Fig. 2. Aeromagnetic anomalies (total-field) near drill hole K1 (indicated by +). From a survey in 1959, sponsered by the National En- ergy Authority. Mynd 2. Segulkort af Elliðaársvceðinu, teiknað eftir mœlingum á vegum Orkustofnunar 1959. Fig. 3. Magnetic field contours in the vicinity of the Heimaey drill hole in 1973, in thousands of gamma units (y). Mynd 3. Segulmœlinganiðurstöður við djúpa borholu á Heimaey. from drill liole field measurements. The follow- ing two examples from Iceland illustrate the problems involved in the regional field deter- mination. Example 1. The drill hole K1 (Fig. 1 a) in Reykjavík is very suitable for magnetometer work, being cooler than nearby holes (66° C at 650 m depth) and having a diameter of 20 cm. However, in the vicinity of the hole there are buildings and power lines, making a comprehensive ground magnetic survey impossible. A small survey was carried out on the grid shown in Figs. 1 a and b. The standard deviation of tlie 52 field values about their mean is 540 y at 4 m above ground. Fig. 2 shows total field anomalies, referred to an arbitrary datum, at 150 m above ground (G. Gudmundsson, pers. comm. 1973). The lateral variations in the field on scale 1 km are clearly of order ± 1000 y. Example 2. A deep drill hole is situated on Heimaey, Westman Islands. A ground magnetic survey was carried out here (Fig. 3) but is even more limited in extent than that of Ex. 1 since the hole is surrounded by buildings, cliffs and the local harbour. The mean and standard devia- tion of 69 irregularly spaced measurements were 50700 and 1000 y respectively. A map of the island (Fig. 4a) shows total- field contours interpolated from a USNOO survey at 1800 m altitude in 1964, with total- field variations of order 100 y. Fig. 4b plots the total field on a single line flown at 1800 m on Sept. 8, 1973; it appears to have increased by some 600 y, due in part to the geomagnetic secular variation. A parallel line at 300 m alti- tude (Fig. 4) indicates variations of order ± 300 y. SUSCEPTIBILITY LOGS In the light of the previous examples, the best drill holes to measure magnetically may be those where thick (— 20 m) beds of relatively non-magnetic rocks (sediments or clastics) occur within the basalt sequence; here, one is most likely to obtain reliable regional field estimates. The quickest method of finding such beds is to run a susceptibility log on the cuttings re- 26 JÖKULL 26. ÁR

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