particular sample are represented horizontally, while vertically the samples are ranked accord- ing to depth. In front of the samples is a column listing all the tephra layers that could be determined. Behind the samples their grad- ing into gravel, sand and silt according to weight percentages is shown. In the figure the stratigraphy in the hole should be discernible. It is most clearly perceivable where the samples Fig. 3. The sieved samples from the drillhole glued to a sheet of pasteboard and arranged according to decreasing grain size from left to right. The first and the last columns show depth in meters. The 2nd column shows classi- fication of ash layers. The 12th column shows histograms for the grain size groups gravel, sand and silt. Mynd, 3. Sigtuð sýnishorn úr borholunni límd á pappspjald. Sýnd er skipting sýnishornanna i liornastcerðarjlokka og greining á öskulögum. contain white pumice. A shade in colour can also be perceived in the most fine-grained group, but there the light colour is due to diatoms in the samples from the 9—16 m depth. The classification of the tephra layers was done by determination of the refraction of plagioclase phenocrysts. The classification of the light pumice layers was performed with the assistance of J. Tómasson geologist, who has investigated the mineralogy of light pumice lay- ers (Tómasson 1967). The classification of the uppermost tephra layer as Laki 1783 was also made with the aid of Tómasson’s examination of the refraction in plagioclase phenocrysts frorn the Laki lava flow. The classification of the three lowest tephra layers is also based on the refraction of plagio- clase phenocrysts. All these layers have very basic phenocrysts of the same type as the plagio- clase phenocrysts in Tungnaá ancl Veidivötn lava flows, i.e. 85—95% anorthite, and the tephra layers can be asserted to originate from the volcanic zone west of the Snjóöldufjallgardur mountain range. They cannot be traced back to definite eruptions within the area, but their age relation to the light tephra layers indicates their being contemporary to lava flows origin- ating in the area. The samples are almost ex- clusively pumice and glass. Singular móberg and basalt grains can be found intermingled. Most of them are of the same nature as the móberg and basalt in Snjóöldufjallgardur (i.e. having big phenocrysts of plagioclase). 3) In the samples from the 9—16 m depth diatoms were also found. J. Jónsson geologist investigated the diatoms of three samples, from 9, 12 and 15 m depth, and some remarks in his report will now be quoted: “— The samples from 9 m and 15 m depth are very rich in diatoms, but the sample from 12 m depth much poorer. The number of species is in itself not great but none the less noteworthy considering the location of the sampling place . . . It may also be pointed out that the individuals in these samples are on the whole remarkably large and mature.” Jónsson’s conclusions are the following: “Juclging from the general re- view, which is now available, I would conclude that it was deposited in a lake, probably rather big, containing comparatively great quantities of nutritive substances. On the other hand the JÖKULL 17. AR 285

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
Síða 93
Síða 94
Síða 95
Síða 96
Síða 97
Síða 98
Síða 99
Síða 100
Síða 101
Síða 102
Síða 103
Síða 104
Síða 105
Síða 106