Integration of micro-gravity and geodetic data to constrain shallow system mass changes at Krafla Volcano, N Iceland


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Authors: de Zeeuw-van Dalfsen, E; Rymer, H; Williams-Jones, G; Sturkell, E; Sigmundsson, F
Year: 2006
Journal: Bulletin of Volcanology 68: 420-431   Article Link (DOI)
Title: Integration of micro-gravity and geodetic data to constrain shallow system mass changes at Krafla Volcano, N Iceland
Abstract: New and previously published micro-gravity data are combined with InSAR data, precise levelling and GPS measurements to produce a model for the processes operating at Krafla volcano, 20 years after its most recent eruption. The data have been divided into two periods: from 1990 to 1995 and from 1996 to 2003 and show that the rate of deflation at Krafla is decaying exponentially. The net micro-gravity change at the centre of the caldera is shown, using the measured free air gradient, to be -85 mu Gal for the first and -100 mu Gal for the second period. After consideration of the effects of water extraction by the geothermal power station within the caldera, the net gravity decreases are -73 +/- 17 mu Gal for the first and -65 +/- 17 mu Gal for the second period. These decreases are interpreted in terms of magma drainage. Following a Mogi point source model, we calculate the mass decrease to be similar to 2 x 10(10)kg/year reflecting a drainage rate of similar to 0.23m(3)/s,similar to the similar to 0.13m(3)/s drainage rate previously found at Askja volcano, N. Iceland. Based on the evidence for deeper magma reservoirs and the similarity between the two volcanic systems, we suggest a pressure-link between Askja and Krafla at deeper levels (at the lower crust or the crust-mantle boundary). After the Krafla fires, co-rifting pressure decrease of a deep source at Krafla stimulated the subsequent inflow of magma, eventually affecting conditions along the plate boundary in N. Iceland, as far away as Askja. We anticipate that the pressure of the deeper reservoir at Krafla will reach a critical value and eventually magma will rise from there to the shallow magma chamber, possibly initiating a new rifting episode. We have demonstrated that by examining microgravity and geodetic data, our knowledge of active volcanic systems can be significantly improved.
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