The Role of Lithospheric Mantle Heterogeneity in the Generation of Plio-Pleistocene Alkali Basaltic Suites from NW Harrat Ash Shaam (Israel)

doi:10.1093/petrology/egl003

Journal of Petrology Advance Access originally published online on March 7, 2006
Journal of Petrology 2006 47(5):1017-1050; doi:10.1093/petrology/egl003

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The Role of Lithospheric Mantle Heterogeneity in the Generation of Plio-Pleistocene Alkali Basaltic Suites from NW Harrat Ash Shaam (Israel)

Y. WEINSTEIN¹^,2^,*, O. NAVON³, R. ALTHERR⁴ and M. STEIN³^,

¹ DEPARTMENT OF GEOGRAPHY, BAR-ILAN UNIVERSITY, RAMAT-GAN 52900, ISRAEL
² DEPARTMENT OF GEOCHEMISTRY, CENTER OF EARTH SCIENCE, UNIVERSITY OF GÖTTINGEN, 37077 GÖTTINGEN, GERMANY
³ INSTITUTE OF EARTH SCIENCES, THE HEBREW UNIVERSITY OF JERUSALEM, JERUSALEM 91904, ISRAEL
⁴ INSTITUTE OF MINERALOGY, UNIVERSITY OF HEIDELBERG, D-69120 HEIDELERG, GERMANY

RECEIVED AUGUST 9, 2004; ACCEPTED JANUARY 11, 2006

Plio-Pleistocene volcanism in the Golan and Galilee (northeasternIsrael) shows systematic variability with time and location:alkali basalts were erupted in the south during the Early Pliocene,whereas enriched basanitic lavas erupted in the north duringthe Late Pliocene (Galilee) and Pleistocene (Golan). The basaltsshow positive correlations in plots of ratios of highly to moderatelyincompatible elements versus the concentration of the highlyincompatible element (e.g. Nb/Zr vs Nb, La/Sm vs La) and indiagrams of REE/HFSE (rare earth elements/high field strengthelements) vs REE concentration (e.g. La/Nb vs La). Some of thesecorrelations are not linear but upward convex. ⁸⁷Sr/⁸⁶Sr ratiosvary between 0·7031 and 0·7034 and correlate negativelywith incompatible element concentrations and positively withRb/Sr ratios. We interpret these observations as an indicationthat the main control on magma composition is binary mixingof melts derived from two end-member mantle source components.Based on the high Sr/Ba ratios and negative Rb anomalies inprimitive mantle normalized trace element diagrams and the moderateslopes of MREE–HREE (middle REE–heavy REE) in chondrite-normalizeddiagrams, we suggest that the source for the alkali basalticend-member was a garnet-bearing amphibole peridotite that hadexperienced partial dehydration. The very high incompatibleelement concentrations, low K content, very low Rb contentsand steep MREE–HREE patterns in the basanites are attributedto derivation from amphibole- and garnet-bearing pyroxeniteveins. It is suggested that the veins were produced via partialmelting of amphibole peridotites, followed by complete solidificationand dehydration that effectively removed Rb and K. The requirementfor the presence of amphibole limits both sources to lithosphericdepths. The spatial geochemical variability of the basalts indicatesthat the lithosphere beneath the region is heterogeneous, composedof vein-rich and vein-poor domains. The relatively uniform ¹⁴³Nd/¹⁴⁴Nd( ${varepsilon}$ Nd = 4·0–5·2) suggests that the two mantlesources were formed by dehydration and partial melting of anoriginally isotopically uniform reservoir, probably as a resultof a Paleozoic thermal event.

KEY WORDS: basanites; lithospheric heterogeneity; magma mixing; amphibole peridotite; pyroxenites

^* Corresponding author. Telephone: 972-54-520-4873. Fax: 972-3-534-4430. E-mail: weinsty{at}mail.biu.ac.il

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