102 PÁLL IMSLAND high in AI2O3 (12.29 per cent), extremely high in FeO1 (28.05 per cent), but low in MgO (1.66 percent),CaO (3.71 per cent) and SiOz (36.26 per cent). Another point (5), also close to a clinopyroxene crystal, is much higher in Si02 (43.88 per cent), MgO (6.22 per cent) and CaO (15.36 per cent) but lower in F’eOt (11.12 per cent). A point between two olivine crystals (11) is relatively high in FeO1 (20.20 per cent), A1203 (13.24 per cent) and CaO (9.86 per cent) but low in MgO (2.48 per cent). The glass is thus not systematically depleted in the elements the adjacent minerals take up from the liquid during crystallization and is therefore clearly not a residual liquid. This view is supported by the non-cumulus allotriomorphic texture of unzoned minerals in the gabbro. On the other hand the analyses show the glass to be rich in the elements of the adjacent minerals in many cases, as e.g. the high A1 and Ca contents in analyses 2 (close to a plagioclase) given above. The glass of the xenolith is thus most probably the quenched liquid produced by the first remelting of the gabbro. The gabbro contains ilmenite- magnetite grains of composite intergrowths. Temperature estimates for the crystallization of these (obtained by extrapolation of Buddington & Lindsleys’ (1964) hematite curves) gives 1050°C. The temperature of sepa- rate ilmenite-titanomagnetite microphenocrysts in the basalt, where the gabbro xenolith occurs, is 1060—1080°C. The temperature of the basic magma containing the xenolith is thus apparently higher than the crys- tallization temperature of the oxides of the xenolith. The generally high A1 and Ca contents of the glass analyses and the high Fe and Ti in most of the analyses indicate that the remelting was primarily at the expense of the plagioclase and iron-titanium oxides. Mg in the glass is mostly low, but the iron-titanium oxides of the gabbro contain 4 to 9 per cent MgO. Thus it seems that the clinopyroxene and olivine have contri- buted relatively little to the liquid composition, even though glass occurs at the boundaries of these minerals. The P content of the glass as well as K, is high in some of the analyses, indicating that an intergranular film contain- ing these elements was present in the gabbro before the remelting started. The great range of P205 (0.06 to 1.15 per cent) in the analyses might indicate that this film was discontinuous or even that P was retained in minute apatite crystals. This is supported by the presence of the vesicles, which result from the volatile expansion. If, in fact, the clinopyroxene and olivine crystals have contributed little to the liquid, the glass film found at grain boundaries of these minerals must have, at least partly, moved into these intergrain channels from the site of generation. In this case the distance is on a mm scale only. The heter- ogeneity of the glass is thus the result of a simultaneous melting of minerals of different compositions, a disequilibrium or incongruent melting, yielding liquids which not have had the time or opportunity to mix or homogenize. Small amounts of light brown glass occur in the hydrous mineral xenolith. Kaersutitic amphibole, biotite and plagioclase crystals show corrosion

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