Structural evolution of the 1890 Brúarjökull end moraine Table 1. Sedimentary facies identified in the 1890 end moraine in Kringilsárrani. – Setásýndir í jökulgarðinum frá 1890 í Kringilsárrana. Facies Location and description Interpretation References F1 Section 1 – up to 60 cm thick but discontinuous massive, silty-sandy to sandy, matrix- supported, clast-rich, friable diamict. Contact to underlying facies 2 is sharp and possibly erosional. Clasts are <10 cm with similar shapes as in underlying facies 2 and rare or non-preferred striae orientation. The diamict interfingers with facies 4. Till – pre-surge till of unknown age, deposited at the interface between the ice and an under- lying sandur surface (facies 2). Clasts from the sandur were incorporated into the diamict in a deforming-bed. Eyles et al., 1983; Krüger and Kjær, 1999; Benn and Evans, 2010. F2 Section 1 – massive, clast-supported gravel, with pebbles of 3–8 cm although outsized pebbles of 15–20 cm occur. Clasts are sub-rounded to rounded, elongated in shape and often imbricated. Sandur – deposited prior to the 1890 surge during moderate meltwater discharge. Represents a low-lying terrace formed during a down-cutting of the Kringilsá river. Genesis is evident from the surface morphology of sandur terraces around the section. Maizels, 1993; Benn and Evans, 2010. F3 Section 2 – faintly stratified, dark-brown, dark-gray and ligh-brown layers of fine to coarse sand, interbedded with thin (1-10 mm) silty layers of facies 4 and containing some organic matter (which is often rusty and give yellowish hue). Contacts to facies 4 are sharp, erosive and defined by normal faults on distal side. Shallow pond or stream sediments – resemble sediments found in channels and circular lakes (collapsed palsas) proximal and distal to section 2, respectively, where organic matter is abundant. French, 1996; Maizels, 2002. F4 Sections 0–4 – 0.1–2 cm thick clay, silt and fine-sand laminae of yellowish to orange and red-brown peat and light-brown to dark-brown loess interbedded with tephra. Laminae thickness and strength varies greatly within different tectonic regimes. The facies constituents are totally mixed in places. Contacts between laminae are usually sharp but may be gradational. Loess-peat-tephra sequence (LPT) – cohesive sequence of loess, peat and tephra. Peat formed from the submergence of vegetated terrain (mosses and grasses) during loess aggradation. The vertical accretion of loess and peat was frequently interrupted by depostion of tephra. The sequence was formed prior to the 1890 surge. Brady and Weil, 1999. F5 Sections 0–4 – generally 0.5–3 cm thick layers of black basaltic and white to yellowish rhyolithic tephra with <2 mm angular grains. Thickness varies grately and is the most (<10 cm) in association with folds. The tephra either occurs in continuous or discontinuous layers, or as pathces or lenses, particularly within facies 4. Tephra – primary air-fallen (not redeposited), transported by wind from various Icelandic volcanoes. White tephra marker is from Öræfajökull AD1362. minor meltwater outlet of the 1890 surge (Figure 3). In this area, the 1890 end moraine is generally 70 m wide and 10 m high with a steep frontal slope and a hummocky backslope. However, the particular ridge segment in which section 0 occurs is 15–20 m wide and approximately 5 m high. Section 0 is 3 m wide and 2.7 m high and covers the core of the ridge but is orientated at a 45◦ angle to the ridge strike (Figure 3). Two sediment facies were identified in the sec- tion: deformed LPT (F4) and tephra (F5) (Table 1). The section is described from bottom up. The base of the section, i.e. the lowermost ∼80 cm, is characterized by sub-horizontal, continuous tephra layers and LPT beds which develop upwards into discontinuous lenses and patches as they ap- proach the core of a north-verging recumbent syn- cline. This is signified by the white Öræfajökull AD 1362 tephra marker. The core of the fold contains oc- casional tectonic foliation. The upper limb of this syn- cline forms the lower limb of a north-verging recum- bent anticline, as revealed by the LPT beds and tephra layers which are overall thin on the limbs but thicken JÖKULL No. 62, 2012 171

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