II. THE RECESSION OF HAGAFELLS- JÖKULL EYSTRI AND LANGJÖKULL Introduction I have made some atlempts at collecting all available data on the recession oí Hagaí'ells- jökull Eystri and Langjökull as a whole in order to measure and calculate the glacial re- cession at dií'ferent times. The most important sources of information on the regime of the glaciers are old maps. The oldest map showing the southern margin of Langjökull with some degree of accuracy is a map at the scale of 1:480,000 drawn aíter Björn Gunnlaugsson’s measurements dating from the years 1834—35. This map should be fairly reliable since Björn Gunnlaugsson travelled in this area. Unfortun- ately there are, however, some obvious errors on it, although his writings give additional points in some cases (Gunnlaugsson 1835 and 1836). According to these, the Jarlhettur Valley was filled with ice nearly to the same degree as during the maximum extent of the glacier (Fig. 3). The map shows the snout of Hagafellsjökull Eystri reaching as far to the south as the south end of Hagafell, but in its maximum stage it reachecl about one km farther south. The glacier lobe has therefore probably advanced somewhat in more recent times. The next mapping of this area was carried out by the Cambridge Icelancl Expedition in the year 1934 (Wright 1935). This map covers the south- ern margin of Langjökull from Thórisdalur in the west to Jarlhettur in the east. The contour intervals on it are only 100 m except on a detailed map of Hagavatn ancl surroundings on which 25 m contour lines are drawn. This map is reliable in all main points and shows clearly the position of the ice front ancl the marginal lakes. In the years 1937—39 all this area was sur- veyecl and mapped by the cartographers of the Geodetic Institute, Copenhagen, as a part of a geodetic survey of Iceland. In the preparing of this map aerial photographs were used. The next map of the area was made by the U. S. Army Map Service. It was drawn by photo- grammetric methods, based on aerial photo- graphs from the year 1945 and a triangulation by the Geodetic Institute. Finally a part of this area was surveyed and mapped with 5 m con- tour intervals at the scale of 1:20,000 by the Na- tional Energy Authority. Tliis map is drawn by photogrammetric methods, based on aerial photographs from the year 1960. In addition to these maps a student group from the Dur- ham Exploration Society mapped Hagavatn and its surroundings in the year 1950 (Green 1952). The snout of Hagafellsjökull Eystri was also mapped by English students in the years 1956, 1960 and 1964. I have obtained a map, which shows the position of the ice front in these years, but otherwise I have not been able to approach any details of their work. But in accuracy their map does not seern to be as good as the map of 1960. Since the year 1934 Jón Eythórsson a. o. have measured the retreat of the glacier snouts of Hagafellsjökull Eystri and Hagafellsjökull Ytri. To begin with these measurements were sparse, but since 1960 they have been carriecl out al- most every year. The map on Fig. 1 has been compiled from these sources, which can be counted reliable. The maximum extent of Hagafellsjökull Eystri has been drawn by using aerial photographs, the interpretation of which has been checked by field observations. I have estimated the posi- tion of the ice front in the years 1902 ancl 1929 with reference to the “jökulhlaups” of these years and by using photographs and historical accounts. The profile AB on Fig. 1 is drawn in vertical scale on Fig. 5, where the longitudinal profiles of the glacier lobe at different times are shown together with the changing level of Hagavatn. The maps have also been usecl as base for the profiles, except that the maximum thickness of the glacier is estimated in the following way: The maximum height of the recent glacial fea- tures was measured on most of the peaks in the Brekknafjöll Range and also in Hagafell and the results of these measurements were project- ed on the profile AB. Aneroid barometer was used for these measurements, but the air pres- sure was unstable in some cases and some errors may have been caused by that. I have used these maps and measurements as a base for calculations of the shrinkage ol the glaciers in this century, both in length, area and volume. The following three areas were selected for that purpose (Fig. 7): 270 JÖKULL 17. ÁR

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