Petrogenetic Evolution of the Torfajökull Volcanic Complex, Iceland I. Relationship Between the Magma Types

The Torfaj�kull volcano, Iceland's largest silicic centre, is situated close to the junction of the active, southerly propagating Eastern Rift Zone and the South Eastern Zone, an older crustal segment. This paper provides major, trace, and some Sr isotope data on postglacial (<10000 y) rocks...

Full description

Bibliographic Details
Published in:Journal of Petrology
Main Authors: MACDONALD, R., McGARVIE, D. W., PINKERTON, H., SMITH, R. L., PALACZ, A.
Format: Text
Language:English
Published: Oxford University Press 1990
Subjects:
Online Access:http://petrology.oxfordjournals.org/cgi/content/short/31/2/429
https://doi.org/10.1093/petrology/31.2.429
Description
Summary:The Torfaj�kull volcano, Iceland's largest silicic centre, is situated close to the junction of the active, southerly propagating Eastern Rift Zone and the South Eastern Zone, an older crustal segment. This paper provides major, trace, and some Sr isotope data on postglacial (<10000 y) rocks, i.e., tholeiitic magmas of the Eastern Rift Zone and transitional basalts, icelandites, and rhyolites of the Torfaj�kull centre, and assesses the relationships between the magma types in terms of the development of the Icelandic crust. Tholeiitic magmas from the Eastern Rift Zone are LILE-enriched relative to MORB. They have undergone extensive olivine-plagioclase-clinopyroxene fractionation at low pressures. Compared with the tholeiites, Torfaj�kull transitional basalts show LILE/HFS enrichment and higher (87Sr/86Sr) 1 ratios. They define several magmatic lineages and have equilibrated over a wide range of pressures. Both basalt types were derived by very small degrees of partial melting of compositionally similar mantle sources, the main difference being that the tholeiites were generated in the spinel Iherzolite, and the transitional basalts in the garnet lherzolite, stability fields, a conclusion previously reached by Meyer et al . (1985). The mantle sources may have contained LILE-enriched streaks. Low-pressure differentiation of Torfaj�kull transitional basalt produced an iceiandite to sub-alkaline rhyolite sequence by crystal fractionation, the rhyolites representing >90% crystallization of parental basalts. The rhyolites were emplaced as nine separate lava fields, formed during 11 eruptive episodes. The compositional range within each field is limited, and, although similar, the ranges define several magmatic lineages. Continued fractionation of plagioclase-alkali feldspar-clinopyroxene-magnetite-apatite-zircon assemblages generated peralkaline rhyolites in certain post-glacial eruptions. Chemical variations in the deposits from the Hrafntinnusker peralkaline eruption were related predominantly to alkali ...