Fig. 13. a) A schematic picture of the distribu- tion of pj and P in the Grímsvötn region (see the defination of p^ and P in the text). The closed area represents the subglacial lake. The lake is sur- rounded by a barrier. The width of the barrier is smallest at the south- east side of the lake. The reason for this is that the glacier surface lies above the Grimsvötn level north of the lake but be- low the Grímsvötn level south of the lake, see Figs. 6 and 14. b) A map showing the evidence of Fig. 13 a. The map gives the distri- bution of Pj and P around Grímsvötn when the water level in the lake has risen 100 m (up to the 1430 m elevation). The values for p4 and P are derived frorn the map of the average elevation of the glacier bed (Fig. 7). According to the average values for p4 and P, there is still a narrow seal sout-east of the lake. ít is suggested that the route of the jökulhlaup lies close to the line ABCDEF. Mynd 13. Kort af Grímsvatnasvœðinu. Kortið sýnir meðalgildi fyrir bceði farg jökulsins (pþ) og hugsanlegan vatnsprýsting (P) við botn jökulsins, þegar hæst er i Grímsvötnum. Samkvœmt þessari mynd ættu vötnin enn að vera lokuð. Myndin sýnir hins vegar ekki frávik i pt og P, sem stafa af skorningum i botni jökulsins austur af Grimsvötnum. Einnig má vcenta þess, að sveiflur verði í pt við hreyfingu jökulsins, t. d. árssveiflur. Sveiflur og frávik frá meðalgildum á kortinu gcetu skýrt, hvers vegna hlaup hefst, þegar vatnsborð Grimsvatna hefur risið um 100 m. area which subsided during the exceptional jökulhlaup in 1938 (Fig. 9 and p. 22) and would include the cauldrons immediately to the west of the present water divide. These cauld- rons have drained water by jökulhlaups to the river Skaftá (Fig. 1) since 1955 but previously this water was presumably drained to Gríms- vötn (Björnsson, in press). No accurate measurements have been carried out on the heat flux of any high-thermal area in Iceland but Bödvarsson (1961) estimates Q = 6.5 • 1010 J/yr for the Torfajökull area (Ag = 100 km2), which gives a heat flux density iþ = 20 W/m2. The present estimate of Q = 1.5 • 1017 J/yr is about twice the total energy flux estimated for the Torfajökull area, which so far has been considered the strongest geo- thermal area in Iceland. If one accepts both esti- mates the conclusion would be that the Gríms- vötn geothermal area is of the same extent as JÖKULL 24. ÁR 1 7

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