Bryndís Brandsdóttir et al. Microearthquake activity within geothermal sys- tems in Iceland is highly variable. Some high- temperature systems exhibit a fairly constant activity (a few microearthquakes per week) whereas swarm activity characterizes other systems. The Svartsengi geothermal field has been seismically quiet for more than a decade. An analog seismometer, operated at the southern margin of the geothermal field since 1984, has not recorded any seismic activity within the well- field, although it has recorded many small swarms within adjacent parts of the Reykjanes Seismic Zone. The first seismograph in Iceland (Mainka, NS- component) was installed in Reykjavík, approxi- mately 40 km from Svartsengi, in 1909. An E-W component was added in 1913. These were long- period, low-gain sensors operated intermittently un- til 1914. The station was shut down in the be- ginning of the first world war and not reopened until 1925. When three, high-gain, short-period, three-component, Sprengnether seismometers were installed in Reykjavík in 1951-1952 the detection threshold of earthquakes at the Reykjanes peninsula was lowered to magnitude 2-2.5. The catalogs of the Icelandic Meteorological Office, list two earthquakes, magnitude 4.1 and 4.2, which most likely originated in vicinity of Svartsengi on Septemberl5, 1954 and four earthquakes with magnitudes ranging between 4.0 and 4.6 on September30, 1967. According to the bulletins of the Reykjavík seismic station earthquake activity at the westernmost Reykjanes peninsula in- creased markedly during 1967-1970 and remained high during the period 1971-1975 during which many dense swarms occurred along the plate boundary be- tween 21.9°W and 22.7°W (Einarsson, 1991). Microearthquake activity on the Reykjanes penin- sula was first monitored during the summers of 1967 and 1968 when portable, one-component, analog seis- mographs were operated for a few days near the Reykjanes and Krýsuvík geothermal fields (Ward and Björnsson, 1971). Considerable microearthquake ac- tivity, close to 20events per day, was observed in vicinity of the stations but no earthquakes were de- tected near the Svartsengi field. Accurate earthquake locations became available in 1971-1972, when a portable network was installed temporarily in the western part of the Reykjanes peninsula (Klein et al. 1977). A few microearth- quakes were detected in the Svartsengi field in 1972 but the seismic activity was lower there than in ad- jacent areas, i.e. the Reykjanes and Krýsuvík geother- mal fields. One focal mechanism was obtained, show- ing normal faulting with a strike-slip component, i.e. a left lateral shear assuming an ENE-striking nodal plane for an earthquake at 3.2 km depth. We operated an array of 15portable, digital seis- mographs within and around the Svartsengi geother- mal field, during May-August 1993 (Figure 1, mid- dle), in order to monitor microearthquake activity prior to and during the waste water injection test. Re- fraction and seismic noise measurements were carried out simultaneously in order to obtain information on the crustal structure and ground noise associated with the geothermal field. Seismicity along the Reykjanes Seismic Zone dur- ing the recording period in 1993 was mostly con- fined to the Krýsuvík geothermal field and Fagra- dalsfjall, 8-10 km east of Svartsengi (Figure 1). No earthquakes originated within the Svartsengi field. A few microearthquake swarms have originated at Fagradalsfjall in recent years with hypocenters rang- ing from 0-8 km depth. No focal mechanisms are available for these earthquakes but their origin is most likely related to strain at the plate boundary as there is no surface geothermal activity in this region. No spatial or temporal correlation can be drawn be- tween the observed seismicity and the injection test. The regional groundwater flow, from higher lying re- gions towards the coast is perturbed by the NE-SW and NNW-SSE lying normal faults and open fissures which channel the flow. The seismicity thus occurred “upstream” from the Svartsengi geothermal field. Fur- thermore, geodetic measurements indicate that the pressure drawdown has not affected the Fagradals- fjall region. The subsidence anomaly is elongated along the plate boundary, i.e. NNA-SSW from Svarts- engi but gravity changes are not detected 6 km east of the wellfield indicating that its eastern margin is less permeable (Eysteinsson, 2000; Björnsson and Stein- grímsson, 1991). 48 JÖKULLNo. 51

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