Surge fingerprinting of cirque glaciers Figure 10. Landsystems model for small surge-type cirque glaciers in Iceland, inspired from an overall landsys- tems model for surging glaciers, (Evans and Rea, 1999; 2003). Distal zone, terminal moraine is formed of pre-surge sediment and dump of sediment of the surge front. The moraines are often small, and hummocky moraine often continues from their proximal slope. Proximal zone, it extends from the terminal moraine on to the glacier margin, dead-ice and hummocky moraine are often widespread with occurrence of landforms such as crevasse-fill ridges, backslump niches, medial moraines, and flutes. 1) glacier snout 2) rocks and sediment 3) basaltic bedrock 4) subglacial sediment 5) supraglacial and englacial sediment 6) dead-ice 7) terminal moraine 8) hummocky moraine 9) crevasse-fill ridge 10) medial moraine 11) flute. – Landmótunarlíkan fyrir framhlaup skálar-/hvilftarjökla á Íslandi. Líkaninu er skipt í innra svæði og ytra svæði þar sem ýmis landform finnast. 1) jökuljaðar 2) grjót og set 3) berggrunnur 4) set undir jökli 5) set á og í jökli 6) dauðís 7) endagarður 8) haugaruðningur 9) sprungufyllingar 10) urðarranar 11) jökulkembur. Proximal zone: Coarse and angular sediment is prominent with numerous boulders on the surface. Hummocky moraine is prevalent, sometimes contin- uing from the distal zone. Small-scale crevasse- fill ridges occur scattered in the area. Crevasse-fill ridges are considered to be representative for surge- type glaciers (Sharp, 1985a, 1985b, 1988b; Evans and Rea, 1999). Such ridges are preserved because the marginal zone of surge-type glaciers is usually stag- nant after a surge terminates. As the stagnant ice melts down, the ridges are preserved. In front of Búr- fellsjökull and Teigarjökull well defined crevasse-fill ridges occur randomly in the proximal area. They re- late mainly to drift formations from the 1900s; how- ever some indistinct ridges occur on the surface of older drift sheets, indicating poor preservation poten- tial. The abundance of supraglacially and englacially transported debris can in some cases bury or obscure crevasse ridges. Boulder trains or medial moraines can be traced from the ablation zone of the glacier into the forefield. Occasionally, flutes occur in the in- ner zone. Dead-ice and associated landforms are com- mon, particularly in the younger drift sheets. The landsystems model from the Tröllaskagi peninsula (Figure 10) describes the geomorphology of surge-type cirque glaciers in alpine environments. The lowland surge-type glacier landsystem model by Evans and Rea (1999, 2003) does not cover alpine en- vironments. The present study shows that this geo- morphological environment is not as diverse in sed- iments and landforms as the forefields of the larger surge-type glaciers in Iceland, as it lacks e.g. most glaciofluvial landforms that characterize the surging glacier landsystem (pitted sandar, concertina eskers). The alpine surge-type glacier landsystem has, how- ever, unique fingerprinting in the sheet-like geome- try of surge debris that is defined by the clear hum- mocky terrain linking to the proximal sides of ter- minal moraines. Crevasse-fill ridges and hummocky moraine predominates the proglacial area in front of the surge-type cirque glaciers in Tröllaskagi, whereas annual moraines only occur in front of the non-surge JÖKULL No. 62, 2012 163

Side 1
Side 2
Side 3
Side 4
Side 5
Side 6
Side 7
Side 8
Side 9
Side 10
Side 11
Side 12
Side 13
Side 14
Side 15
Side 16
Side 17
Side 18
Side 19
Side 20
Side 21
Side 22
Side 23
Side 24
Side 25
Side 26
Side 27
Side 28
Side 29
Side 30
Side 31
Side 32
Side 33
Side 34
Side 35
Side 36
Side 37
Side 38
Side 39
Side 40
Side 41
Side 42
Side 43
Side 44
Side 45
Side 46
Side 47
Side 48
Side 49
Side 50
Side 51
Side 52
Side 53
Side 54
Side 55
Side 56
Side 57
Side 58
Side 59
Side 60
Side 61
Side 62
Side 63
Side 64
Side 65
Side 66
Side 67
Side 68
Side 69
Side 70
Side 71
Side 72
Side 73
Side 74
Side 75
Side 76
Side 77
Side 78
Side 79
Side 80
Side 81
Side 82
Side 83
Side 84
Side 85
Side 86
Side 87
Side 88
Side 89
Side 90
Side 91
Side 92
Side 93
Side 94
Side 95
Side 96
Side 97
Side 98
Side 99
Side 100
Side 101
Side 102
Side 103
Side 104
Side 105
Side 106
Side 107
Side 108
Side 109
Side 110
Side 111
Side 112
Side 113
Side 114
Side 115
Side 116
Side 117
Side 118
Side 119
Side 120
Side 121
Side 122
Side 123
Side 124
Side 125
Side 126
Side 127
Side 128
Side 129
Side 130
Side 131
Side 132
Side 133
Side 134
Side 135
Side 136
Side 137
Side 138
Side 139
Side 140
Side 141
Side 142
Side 143
Side 144
Side 145
Side 146
Side 147
Side 148
Side 149
Side 150
Side 151
Side 152
Side 153
Side 154
Side 155
Side 156
Side 157
Side 158
Side 159
Side 160
Side 161
Side 162
Side 163
Side 164
Side 165
Side 166
Side 167
Side 168
Side 169
Side 170
Side 171
Side 172
Side 173
Side 174
Side 175
Side 176
Side 177
Side 178
Side 179
Side 180
Side 181
Side 182
Side 183
Side 184
Side 185
Side 186
Side 187
Side 188
Side 189
Side 190
Side 191
Side 192
Side 193
Side 194
Side 195
Side 196
Side 197
Side 198
Side 199
Side 200