deflation rate decreases and the epicentral zone is extended. The earthquake activity culminates after the maximum in tremor and deflation rate is reached. The largest earthquakes are located within a well defined, but each time different sec- tion of the fissure swarm. The magnitude only rarely exceeds 4.5. The depth of hypocenters is in the range 0—6 km. Extensive fault movements, both normal faulting and fissuring, occur in the area of maximum earthquake activity. The propa- gating seismic activity suggests that the magma escaping from the Krafla reservoir is injected laterally into the fissure swarm to form a dyke. The dykes may be as long as 40—60 km. The first and the most violent deflation event started on Dec. 20, 1975. The deflation of the cal- dera exceeded 2 m and the accompanying earth- quake swarm lasted about 8 weeks. Most of the epicenters that appear in the northern part of the volcanic zone in Fig. 1 belong to this swarm. The largest earthquakes were confined to two separate areas. One area was within the caldera and the earthquakes were apparently associated with faulting above the magma reservoir. Depth of most hypocenters was 0—4 km. The largest earthquakes reached magnitude 5. The other epicentral area was near the junction between the Krafla fissure swarm and the Grímsey fault (Fig. 3). The largest earthquake was of magnitude 6 and the focal mechanism shows right-lateral strike-slip along the Grímsey fault. This earthquake sequence demon- strates well the relationship between rifting along the diverging plate boundary and transform fault- ing in the fracture zone. The present Krafla events are assumed to be the result of interaction between magma pressure under the Krafla volcano and rifting of the plate boundary. The rifting is trig- gered by increasing magma pressure in the reser- voir and a fluid filled extensional crack propagates horizontally along the Krafla fault swarm. The driving force of this process is the tectonic stress at the plate boundary, but the mode of strain release is modified by the presence of fluid. Intraplate earthquakes Earthquakes are rare outside of the volcanic zones and the seismic zones in South and North Iceland. Intraplate earthquakes are known in the Iceland region, however, for example near the insul- ar shelf margin east of Iceland. A very significant sequence of intraplate earthquakes occurred in Borgarfjördur in West Iceland in 1974. The sequence lasted more than two months and culminated with a shock of mb = 5.5. The epicenters were located in two intersecting linear zones. The main epicentral zone was about 25 km long and had an E-W trend. The second zone had a NE-SW trend and inter- sected the first one in the middle. The depth of the hypocenters was 0—8 km. Focal mechanism was determined for the main shock and several small shocks in the western part of the epicentral zone. All the obtained solutions show normal faulting, consistent with observed surface faults. The Borg- arfjördur area seems to be undergoing horizontal extension. The direction of the least compressive stress rotates from the WNW in the center of the epicentral zone to N-S or even NNE in the western part. Here the epicentral zone is spatially related to the Snaefellsnes volcanic zone, where the tectonic structure is characterized by block faulting on WNW striking faults and volcanism on WNW trending lines. This structure also implies horizon- tal extension in the NNE-SSW direction. The crustal extension in West Iceland may be caused by subcrustal flow radially away from a mantle plume under Central Iceland, but could also be the result of gravitational stresses induced by the regional topographic high of Iceland. SELECTED REFERENCES Björnsson, A., K. Saemundsson, P. Einarsson, E. Tryggvason and K. Grönvold, 1977: Current rifting episode in North Iceland. Nature 266: 318—323. Björnsson, A., G. Johnsen, S. Sigurdsson, G. Thor- bergsson and E. Tryggvason, 1979: Rifting of the plate boundary in North Iceland. J. Geophys. Res, 84: 3029—3038. Björnsson, S, 1975: Jardskjálftar á íslandi (Earth- quakes in Iceland), Náttúrufraedingurinn, 45: 110—133. Björnsson, S. and P. Einarsson, 1974: Seismicity of Iceland. In Kristjánsson, L. (Ed.): Geodynamics of Iceland and the North Atlantic Area. D. Reidel, Dordrecht, Holland, 225—239. Brandsdóttir, B. and P. Einarsson, 1979: Seismic activity associated with the September 1977 deflation of the Krafla central volcano in NE- Iceland. J. Volcanol. Geothermal Res. (in press). Einarsson, P, 1976: Relative location of earth- quakes within the Tjörnes Fracture Zone. Soc. Sci. Islandica, Greinar V: 45—60. 42 JÖKULL 29. ÁR

Blaðsíða 1
Blaðsíða 2
Blaðsíða 3
Blaðsíða 4
Blaðsíða 5
Blaðsíða 6
Blaðsíða 7
Blaðsíða 8
Blaðsíða 9
Blaðsíða 10
Blaðsíða 11
Blaðsíða 12
Blaðsíða 13
Blaðsíða 14
Blaðsíða 15
Blaðsíða 16
Blaðsíða 17
Blaðsíða 18
Blaðsíða 19
Blaðsíða 20
Blaðsíða 21
Blaðsíða 22
Blaðsíða 23
Blaðsíða 24
Blaðsíða 25
Blaðsíða 26
Blaðsíða 27
Blaðsíða 28
Blaðsíða 29
Blaðsíða 30
Blaðsíða 31
Blaðsíða 32
Blaðsíða 33
Blaðsíða 34
Blaðsíða 35
Blaðsíða 36
Blaðsíða 37
Blaðsíða 38
Blaðsíða 39
Blaðsíða 40
Blaðsíða 41
Blaðsíða 42
Blaðsíða 43
Blaðsíða 44
Blaðsíða 45
Blaðsíða 46
Blaðsíða 47
Blaðsíða 48
Blaðsíða 49
Blaðsíða 50
Blaðsíða 51
Blaðsíða 52
Blaðsíða 53
Blaðsíða 54
Blaðsíða 55
Blaðsíða 56
Blaðsíða 57
Blaðsíða 58
Blaðsíða 59
Blaðsíða 60
Blaðsíða 61
Blaðsíða 62
Blaðsíða 63
Blaðsíða 64
Blaðsíða 65
Blaðsíða 66
Blaðsíða 67
Blaðsíða 68
Blaðsíða 69
Blaðsíða 70
Blaðsíða 71
Blaðsíða 72
Blaðsíða 73
Blaðsíða 74
Blaðsíða 75
Blaðsíða 76
Blaðsíða 77
Blaðsíða 78
Blaðsíða 79
Blaðsíða 80
Blaðsíða 81
Blaðsíða 82
Blaðsíða 83
Blaðsíða 84
Blaðsíða 85
Blaðsíða 86
Blaðsíða 87
Blaðsíða 88
Blaðsíða 89
Blaðsíða 90
Blaðsíða 91
Blaðsíða 92
Blaðsíða 93
Blaðsíða 94
Blaðsíða 95
Blaðsíða 96
Blaðsíða 97
Blaðsíða 98
Blaðsíða 99
Blaðsíða 100
Blaðsíða 101
Blaðsíða 102
Blaðsíða 103
Blaðsíða 104
Blaðsíða 105
Blaðsíða 106
Blaðsíða 107
Blaðsíða 108