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Tertiary Ultrapotassic Volcanism in Serbia: Constraints on Petrogenesis and Mantle Source Characteristics
Authors:PRELEVIC  D; FOLEY  S F; ROMER  R L; CVETKOVIC  V; DOWNES  H
Institution:1 FACULTY OF MINING AND GEOLOGY, UNIVERSITY OF BELGRADE, DJUSINA 7, 11000 BELGRADE, SERBIA & MONTENEGRO
2 INSTITUTE OF GEOLOGICAL SCIENCES, UNIVERSITY OF MAINZ, BECHERWEG 21, 55099 MAINZ, GERMANY
3 GEOFORSCHUNGSZENTRUM POTSDAM, TELEGRAFENBERG, D-14473 POTSDAM, GERMANY
4 SCHOOL OF EARTH SCIENCES, BIRKBECK COLLEGE, MALET STREET, LONDON WC1E 7HX, UK
Abstract:The Serbian province of Tertiary ultrapotassic volcanism isrelated to a post-collisional tectonic regime that followedthe closure of the Tethyan Vardar Ocean by Late Cretaceous subductionbeneath the southern European continental margin. Rocks of thisprovince form two ultrapotassic groups; one with affinitiesto lamproites, which is concentrated mostly in the central partsof the Vardar ophiolitic suture zone, and the other with affinitiesto kamafugites, which crops out in volcanoes restricted to thewestern part of Serbia. The lamproitic group is characterizedby a wide range of 87Sr/86Sri (0·70735–0·71299)and 143Nd/144Ndi (0·51251–0·51216), whereasthe kamafugitic group is isotopically more homogeneous witha limited range of 87Sr/86Sri (0·70599–0·70674)and 143Nd/144Ndi (0·51263–0·51256). ThePb isotope compositions of both groups are very similar (206Pb/204Pb18·58–18·83, 207Pb/204Pb 15·62–15·70and 208Pb/204Pb 38·74–38·99), falling withinthe pelagic sediment field and resembling Mesozoic flysch sedimentsfrom the Vardar suture zone. The Sr and Nd isotopic signaturesof the primitive lamproitic rocks correlate with rare earthelement fractionation and enrichment of most high field strengthelements (HFSE), and can be explained by melting of a heterogeneousmantle source consisting of metasomatic veins with phlogopite,clinopyroxene and F-apatite that are out of isotopic equilibriumwith the peridotite wall-rock. Decompression melting, with varyingcontributions from depleted peridotite and ultramafic veinsto the final melt, accounts for consistent HFSE enrichment andisotopic variations in the lamproitic group. Conversely, themost primitive kamafugitic rocks show relatively uniform Srand Nd isotopic compositions and trace element patterns, andsmall but regular variations of HFSE, indicating variable degreesof partial melting of a relatively homogeneously metasomatizedmantle source. Geochemical modelling supports a role for phlogopite,apatite and Ti-oxide in the source of the kamafugitic rocks.The presence of two contrasting ultrapotassic suites in a restrictedgeographical area is attributable to the complex geodynamicsituation involving recent collision of a number of microcontinentswith contrasting histories and metasomatic imprints in theirmantle lithosphere. The geochemistry of the Serbian ultrapotassicrocks suggests that the enrichment events that modified thesource of both lamproitic and kamafugitic groups were relatedto Mesozoic subduction events. The postcollisional environmentof the northern Balkan region with many extensional episodesis consistent at regional and local levels with the occurrenceof ultrapotassic rocks, providing a straightforward relationshipbetween geodynamics and volcanism. KEY WORDS: kamafugite; lamproite; Mediterranean; Serbia; mantle metasomatism; veined mantle; petrogenesis
Keywords:: kamafugite  lamproite  Mediterranean  Serbia  mantle metasomatism  veined mantle  petrogenesis
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