Páll Einarsson and Bryndís Brandsdóttir 10 20 30 40 50 60 70 N 1 2 3 4 5 6 7 8 9 10 11 12 1978-1985 Eastern cluster Western cluster 10 20 30 40 50 60 70 N 1 2 3 4 5 6 7 8 9 10 11 12 Figure 7. Histograms showing the cumulative monthly number of earthquakes during 1978-1985 lo- cated with an accuray of 2 km or less. The seis- mic activity is highest in both clusters during July- October. – Samanlagður fjöldi staðsettra skjálfta í hverjum mánuði á árunum 1978-1985. Óvissa í stað- setningum er innan við 2 km. Skjálftavirknin undir vestari (Goðabungu) og eystri (Kötlu) þyrpingunni er mest frá júlí og fram í október. DISCUSSION AND CONCLUSIONS The Mýrdalsjökull earthquakes are spatially re- lated to volcanoes and do not have a direct associa- tion with the plate boundary in South Iceland. Several physical processes active in a volcano can lead to seis- mic events, including the following: 1. Brittle fracturing of crustal rock due to stress changes in response to magma movements, such as inflation or deflation of a magma cham- ber, or intrusion of a dyke. 2. Brittle fracturing of crustal rocks due to con- centrations of regional stress around volumes of magma. 3. Cracking due to thermal stresses, heating around magma bodies or cooling due to hydro- thermal circulation into hot crust. 4. Episodic or unstable magma flow in a conduit. 5. Explosions in magma or in hydrothermal sys- tems. Let us examine these possibilities. Explosive phe- nomena must be considered to be most unlikely in this area. Manifestations of explosions have never been identified. There are geothermal areas beneath Mýrdalsjökull but they are relatively modest. Com- paring the seismicity of Mýrdalsjökull with that of other, much more powerful geothermal areas where thermally related seismicity has been identified, s.a. Hengill (Foulger, 1988) and Torfajökull (Soosalu and Einarsson, 1997), it seems rather unlikely that thermal processes are responsible. Intrusive activity cannot be ruled out, but we point out that no other evidence indi- cating magma movements is available. Tilt measure- ments around Mýrdalsjökull in the last 30 years fail to show significant accumulation of magma (Tryggva- son, 2000). Episodes of continuous tremor have not been recorded except in July 1999 (Einarsson, 2000). Whatever process is responsible for the seismicity, it must have been at work for almost half a century. The fact that seasonal variations have triggered seis- micity all this time implies that a very sensitive bal- ance is maintained between the loading and trigger- ing processes. In order for almost all the seismicity to 68 JÖKULL No. 49

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