Jökull


Jökull - 01.06.2000, Síða 54

Jökull - 01.06.2000, Síða 54
Magnús T. Guðmundsson mýri (Trausti Jónsson, personal comm., 1998). For comparison with the meteorological stations it is assu- med here that winter accumulation starts in Septem- ber. This is reasonable for the highest parts of Vatna- jökull, although 1 October may better deíine the start of the balance year for the lower and medium elevati- ons (Björnsson et al. 1998). The ratio of observed mass balance at Öræfajökull and the precipitation at Kvísker (from 1 September in the previous year until the date of measurement at Öræfajökull) varies from l. 9 to 2.4 with a mean of 2.12 (Table 1 and Figure 3). PRECIPITATION ON ÖRÆFAJÖKULL It is of some interest to consider how well the obser- ved mass balance values correspond to precipitation and use the data to estimate the annual precipitation on the summit plateau of Öræfajökull. Mass balance data fróm Vatnajökull (Björnsson et al. 1998) suggest that in winter no mass should be lost by melting at 1800 m elevation. However, there are several factors that may bias the measurements. Firstly, snowdrift may cause systematic variations if a net transport of snow occurs from the summit plateau onto the slopes on either side. Secondly, summer ablation may remove mass from the annual layer. Thirdly, some of the summer precipitation may fall as rain and seep through the annual layer. All the above factors would cause the observed mass balance to be lower than the true precipitation. The significance of snowdrift at the observation site has not been measured but considering that the summit plateau is very flat and has width of a few ki- lometers, the net removal of snow is probably small. For comparison, Föhn (1980) found that snowdrift- induced variations in snow depth were confined to 200 m wide region on either side of a mountain ridge crest in the Alps. At an elevation of 1800 m, the summer balance is usually positive on Vatnajökull (Björnsson et al., 1998). Some summer melting usually occurs at 1800 m, however, and occasionally precipitation may fall as rain. Thus, it is to be expected that summer precipitati- on is greater than summer balance. Loss of mass by summer ablation and seepage through the annual layer is unlikely in 1993 since the lower part of the core was still frozen at the time of measurement. The same app- lies to the June measurements (1995,1996 and 1998). In 1994 some mass loss during summer may have occurred. However, the ratio of mass balance at Ör- æfajökull and the precipitation at Kvísker in 1994 is about the same as for the other years in question, sug- gesting that possible losses were comparatively small. Moreover, some of the ablation and rainfall in summer refreezes within the annual layer. This can be seen by higher density of the summer/autumn cores which is partly caused by increased thickness and number of ice lenses compared with the spring (June) cores. Data from 1996 indicate some mass loss by sum- mer ablation and seepage of rain through the annual layer. A stake was left in place in June, and a reading taken on 1 October after an unusually warm Sept- ember. The stake readings indicate a positive sum- mer balance of 600 mm (water equivalent) while the estimated summer precipitation for 1996 is 1280 mm (Table 2). In Table 2 an estimate is given for the precipitati- on on the summit plateau of Öræfajökull between the time of measurement of mass balance and the end of the balance year (September lst). This period ranges from 0 days (1993-1994) to 80 days (1994-1995 and 1995-1996). The Öræfajökull precipitation is assumed to be 2.12 times the observed precipitation at Kvísker for the same period. Thus, a minimum estimate of the annual precipitation at Öræfajökull is obtained, rang- ing from 7450 mm (1995-1996) to 7800 mm (1997- 1998), similar to the observed annual net balance in 1993-1994. When compared with other data on precipitati- on and glacier mass balance in Iceland, the values obtained at Öræfajökull are higher than previously reported. However, the values reported for Mýrdals- jökull in south Iceland are of similar magnitude. Ey- þórsson (1945) observed an annual layer thickness of 785 cm at about 1300 m a.s.l. in early Aug- ust 1944 when melting was well advanced, and Rist (1957) measured a winter balance of 5800 mm at 1350 m a.s.l. in June 1955. These values are only slig- htly lower than those presented here for Öræfajökull. Thus, it is likely that precipitation at Mýrdalsjökull is similar to that observed at Öræfajökull. 52 JÖKULL No. 48
Síða 1
Síða 2
Síða 3
Síða 4
Síða 5
Síða 6
Síða 7
Síða 8
Síða 9
Síða 10
Síða 11
Síða 12
Síða 13
Síða 14
Síða 15
Síða 16
Síða 17
Síða 18
Síða 19
Síða 20
Síða 21
Síða 22
Síða 23
Síða 24
Síða 25
Síða 26
Síða 27
Síða 28
Síða 29
Síða 30
Síða 31
Síða 32
Síða 33
Síða 34
Síða 35
Síða 36
Síða 37
Síða 38
Síða 39
Síða 40
Síða 41
Síða 42
Síða 43
Síða 44
Síða 45
Síða 46
Síða 47
Síða 48
Síða 49
Síða 50
Síða 51
Síða 52
Síða 53
Síða 54
Síða 55
Síða 56
Síða 57
Síða 58
Síða 59
Síða 60
Síða 61
Síða 62
Síða 63
Síða 64
Síða 65
Síða 66
Síða 67
Síða 68
Síða 69
Síða 70
Síða 71
Síða 72
Síða 73
Síða 74
Síða 75
Síða 76
Síða 77
Síða 78
Síða 79
Síða 80
Síða 81
Síða 82
Síða 83
Síða 84
Síða 85
Síða 86
Síða 87
Síða 88
Síða 89
Síða 90
Síða 91
Síða 92

x

Jökull

Beinleiðis leinki

Hvis du vil linke til denne avis/magasin, skal du bruge disse links:

Link til denne avis/magasin: Jökull
https://timarit.is/publication/1155

Link til dette eksemplar:

Link til denne side:

Link til denne artikel:

Venligst ikke link direkte til billeder eller PDfs på Timarit.is, da sådanne webadresser kan ændres uden advarsel. Brug venligst de angivne webadresser for at linke til sitet.