 2) and seems to have persisted until the onset of accelerated glacier recession in the mid 1930s, as can be seen in the distribution of outwash for this period (units D and E in Fig. 5). As the glacier retreated from the high crest of the 1930 moraines, the associated incision of the melt- water streams resulted in the abandonment of wide areas of former outwash deposition, (units D and E), transforming them into terraces. Eventually, at some time between 1934 and 1945, the continued retreat of the ice-front and reduction in source elevation of the meltwater streams resulted in a complete aban- donment of the southemmost stream, concentrating the entire flow through a single gap in the moraines. Since 1960, there has been little net recession of the glacier, and consequently little, if any incision by the river (Thompson and Jones, 1986). As a result, lateral migration of the channel has predom- inated, especially downstream of the modem road bridge where the channel begins to free itself from the restrictions of the confining terraces and adopts a wider and more complex braided pattem. Neskvísl — The Neskvísl is the second largest of the Svínafellsjökull meltwater streams, issuing from the northem side of the glacier. Its present course, confined between the 1934 and 1939 moraine ridges of Skaftafellsjökull, came into existence only after the two glaciers separated in 1935. Prior to this, meltwater from the same source escaped in a south- erly direction, to join the Skráma and Stóralda streams of Svínafellsjökull, as shown on the map of 1904 (Fig. 2). In the aerial photographs of 1945, this southerly course was still occupied by meltwater issuing from a temporary lake, held up between the glacier snout and a complex dead-ice area beyond (Fig. 2). At the same time, the low ground between the Skaftafells- jökull moraines, which was to become the new course of the Neskvísl, was occupied by a series of abandoned channels, initiated at an earlier stage as an ice-marginal drainage system of Skaftafells- jökull. By 1954, the continued decay of the dead-ice area resulted in a new outlet being formed on the northwestem side of the lake, allowing meltwater to escape into one of these abandoned channels (Fig. 2). Subsequently, the stream has cut down slightly below the 1934-1945 outwash surface (unit E in Fig. 5), and has continued to evolve between these confining terraces as a ’wandering’ gravel-bed stream — a transitional form between meandering and braided pattems (Ferguson and Werritty, 1983, Thompson, 1987). CONCLUSIONS Detailed analysis of the evolution of proglacial features at Svínafellsjökull and Skaftafellsjökull has highlighted important contrasts between the two areas, which are ultimately related to the behaviour of the glaciers themselves, and their differential response to recent climatic change. At Skaftafellsj ökull, the rapid and almost continu- ous retreat of the ice-front has revealed an exten- sive, predominantly lodgement till plain, locally modified by a combination of pushing and squeez- ing mechanisms to produce a series of well-defined 28 JÖKULL, No. 38, 1988

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