lake Ljósavatn to the north along Kaldakinn. Profiles 12 and 12a run in opposite directions along the Reykjadalur-Adaldalur valley, about 8 km east of the Bárdardalur line. Profile 10 running west along Ljósavatns- skard gives only P velocities of layers 1 and 2, and depth to layer 2. Profile 11 along Kalda- kinn does not either give reliable P3 waves except at the last station, but the S3 waves are recorded at several stations along the profile, and these have been used to compute depth to layer 3 here. In Ljósavatnsskard, where profiles 10 and lOa are located it is known frorn gravity measurements (Schleusener, 1943) that the low- velocity surface layer of glacial drift has a very uneven thickness, and this may explain the dif- ferences in Pj velocities found on profiles 10 and lOa, and also the rather high P2 velocity on profile lOa. The main structural change in the area of these profiles is an increase in depth to layer 2 from Fnjóskadalur and Eyjafjördur, where it is about 0.5 km, to Ljósavatnsskard ancl farther east, where it is about 1 km. This change ap- parently occurs near the western end of Ljósa- vatnsskard. No major change in thickness of layer 1 is found across the Bárdardalur line. Profile 10 which runs across the Bárdardalur line gives a somewhat smaller thickness of layer 2 and depth to layer 3 than neighbouring pro- files do. As this result is based on only one un- reversed profile with a low-velocity surface layer of uneven thickness, it must be considered rather uncertain. No anomalous behaviour of the travel time graph for profile lOa can be seen across the Bárdardalur line. Profiles 11, 12 and 12a all give similar structure with a depth of about 3 km to layer 3. 13.—13a. This is a reversed profile across Ivelduhverfi in the Neovolcanic zone. The area is characterized by Postglacial lava flows with a number of open fissures running in a north- south direction. The surface low-velocity layer which probably consists of Quaternary volcanic material is relatively thick here, 0.42 km at the western end of the profile, and 0.73 km at the eastern end. At the eastern end it is apparently composed of two layers with velocities 2.33 and 2.74 km/sec, whereas at the western end there is apparently a single velocity of 2.65 km/sec. The computed depth to layer 3 is similar for botli profile directions. 14. This profile runs in an east-west direction across Axarfjardarheidi just east of profile 13— 13a. It is also in the Neovolcanic zone. The surface layer is here 0.26 km thick which is about 0.5 km thinner than in the neighbouring Kelduhverfi. Layer 1 is also very thin, 0.34 km, but the depth to layer 3, 3.21 km below sea level, is similar to what was found in Keldu- hverfi. It thus appears that there is a major change in relative thicknesses of layers 0, 1 and 2 between Kelduhverfi and Axarfjardar- heidi, but that the total thickness or depth to layer 3 is similar in both cases. An attempt was made to measure a profile with a north-south direction between Keldu- hverfi and Axarfjardarheidi, but the recording conditions were very poor and the arrivals weak and no attempt was made to interprete the re- sults. This may have been due to the horizontal structural changes found in this area. 15. —16. These profiles are in the Mývatn area, which is characterized by recent volcanism. The shot points were in lake Sandvatn and lake Mývatn respectively, and the direction of profile 15 was roughly north, but of profile 16 east. Both profiles give a surface layer about 0.65 km thick which is probably Quaternary volcanic material. The depths to layer 3 were found to be similar, about 3.5 km below sea level, on both profiles. 17.—18. These two profiles run in opposite directions from a common shot point in river Sudurá near the western boundary of the Neo- volcanic zone. They are located just east of the southern part of the Bárdardalur line. The sur- face rocks are of Quaternary age and on profile 18 mainly recent lava flows. The surface layer is, however, very thin, probably less than 100 meters. The computed structure is similar on both these profiles and the depth to layer 3 about 3.5 km below sea level. 19.-21. These three profiles are all located in tlie central part of the Neovolcanic zone along the river Jökulsá á Fjöllum. The first two have a common shot point in a small lake near the farrn Grímsstadir and run in opposite di- JÓKULL 1963 49

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