10 years time. The time required for significant gravi- ty changes to occur is somewhat longer. Viscosity is one of the most important parameters in geodynamics. This applies particularly in Iceland, where reduced viscosity beneath the crust is consid- ered to reflect temperatures close to the melting range, and be related to partial melting and magma generation in the upwelling mantle plume. Experi- ments to estimate the viscosity are not easy to con- duct, however. Measurements of crustal response to sudden changes in stress or loads are among the best ways to study viscosity. Thus a high velocity of diver- gent motion measured around the Krafla area in the period 1987-1990 was interpreted as continued re- sponse to the large scale rifting that took place there in 1975-1984 (Foulger et al., 1992; Heki etal., 1993), as a result of the existence of a viscous layer underly- ing an 8-30 km thick, elastic plate. The viscosity in the layer is consistent with values obtained from the studies of post-glacial rebound. There is some evidence that the uplift rates around Vatnajökull are even higher than the model calcula- tions indicate. Jahn et al. (1993) measured an exten- sive GPS-network in N - and E-Iceland in 1987. One of the points occupied was in Homafjörður, about 20 km from the SE-edge of Vatnajökull. The same point was occupied during the EUREF GPS-campaign in 1990. Comparison between the two determinations of the vector Akureyri-Hornafjörður showed changes that could be interpreted as the result of 8 cm uplift of the Hornafjörður point during the period 1987-1990. Imsland (1992) documents changes in relative sea level that could indicate a similar rate of uplift. A small skerry, Hellnasker, within the Hornafjörður la- goon emerges about 75 cm above sea level at low tide at present. Before 1950 this skerry never showed, even at the lowest tidal levels. Crustal uplift is consid- ered at least a contributing cause, even though other changes in the lagoon could also be involved. This observation indicates a maximum uplift rate of a little less than 2 cm per year. ACKNOWLEDGEMENTS The GPS field work was funded to a large degree by the University of Iceland Research Fund. The Nat- ural Environment Research Council in the U. K. pro- vided the 3 GPS receivers. The Iceland Geodetic Sur- vey provided one vehicle and the town of Höfn gave valuable logistical support. WRJ is grateful to G. Wil- helmi and G. Jung-Jacoby for their help in the field, to G.W. Hein, Universitat der Bundeswehr, Neubiberg, and to Guðmundur Pálmason, Orkustofnun, Reykja- vík, for lending him their LaCoste-Romberg gravime- ters, to B. Richter and P. Wolf, Institut fiir Ange- wandte Geodásie, Frankfurt/M. for computing the solid earth tidal corrections and to Peter Smilde, Mainz for helping with his gravity evaluation pro- gram. Leó Kristjánsson and Bryndís Brandsdóttir read the manuscript critically and suggested valuable improvements. REFERENCES Camitz, J., F. Sigmundsson, G. Foulger, C.-H. Jahn, C. Völksen, and P. Einarsson 1995. Plate boundaiy de- formation and continuing deflation of the Askja vol- cano, North Iceland, determined with GPS, 1987- 1993.Bull.Volc. 57,136-145. Einarsson, P. 1991. Earthquakes and present-day tecton- ism in Iceland. Tectonophysics 189,261-279. Einarsson, P. 1993. Benchmarks of GPS-measurements in Iceland 1986 -1991. Science Institute, University of Iceland, report RH-02-93,78 pp. Einarsson, T. 1966. Late- and post-glacial rise in Iceland and subcrustal viscosity. Jökull 16, 157-166. Foulger, G. R., C.-H. Jahn, G. Seeber, P. Einarsson, B. R. Julian, and K. Heki 1992. Post-rifting stress relax- ation at the divergent plate boundary in Northeast Iceland. Nature 358,488-490. Heki, K., G. R. Foulger, B. Julian, and C.-H. Jahn 1983. Plate dynamics near divergent boundaries: Geo- physical implications of postrifting cmstal deforma- tion in NE Iceland. J. Geophys. Res. 98, 14279- 14297. Imsland, P. 1992. Sögur af Hellnaskeri (Tales of Hellna- sker skerry, in Icelandic), Skaftfellingur 8, 130-139. International Earth Rotation Service 1993. The 1992 IERS annual report. Central Bureau of IERS, Paris, 62 pp. JOKULL, No. 44 37

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