m y. 5. m y.S. Fig. 4. Section along A—B in Fig. 5. — a, scar lel't on the niountain side, removed rock; ax, removecl ice, moraine and talus; b, heap of rock debris; c, sheet of debris, consisting of rock ancl ice, covering the glacier; c,, wall of ice blocks marking the border of the hlaup track; cl, new cliff formed by the rockslide; d,, slide plane; e, glacier; /, scree, deposited gradually after the rockslide; g, the mountain slope before the rockslide; m y. s., m above sea level, true scafe. 4. mynd. Snið yfir Steinsholtsjökul milli Innstahauss (t. h.) og Skaratungna (t. v., A—B á 5. mynd). — a: brotsár í bergi; a,: brotsár i jökulís, ruðningi og skriðu; b: hrunurð; c: hlaupurð, grjót og is; c^: hrönn á hlaupmörkum; d: hrunstál; dj: skriðflötur; e: skriðjökull; f: skriðufót- ur, myndaður eftir frarnhlaupið; g: fjallshliðin fyrir hrun. rockslide the hiclden lower part of the slide plane continues in nearly horizontal direction at least 30 m below the surface of the glacier. The overlying layer of ice was removed by the rockslide and incorporated in the hlaup clebris farther down. The scar left in the glacier was first after the rockslide bounded on the south side by a vertical wall of ice, rising up to 30 m above the rock debris, that concealed the bottoni of the scar at the foot of the ice wall. During the spring and summer of 1967 the ice wall became gradually pushed forward by the moving gla- cier and cleformed by its melting. The volume of ice removed frorn the glacier is roughly estimated as no less than 10° m3. Most of the rock tlebris carne to rest at the foot of the scarp on the mountain side, where it forms a very rugged heap consisting of an- gular rock fragments of all sizes up to tens of metres across and covering an area of 280,000 m2. The front part of the heap, probably less than half of it, rests on the glacier. The highest ridges and peaks of the heap of debris rise more than 50 m above the surface of the gla- cier, but as there is insufficient indication of the position of its base, its volurne cannot be estimated with any degree of certainty. In all probability it is considerably less than the vol- ume of the scar on the mountain side. Innstihaus ancl the rockslide debris, as well as the whole of Steinsholt, consists of volcanic rocks of late Pleistocene age. The most common rock is móberg, or liyaloclastite, com- posed of rather fine-grained, hardened volcanic ashes and mud, possibly deposited in glacial water. A rough stratification is discernible on the new scarp formecl by the rockslide. The layers dip about 8° north or almost at right angle to the direction of the sliding. The sum- mit of the mountain, however, consists of heavily jointed crystalline basalt. In spite of its relative hardness, this rock evidently disinte- grated much more than did the móberg during thc transport as all the largest boulders found far down in the track of the hlaup consist of the latter. SECOND PHASE: FRAGMENTED ROCK AND ICE MIXED WITH WATER, LAUNCHED BY COMPRESSED AIR A considerable part of the rock debris, bc- sides all the ice removed front the surface of 252 JÖKULL 17. ÁR

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