期刊
INTERNATIONAL JOURNAL OF EARTH SCIENCES
卷 99, 期 3, 页码 545-565出版社
SPRINGER
DOI: 10.1007/s00531-008-0406-0
关键词
Diorite; Redwitzite; Slavkovsky ' les; Variscan magmatism; Zircon dating; Gravity measurements; Magma mixing
资金
- Ministry of Education, Youth and Sports [205/02/0458, 205/05/0156]
Mafic and intermediate intrusions occur in the SlavkovskA1/2 les as dykes, sills and minor tabular bodies emplaced in metamorphic rocks or enclosed in late Variscan granites near the SW contact of the Western Krun, hory/Erzgebirge granite pluton. They are similar in composition and textures to the redwitzites defined in NE Bavaria. Single zircon Pb-evaporation analyses constrain the age of a quartz monzodiorite at 323.4 +/- A 4.4 Ma and of a granodiorite at 326.1 +/- A 5.6 Ma. The P-T range of magma crystallization is estimated at similar to 1.4-2.2 kbar and similar to 730-870A degrees C and it accords with a shallow intrusion level of late Variscan granites but provides lower crystallization temperatures compared to the Bavarian redwitzites. We explain the heterogeneous composition of dioritic intrusions in the SlavkovskA1/2 les by mixing between mafic and felsic magmas with a minor effect of fractional crystallization. Increased K, Ba, Rb, Sr and REE contents compared to tholeiitic basalts suggest that the parental mafic magma was probably produced by melting of a metasomatised mantle, the melts being close to lamprophyre or alkali basalt composition. Diorites and granodiorites originated from mixed magmas derived by addition of about 25-35 and 50 vol.%, respectively, of the acid end-member (granite) to lamprophyre or alkali-basalt magma. Our data stress an important role of mafic magmas in the origin of late Variscan granitoids in NW Bohemian Massif and emphasize the effect of mantle metasomatism on the origin of K-rich mafic igneous rocks.
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