Differentiation of Mafic Magma in a Continental Crust-to-Mantle Transition Zone

doi:10.1093/petrology/42.1.189

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Journal of Petrology Volume 42 Number 1 Pages 189-206 2001
© Oxford University Press 2001

Differentiation of Mafic Magma in a Continental Crust-to-Mantle Transition Zone

JÖRG HERMANN¹^,*, OTHMAR MÜNTENER¹^, and DETLEF GÜNTHER²^,

¹INSTITUT FÜR MINERALOGIE UND PETROGRAPHIE, ETH ZÜRICH, CH 8092 ZÜRICH, SWITZERLAND
²INSTITUT FÜR ISOTOPENGEOLOGIE UND MINERALISCHE ROHSTOFFE, ETH ZÜRICH, CH 8092 ZÜRICH, SWITZERLAND

The Braccia gabbro complex (Eastern Central Alps, Northern Italy)intruded the boundary between the Adriatic lowermost continentalcrust and the subcontinental upper mantle in Permian times.The gabbro complex consists mainly of gabbro–norites withminor dykes of quartz diorite and Fe–Ti–P-rich diorite.The gabbro–norites contain abundant cumulus clino- andorthopyroxene and only small amounts of olivine, indicatingcrystallization at high pressure ( $~$ 1·0 GPa). Slow, near-isobariccooling of the gabbro erased compositional zoning of major andtrace elements in magmatic minerals. Bulk-rock composition andthe combination of mg-number in pyroxenes and modelling of mineraltrace element data permit us to track the trace element enrichmentin minerals and whole rocks. Some trace element rich gabbrosrepresent frozen liquids, whereas others are cumulates formedfrom highly differentiated residual liquids. Differentiationof the gabbro complex is mainly driven by fractional crystallizationof pyroxenes and plagioclase, resulting in a tholeiitic differentiationtrend. The trace element composition of the parental melt wascalculated from the most primitive pure cumulate found in theBraccia gabbro complex. This parental melt is similar to transitionalmid-ocean ridge basalts, although the Braccia gabbro crystallizedat the base of the continental crust. It is suggested that theparental melt originated from decompression melting of upwellingmantle within the spinel peridotite field. Thus, a thinned lithospherewith a high geothermal gradient existed at the northern partof the African plate in Permian times.

KEY WORDS: differentiation; gabbro; geochemistry; lower crust; mafic underplating

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