F. Pálsson et al. Table 2. Volume (km3) and area (km2) estimated from available maps. All the numbers correspond to the autumn. The ∼1890 LIAmax volume is predicted (see Figure 14).– Vensl flatarmáls og rúmmáls jökulíss í Langjökli. Gögn frá tímabilinu 1937–2004 eru notuð til að áætla rúmmál um 1890 eftir að flatarmál var metið út frá ystu stöðu jökulsins við lok litlu ísaldar. Year LIAmax 1937 1945 1986 1997 2004 V (km3 ice) 248 229 ± 3.5 215 ± 2.5 202 ± 2.5 198 ± 1 188 ± 1 A (km2) 1093 ± 20 1029 ± 15 991 ± 5 937 ± 15 924 ± 15 906 ± 2 volume change the equation results in an approximate linear segment (Figure 14), yielding a LIA maximum volume of Langjökull of 248 km3 (Table 2). 880 920 960 1000 1040 1080 Area (km2) 180 200 220 240 V ol um e (k m 3 ) 1937 1945 1986 1997 2004 1890 Figure 14. Scatter plot of volume and area (from Table 2). The volume for 1890 is predicted from LIAmax area. – Vensl flatarmáls og rúmmáls jökulíss í Langjökli. Gögn frá tímabilinu 1937–2004 eru not- uð til að áætla rúmmál um 1890 eftir að flatarmál var metið út frá ystu stöðu jökulsins við lok litlu ísaldar. Relationship with climate fluctuations The observed volume reduction of Langjökull and the average mass balance deduced from the volume change are compared to the annual mean tempera- ture and precipitation at Stykkishólmur and Hvera- vellir (Figure 15; Table 3). The mass balance esti- mates are in accord with the annual mean temperature at Stykkishólmur averaged over the same time inter- vals (Table 3a, c; correlation r = 0.90). The relation- ship obtained between the average mass balance and the total precipitation is much less (r = 0.36). The first 40 years (from LIAmax to 1937) can be roughly di- vided into three climatic intervals: 1890–1920 slightly warmer (∼0.3◦C at Stykkishólmur) than the latter half of the 19th century (1860–1890), warming up from 1920 to 1925 (by ∼1.5◦C at Stykkishólmur), staying there to 1937 (in fact to ∼1960). Hence from inspec- tion of Figure 14b and c, we suggest that the mass bal- ance was close to zero from 1890 to the first years of the 1920s. The mass balance estimate between 1937 and 1945 is most likely representative for most of the time up to ∼1960 (however, little less negative than the 1937 to 1945 average). It is known that during the cold period of the mid-1960s, the fronts of many out- lets of the ice caps in Iceland were at a standstill or ad- vanced slightly (measurements of the Iceland Glacio- logical Society since the 1930s, semi-annual reports in the society journal, Jökull). In the 1980s and into the 1990s the mass balance was close to zero for the major ice caps in Iceland (e.g. Gudmundsson et al., 2009a, 2011; Adalgeirsdóttir et al., 2006, 2011). Cur- rently Langjökull is losing mass at a fast rate (Table 1; Figures 8, 9 and 15). This is consistent with the warm- ing in Iceland that has taken place since mid 1990s (Figure 15; Björnsson et al., 2005; Jóhannesson et al., 2007). The mass balance sensitivity to temperature is cal- culated for different time intervals (Table 4), using both annual averages as well as summer averages of temperature from Stykkishólmur and Hveravellir. Al- though the estimates are quite variable, the general conclusion is that the sensitivity is close to -2 mwe yr−1K−1 for the coastal station and -1 mwe yr−1 K−1 for the inland station in both cases, slightly higher for 92 JÖKULL No. 62, 2012

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
Qupperneq 145
Qupperneq 146
Qupperneq 147
Qupperneq 148
Qupperneq 149
Qupperneq 150
Qupperneq 151
Qupperneq 152
Qupperneq 153
Qupperneq 154
Qupperneq 155
Qupperneq 156
Qupperneq 157
Qupperneq 158
Qupperneq 159
Qupperneq 160
Qupperneq 161
Qupperneq 162
Qupperneq 163
Qupperneq 164
Qupperneq 165
Qupperneq 166
Qupperneq 167
Qupperneq 168
Qupperneq 169
Qupperneq 170
Qupperneq 171
Qupperneq 172
Qupperneq 173
Qupperneq 174
Qupperneq 175
Qupperneq 176
Qupperneq 177
Qupperneq 178
Qupperneq 179
Qupperneq 180
Qupperneq 181
Qupperneq 182
Qupperneq 183
Qupperneq 184
Qupperneq 185
Qupperneq 186
Qupperneq 187
Qupperneq 188
Qupperneq 189
Qupperneq 190
Qupperneq 191
Qupperneq 192
Qupperneq 193
Qupperneq 194
Qupperneq 195
Qupperneq 196
Qupperneq 197
Qupperneq 198
Qupperneq 199
Qupperneq 200