INTERPRETATION OF INERARED IMAGES AND AERIAL PEIOTOGRAPHS Kverkfjöll vestri: Hveradalur a,nd Jökullón The dominant feature of the 1966 and 1968 infrared images of Kverkfjöll vestri is the part- ly subglacial, linear thermal area of Hvera- dalur (Figs. 4 ancl 6) trending north-northeast for 3.2 kilometers (64°38'4P N; 16°40'44' W). More than 120 distinct individual or coale- scent thermal points are identifiable on high- amplitude level slices of Hveradalur (Fig. 7C). The thermal features extend northeastward beginning on the southwest, from thermally emitting single and double ice-perforation features, several of which were clescribed from ground observations in 1953 by Thorarinsson (1953, p. 20, Fig. 11) to the partly ice-covered glacial lake (Jökullón) and then along the narrow solfatara valley (Hveradalur) at about 1620-meter elevation, to a broader thermal area leading to a breach in the ice margin on the north, and finally to a linear series of punctate ice performations (Fig. 3), each the focal point of thermal emission (Figs. 4, 5, ancl 6). Based on the 1968 Infrarecl Ektachrome ancl Plus X photographs, the thermal area of Hveradalur (excluding the ice cauldron) is about 500 meters wide at the glacial lake, Jökullón (Fig. 8), ancl 700 meters at its widest northeast of the steam vent named Gámur (Thorarinsson 1953, p. 20, Fig. 11), which is located at a constricted part ol the valley. At the northeasternmost ice perforation feature the thermal area may be only 50 meters wide. The Hveradalur thermal area clearly extends under the lake. Thorarinsson (1953) has described hot springs high in silica, occasionally visible in the lake basin, but the extent and depth of the lake varies considerably. On 12 March 1944 it was at least 500 meters long, but on 9 July 1946 no lake was present at all (Thor- arinsson 1953, p. 21). Measurements made on the unrectified aerial photographs (significant error may be greater than five per cent) indicate that tlie open part of Jökullón containing floating ice bits was 410 meters long and 130 meters wicle (Fig. 8) in August 1968. The maximum dimensions of the water-filled and ice-covered lake basin were 560 X 290 meters, but strand line features suggest the existence of a slightly larger lake in the past. The hot springs rich in silica were not visible and may now be sublacustrine, contributing to the volume of the melt-water lake. The infrared imagery of 1966 (Fig. 4) in- dicates that the largest group of thermal points is located north-northeast of Jökullón at the widest part of the valley. Northwest-flowing thermal surface drainage through a wide breach in the glacier margin is clearly revealed by the imagery; however, U. S. Air F’orce aerial photographs of 28 August 1960 (Fig. 31 show that this outflow area was still partly ice covered at that time, although northwest-flow- ing streams emanating from ice perforation features were identifiable. By 1968 the north- western margin of the ice in the area of the breach had receded 200—300 meters farther to the southeast than its position of 1960 (Fig. 8). This part of Hveradalur has thus been opened up considerably since 19601). Considerable ice melting over the thermal features of Kverk- fjöll vestri must thus liave occurred in recent years. A second grouping of thermal points, identi- fiable but not outstanding on the 1966 irnag- ery, occurs on the southeastern slope of a hill within an ice amphitheater immediately south- east of Jökullón. Here, on 24 May 1968 a vapor column 300—400 meters high was ob- served emanating from a new powerful steam vent. On 9 June 1968 Thorarinsson visited the area. This steam vent was then still the largest in the group of solfataras and continued to be so in August 1969. Signal amplitude level slices of the magne- tically taped infrared imagery of 26 August 1968 show intensity of thermal emission in several steps (Fig. 7). Using this technique, two major coalescent groups of high intensity thermal features were recorded: 1) southeast ol’ Jökullón, coincident with the steam vent and 1) 1914 topographic mapping by Trautz (1919) suggests, liowever, that in parts of Kverk- fjöll vestri near Hveradalur, the ice margin then was farther upslope than in 1960. JÖKULL 22. ÁR 37

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