Slope creep in East Iceland observed by InSAR fjörður (Jónsson, 2007). Here I briefly describe two of these sites, more completely than in Jónsson (2007). Loðmundarfjörður is one of the Eastern Fjords and used to be a small farming community, but no permanent settlement has been in this fjord since 1973. Jónsson (1976) describes large deposits in Loð- mundarfjörður in detail that are called Loðmundarskr- iður or Stakkahlíðarhraun. He states that the deposits originate from the Flatafjall and Bungufell mountains and extend southwards to the fjord bottom, bounded to the west by the slopes of Karlfell mountain. Clear signs of displacement are detected in Loð- mundarfjörður in one-year interferograms spanning 2004–2005. The area that is moving is extensive, over 1 km wide, and during this year the maximum LOS displacement is about 3 cm. The detected move- ment, however, does not take place on the large de- posits described by Jónsson (1976), but on the east- ern slopes of Karlfell mountain, under its high cliffs, somewhat above the Hrauná river, and appears to co- incide with a location of older deposits (Hjartarson, 1997). The well known Loðmundarskriður, on the other hand, show no signs of displacement during this time period. It is not possible resolve precisely when the movement under Karlfell mountain took place. No displacement is detected in 1-month interferograms from summers of 2004 and 2005, but it is seen in all interferograms that span the time from summer 2004 to summer 2005 (Jónsson, 2007). Therefore, the movement was either slow and steady, i.e. too slow to be detected in the 1-month interferograms, or it was sudden and took place sometime between 12 Septem- ber 2004 and 15 May 2005. Eyvindarárdalur is a valley about 10 km southeast of the town of Egilsstaðir. The road to Mjóifjörður runs along this valley. The valley floor is 1–200 m above sea level and it is surrounded by mountains that are 800–1000 m high. Several interferograms show deformation in a small area on the southwest facing slope of the valley, between the rivers Ytri-Grjótá and Innri-Grjótá. The observed deformation amounts to about 1–2 cm in these interferograms, consistently indicating downslope movement and it is always at the same location. Deformation in Eyvindarárdalur is seen in several interferograms that span various dif- ferent time periods during 1995–1999 but no defor- mation is observed at this location in 2004–2005. One of the few sites that were known to be un- stable prior to the start of this project is Urðarbotn, located 600–700 m above the town of Neskaupstaður. During the past decades, several debris flows follow- ing heavy rainfall have originated in Urðarbotn, caus- ing damage in the town (Jensen and Hjartarson, 2001). GPS measurements during 1991–2001 indicated non- steady motion of the Urðarbotn deposits from year to year with one benchmark showing displacement of 138 cm during 1992–1993, but only 11 cm during 1994–1996 (Jensen and Hjartarson, 2001). Urðarbotn is located on a SSE-facing slope and can thus only be imaged from ascending orbits. No suitable ascending ERS data exist in the ESA archives, so the only usable data are the Envisat data from 2004–2005. Although imaging from ascending orbits is possible, it is chal- lenging due to the steep slopes and cliffs and the lim- ited extent of the Urðarbotn site. No displacements were observed in Urðarbotn in the processed ascend- ing Envisat interferograms (Jónsson, 2007). Three one-month interferograms exhibit a reasonable degree of interferometric coherence high on the slopes above the town of Neskaupstaður, but none of them show any sign of displacement at the Urðarbotn site. These interferograms span 4 July–8 August and 8 August– 12 September 2004, and 15 May–19 June, 2005. One interferogram that spans about one year 2004–2005 shows similar results. DISCUSSION The detection of displacements in InSAR data in Þófi up to two years before cracks were discovered in the field demonstrates the monitoring potential of this technique in East Iceland. Deformation on these de- posits can be seen in InSAR data from 1998 and 1999, i.e. well before fresh surface cracks were discovered in 2000. While the Þófi results may demonstrate the monitoring potential of InSAR, the Urðarbotn obser- vations expose one of its limitations, i.e. that InSAR cannot be used to image sites that are small in extent (<200 m), which is probably the case for many un- stable slopes in Iceland. However, the Þófi case and the discovery of a number of other sites that are ac- JÖKULL No. 59 99

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