论文信息 - Ground deformation monitoring in the Ranafjord area of Norway by means of the permanent scatterers technique

Ground deformation monitoring in the Ranafjord area of Norway by means of the permanent scatterers technique

Although Norway is situated along a passive continental margin, it is not devoid of tectonic activity. Several studies have documented significant movements along faults within the last 10-12 ka. Most of such movements probably occurred shortly after deglaciation, when rates of crustal rebound were very high. Nonetheless, current seismicity along the Norwegian coast suggests that crustal deformation is still taking place. Ranafjord, in northern Norway, is a region with higher than average seismic activity. A six-station seismic network installed by NORSAR detected numerous earthquake swarms in the area. In order to retrieve further crustal deformation data relative to Ranafjord it was decided to use differential SAR interferometry (DInSAR). The application of conventional DInSAR is extremely challenging because the expected deformation rates are low (a few mm/yr) and over long time spans phase coherence is not preserved on large portions of the area to be investigated. The Permanent Scatterers (PS) technique overcomes these drawbacks by exploiting long series of ERS data. At Permanent Scatterers, i.e. individual phase stable point-wise radar targets, displacement data can be retrieved with millimetric: accuracy. The PS grid can be seen as a high spatial density natural geodetic network. Thirty-seven ERS scenes covering the time span 1992-2000 were involved in a Permanent Scatterers (PS) analysis.

[1] L. Blikra,et al. Neotectonic faulting in northern Norway; the Stuoragurra and Nordmannvikdalen postglacial faults , 2000 .

[2] Fabio Rocca,et al. Permanent scatterers in SAR interferometry , 1999, Remote Sensing.

[3] H. Bungum,et al. Seismic activity, inferred crustal stresses and seismotectonics in the Rana region, Northern Norway , 2000 .

[4] Fabio Rocca,et al. Monitoring landslides and tectonic motions with the Permanent Scatterers Technique , 2003 .

[5] R. Hanssen. Radar Interferometry: Data Interpretation and Error Analysis , 2001 .

[6] P. Basham,et al. Earthquakes at North-Atlantic passive margins : neotectonics and postglacial rebound , 1989 .

[7] R. Wood. The scandinavian earthquakes of 22 december 1759 and 31 august 1819. , 1988, Disasters.

[8] R. Wood. Extraordinary Deglaciation Reverse Faulting in Northern Fennoscandia , 1989 .

[9] Hans Wackernagel,et al. Multivariate Geostatistics: An Introduction with Applications , 1996 .

[10] C. Lindholm,et al. Postglacial uplift, neotectonics and seismicity in Fennoscandia , 2000 .

[11] Roger Hansen,et al. Seismicity and seismotectonics of Norway and nearby continental shelf areas , 1991 .

[12] Fabio Rocca,et al. Nonlinear subsidence rate estimation using permanent scatterers in differential SAR interferometry , 2000, IEEE Trans. Geosci. Remote. Sens..

[13] H. Wackernagle,et al. Multivariate geostatistics: an introduction with applications , 1998 .