Geochemical provinciality in the Cretaceous basaltic magmatism of Northern Madagascar: mantle source implications

doi:10.1144/0016-764902-060

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Journal of the Geological Society; 2003; v. 160; issue.3; p. 477-488;
DOI: 10.1144/0016-764902-060
© 2003 Geological Society of London

Original Article

Geochemical provinciality in the Cretaceous basaltic magmatism of Northern Madagascar: mantle source implications

L. Melluso, V. Morra, P. Brotzu, L. Franciosi, A.M.Petteruti Lieberknecht & L. Bennio

Dipartimento di Scienze della Terra, Università di Napoli Federico II, Via Mezzocannone 8, 80134 Naples, Italy (e-mail: melluso@unina.it)

The northern part of the Late Cretaceous flood-basalt provinceof Madagascar is formed by lava flows, dykes and intrusive complexes.These range from tholeiitic to weakly alkaline and have compositionfrom basalts to basaltic andesites (with rare, more evolved,rocks). The magmatic evolution is dominated by low-pressurecrystal fractionation of olivine, Cr-spinel, plagioclase andclinopyroxene. The erupted rocks form two subprovinces, in termsof incompatible element concentrations or ratios and geographicalposition. The mafic and intermediate samples from the westernsubprovince have low abundances of high field strength elements(e.g. Nb 2–9 ppm; Zr 50–230 ppm), negative Nb anomalieson mantle-normalized diagrams, and a wide range of initial (88Ma) ¹⁴³Nd/¹⁴⁴Nd (0.51293–0.51197; ${epsilon}$ Nd +7.9 to –10.9).These elemental and isotopic variations are compatible withmelting of predominantly N-MORB-like mantle and variable low-pressurecrustal contamination. The mafic samples of the eastern subprovinceare mildly enriched in incompatible elements (e.g. Nb 6–25ppm; Zr 109–330 ppm), with the highest values found intholeiites from the east Mahajanga basin, Tampoketsa Kamoreenand Tamatave. They also have a comparatively narrow range ofinitial ¹⁴³Nd/¹⁴⁴Nd (0.51276–0.51258; ${epsilon}$ Nd +5.1 to +1.0),consistent with derivation from incompatible element enrichedmantle sources and minor subsequent crustal contamination. Themarked differences in the chemical and isotopic characteristicsof the samples imply variable degrees of partial melting ofhotter than normal, chemically heterogeneous, mantle sourcesat pressures where spinel to garnet are residual phases. Noclear evidence is seen for a chemical component similar to thatrepresented at present by the Marion hotspot lavas.

Key Words: northern Madagascar • large igneous provinces • magmas • flood basalts • geochemistry

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