Reviewed research article Slope creep in East Iceland observed by satellite radar interferometry Sigurjón Jónsson Institute of Geophysics, ETH Zürich, Sonneggstr. 5, 8092 Zürich, Switzerland1 sj@erdw.ethz.ch Abstract — Numerous unconsolidated deposits can be found on slopes in East Iceland that exhibit charac- teristics of slope movement. While a few of these slopes have been known to be actively creeping in the past decades, no information has been available about the current activity. In this study I surveyed a large part of East Iceland for possible ongoing slope creep using satellite radar interferometric imaging. A total of 44 radar interferograms were processed using data from the European radar satellites ERS-1, ERS-2, and Envisat, spanning different time-periods during 1993–1999 and 2004–2005. At one site, Þófi in Seyðisfjörður, ground cracks were discovered in 2000 and GPS measurements in 2001–2002 revealed that these deposits were mov- ing at rates of up to 33 cm/year. No suitable ERS radar data exist from 2001–2002, but interferograms from 1998 and 1999 show up to 10 cm/year displacement-rate in this area, while interferograms from 1995–1997 and 2004–2005 exhibit no signs of displacement. This shows that the Þófi deposits started creeping two years before surface cracks were discovered and that the movement is episodic. In my search for other active slope displacements in East Iceland I found more than ten locations of previously unknown slope creep. The most prominent displacements were discovered in Vopnafjörður where the deposit creep shows variations in both displacement rate (up to 1 m/year) and areal extent during the observation period, which further demonstrates the episodic behavior of unstable slopes in East Iceland. INTRODUCTION Numerous unconsolidated slope deposits have been geomorphologically described and catalogued in East, central-North, and several other regions in Iceland (Jónsson, 1976; Guðmundsson, 1990). The origin of these deposits has been a subject of a considerable de- bate during the past decades. Many have interpreted them as being deposits from sudden catastrophic slope failures or rock avalanches (e.g. Þórarinsson, 1959; Jónsson, 1976). In resent years, however, another in- terpretation has been gaining ground that links these deposits to active and inactive ("fossil") rock glaciers (Guðmundsson, 2000). The history of past mor- phological investigations and interpretations has been summarized by Guðmundsson (1995a). After active slope creep was discovered near the towns of Seyðisfjörður and Neskaupstaður in East Ice- land, GPS measurements showed up to 33 cm/year displacement rate in Þófi in Seyðisfjörður and even higher rates above Neskaupstaður (Jensen and Jó- hannesson, 2002; Jensen and Hjartarson, 2002). These GPS results, among other things, led to the initiation of this project focussing on using satellite radar interferometry (InSAR) to study unstable slopes in Iceland, as InSAR has been successfully applied to monitor unstable slopes at many locations around the world (e.g. Fruneau et al., 1996; Rott et al., 1999; Colesanti et al., 2003). The main goals of the project were (1) to investigate the feasibility of InSAR to detect and monitor slope movement in Iceland, (2) 1Now at King Abdullah University of Science and Technology (KAUST), Thuwal, Saudi Arabia (sigurjon.jonsson@kaust.edu.sa) JÖKULL No. 59 89

Qupperneq 1
Qupperneq 2
Qupperneq 3
Qupperneq 4
Qupperneq 5
Qupperneq 6
Qupperneq 7
Qupperneq 8
Qupperneq 9
Qupperneq 10
Qupperneq 11
Qupperneq 12
Qupperneq 13
Qupperneq 14
Qupperneq 15
Qupperneq 16
Qupperneq 17
Qupperneq 18
Qupperneq 19
Qupperneq 20
Qupperneq 21
Qupperneq 22
Qupperneq 23
Qupperneq 24
Qupperneq 25
Qupperneq 26
Qupperneq 27
Qupperneq 28
Qupperneq 29
Qupperneq 30
Qupperneq 31
Qupperneq 32
Qupperneq 33
Qupperneq 34
Qupperneq 35
Qupperneq 36
Qupperneq 37
Qupperneq 38
Qupperneq 39
Qupperneq 40
Qupperneq 41
Qupperneq 42
Qupperneq 43
Qupperneq 44
Qupperneq 45
Qupperneq 46
Qupperneq 47
Qupperneq 48
Qupperneq 49
Qupperneq 50
Qupperneq 51
Qupperneq 52
Qupperneq 53
Qupperneq 54
Qupperneq 55
Qupperneq 56
Qupperneq 57
Qupperneq 58
Qupperneq 59
Qupperneq 60
Qupperneq 61
Qupperneq 62
Qupperneq 63
Qupperneq 64
Qupperneq 65
Qupperneq 66
Qupperneq 67
Qupperneq 68
Qupperneq 69
Qupperneq 70
Qupperneq 71
Qupperneq 72
Qupperneq 73
Qupperneq 74
Qupperneq 75
Qupperneq 76
Qupperneq 77
Qupperneq 78
Qupperneq 79
Qupperneq 80
Qupperneq 81
Qupperneq 82
Qupperneq 83
Qupperneq 84
Qupperneq 85
Qupperneq 86
Qupperneq 87
Qupperneq 88
Qupperneq 89
Qupperneq 90
Qupperneq 91
Qupperneq 92
Qupperneq 93
Qupperneq 94
Qupperneq 95
Qupperneq 96
Qupperneq 97
Qupperneq 98
Qupperneq 99
Qupperneq 100
Qupperneq 101
Qupperneq 102
Qupperneq 103
Qupperneq 104
Qupperneq 105
Qupperneq 106
Qupperneq 107
Qupperneq 108
Qupperneq 109
Qupperneq 110
Qupperneq 111
Qupperneq 112
Qupperneq 113
Qupperneq 114
Qupperneq 115
Qupperneq 116
Qupperneq 117
Qupperneq 118
Qupperneq 119
Qupperneq 120
Qupperneq 121
Qupperneq 122
Qupperneq 123
Qupperneq 124
Qupperneq 125
Qupperneq 126
Qupperneq 127
Qupperneq 128
Qupperneq 129
Qupperneq 130
Qupperneq 131
Qupperneq 132
Qupperneq 133
Qupperneq 134
Qupperneq 135
Qupperneq 136
Qupperneq 137
Qupperneq 138
Qupperneq 139
Qupperneq 140
Qupperneq 141
Qupperneq 142
Qupperneq 143
Qupperneq 144