Petrogenesis of Basanitic to Tholeiitic Volcanic Rocks from the Miocene Vogelsberg, Central Germany

doi:10.1093/petrology/44.3.569

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Journal of Petrology | Volume 44 | Number 3 | Pages 569-602 | 2003
© Oxford University Press 2003

Petrogenesis of Basanitic to Tholeiitic Volcanic Rocks from the Miocene Vogelsberg, Central Germany

P. J. F. BOGAARD^* and G. WÖRNER

GEOWISSENSCHAFTLICHES ZENTRUM GÖTTINGEN, GEORG AUGUST UNIVERSITÄT GÖTTINGEN, GOLDSCHMIDTSTRASSE 1, 37077 GÖTTINGEN, GERMANY

Telephone: +49-(0)551-393971. Fax: +49-(0)551-393982. E-mail: gwoerne{at}gwdg.de

The Miocene Vogelsberg volcano in Central Germany produced maficmagmas ranging in composition from basanite to quartz tholeiiteand limited amounts of evolved magmas. Trace element and Nd,Sr and Pb isotopic compositions reveal the presence of threedistinct mantle sources: (1) a trace element enriched, asthenosphericplume-type source, similar to the European Asthenospheric Reservoircomposition inferred for many other Tertiary volcanic provincesin Central Europe; (2) a depleted mantle source, located inthe lithospheric mantle or uppermost asthenosphere; (3) a veinedlithospheric mantle source. The oldest basanites of the Vogelsbergvolcano have distinctly higher Ti, Al, Sc and V contents thanyounger basanites. These high-Ti basanites may have been producedby partial melting of a veined lithospheric mantle source, formedduring the earliest stages of uplift of the Rhenish Shield, $~$ 70 Myr ago. Younger basanites were generated by small degreesof partial melting of the European Asthenospheric Reservoir,whereas alkali basalts and tholeiites formed by mixing of variableproportions of melts derived from the European AsthenosphericReservoir and depleted mantle sources, respectively. These magmasthen interacted with metasomatized sub-continental lithosphericmantle, which explains the observed range in Sr, Nd and Pb isotopiccompositions. Subsequently the most depleted tholeiites werecontaminated by lower-crustal rocks. The distinct stratigraphicposition of the various lava groups in the 656·5 m ‘ForschungsbohrungVogelsberg 1996’ borehole and the correlation of theirchemical stratigraphy with palaeomagnetic reversals reflectsan episodic temporal evolution of magmas and mantle sources.During Stage I, melts from the veined lithospheric mantle sourcewere pooled in crustal magma chambers and evolved to erupt arange of differentiated lavas. In Stage II melts were formedin the depleted mantle source and up-section gradually mixedwith melts from the asthenospheric mantle. In Stage III thedepleted mantle source was exhausted and pure asthenosphericmelts were erupted.

KEY WORDS: crustal contamination; mantle sources; Sr, Nd and Pb isotopes; temporal evolution of magmas and sources; trace elements; Vogelsberg

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