bulb temperatures in the screen. ltie radia- tional error was defined as difference between Assmann values and the screen values. Many measurements were taken every day by the ventilated psychrometer and the radiation error in the screen was found to be appreciable. No such error can be tolerated in the gradient measurements. Therefore it was decided to use the spot values from the Assmann measure- ments in the calculations. Registrations in- dicated that these values were fairly repre- sentative for the mean temperature, less for the relative humidity. Vapor pressures derived from psychrometer measurements are taken to be accurate to 0.1 mb assuming a possible error of 0.1 °C in the temperature readings. For periods when Assmann measurements were lacking the registrations were calibrated by us- ing an empirically derived relation for the radiation error as a function of the global radia- tion and the wind speed. The radiation error was considered negligible during the night. This procedure gave 3 hr. values during the whole period. Daily means have been published by Björnsson (1971, fig. 5 and 6). Vapor pressure was found to increase with height above the snow in nearly all cases as would be expected with the stable conditions present. Application of gradients of temperature in 1968 rather than absolute values as in 1967 in the determina- tion of the sensible heat term reduced the effect of any radiational error to minima. Short-wave radiation, albedo, cloudiness The global radiation was registered by an actinograph (Robitzch) mounted horizontally at a height of 2.5 m above the glacier surface. The calibration was made by comparation to integrated values of a Kipp et Zonen solari- meter at the Norwegian Meteorological Insti- tute, Oslo. Values of total daily global radia- tion were obtained by integrating the appro- priate radiation curve on the strip chart. (See fig. 5 and 6, Björnsson 1971). According to procedures given by G. Wendler (1964) these values have been used to calculate an areal estimate for the incoming short wave radiation on the glacier. For the period July to early August the ratio between incoming radiation and global radiation was calculated for various directions of slope and slope gradients on the glacier. Fig. 4 gives the slope gradients found for the various slope directions. For the ob- servation periods considered it was found that for the glacier as a whole, the incoming short wave radiation was roughly 84% of the global radiation. Results are given in Fig. 5 and 6. Measurements of albedo were mostly taken with clear sky or totally overcast sky and no measurements were made in varying cloudiness. Readings were both done by a horizontal in- stalled solarimeter and by holding it parallel to the sloping glacier surface. It was not pos- sible from the data material to determine in details how the albedo changed with changes in the snow surface layer and the spectral distribution of tlie incoming radiation. Early in the summer, when there was freezing during the night and melting during the day, some 10— 15% lower values were found in the middle of the day than in the early morning and the late evening. On the other hand, later when there was melting during the whole 24 hours, no significant variation with solar altitude or cloudiness could be traced from the spot values. GRADIENT SLOPE Fig. 4. The slope gradients of Bægisárjökull for various directions of slope. Mynd 4. Hallastefna Bœgisárjökuls og halla- stigull. JÖKULL 22. ÁR 51

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