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Petrogenesis of Evolved Basalts and Rhyolites at Austurhorn, Southeastern Iceland: the Role of Fractional Crystallization |
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| Authors: | FURMAN TANYA; FREY FRED A; MEYER PETER S |
| Institution: | 1Department of Environmental Sciences and Virginia Museum of Natural History, University of Virginia, Charlottesville, Virginia 22903 2Department of Earth, Atmospheric and Planetary Sciences, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139 3Woods Hole Oceanographic Institution, Woods Hole, Massachusetts 02543 |
| Abstract: | The Austurhorn intrusive complex in southeastern Iceland representsthe evolved hypabyssal remains of an eroded Tertiary (6–7Ma) central volcano. The complex consists of a layered gabbrointrusion, a composite granophyric stock, and abundant maficand felsic dikes. Mineralogical and geochemical trends amongcontemporaneous, compositionally diverse liquids from the complexprovide insight into the genesis of evolved basalts and rhyolitesin Iceland that are difficult to infer from studies of onlylavas. Mafic and felsic samples have comparable ranges in incompatibletrace element ratios (Ba/La and P/Ce) and Sr- and Pb-isotopes(O'Nions and Pankhurst, 1973; B. Hanan, pers. comm., 1988),suggesting derivation from a common parental composition. Majorand trace element variations throughout the Austurhorn suiteare consistent with fractional crystallization of the observedphenocrysts. Quartz-normative basalts were derived from parentalbasalt containing 7.8 wt.% MgO by extensive low-pressure crystallizationof olivine, augite, plagioclase, magnetite, and ilmenite. Thefractionating assemblage is consistent with the observed mineralogyof associated gabbro. Moreover, the cumulus mineralogy of thegabbro provides evidence for fractionation processes in a compositionalinterval not represented by dikes and sills (i.e., 54–63wt.% SiO2).Diversity among the mafic dikes reflects severaladditional factors: (1) crystallization under conditions ofvariable oxygen fugacity; (2) separate mantle melting eventsthat produce different Ce/Yb values; (3) contamination of somemafic dikes at depth, presumably by interaction with felsicmagmas. Major and trace element trends among most felsic samples canbe modeled by fractionation of the observed mineral phases:plagioclase, K-feldspar, clinopyroxene, ilmenite, apatite, allanite,and zircon. Although crustal melting has been proposed for generatingIcelandic rhyolites, most Austurhorn felsic samples are unlikeliquids derived by melting of hydrated basalts. In particular,apatite and zircon have controlled the abundances of Zr, Hf,and the REE in the felsic rocks, but they are unlikely to beresidual phases during partial melting of basalt. One felsicdike, interpreted as a melt of an evolved source, shows petrographicevidence of in situ anatexis and also has anomalous trace elementabundances and unusually high 206Pb/204Pb. |
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