Emplacement age and isotope geochemistry of Sung Valley alkaline-carbonatite complex, Shillong Plateau, Northeastern India: implications for primary carbonate melt and genesis of the associated silicate rocks

Srivastava, Rajesh K. ; Heaman, Larry M. ; Sinha, Anup K. ; Shihu, Sun (2005) Emplacement age and isotope geochemistry of Sung Valley alkaline-carbonatite complex, Shillong Plateau, Northeastern India: implications for primary carbonate melt and genesis of the associated silicate rocks Lithos, 81 (1-4). pp. 33-54. ISSN 0024-4937

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Official URL: http://www.sciencedirect.com/science/article/pii/S...

Related URL: http://dx.doi.org/10.1016/j.lithos.2004.09.017

Abstract

The early Cretaceous (Albian-Aptian) Sung Valley ultramafic-alkaline-carbonatite complex is one of several alkaline intrusions that occur in the Shillong Plateau, India. This complex comprises calcite carbonatite and closely associated ultramafic (serpentinized peridotite, pyroxenite and melilitolite) and alkaline rocks (ijolite and nepheline syenite). Field relationship and geochemical characteristics of these rocks do not support a genetic link between carbonatite and associated silicate rocks. There is geochemical evidence that pyroxenite, melilitolite and ijolite of the complex are genetically related. Stable (C and O) and radiogenic (Nd and Sr) isotope data clearly indicate a mantle origin for the carbonatite samples. The carbonatite εNd (+0.7 to +1.8) and εSr (+4.7 to +7.0) compositions overlap the field for Kerguelen ocean island basalts. One sample of ijolite has Nd and Sr isotopic compositions that also plot within the field for Kerguelen ocean island basalts, whereas the other silicate-carbonatite samples indicate involvement with an enriched component. These geochemical and isotopic data indicate that the rocks of the Sung Valley complex were derived from and interacted with an isotopically heterogeneous subcontinental mantle and is consistent with interaction of a mantle plume (e.g. Kerguelen plume) with lithosphere. A U-Pb perovskite age of 115.1±5.1 Ma obtained for a sample of Sung Valley ijolite also supports a temporal link to the Kerguelen plume. The observed geochemical characteristics of the carbonatite rocks indicate derivation by low-degree partial melting (~0.1%) of carbonated mantle peridotite. This melt, containing a substantial amount of alkali elements, interacted with peridotite to form metasomatic clinopyroxene and olivine. This process could progressively metasomatize lherzolite to form alkaline wehrlite.

Item Type:Article
Source:Copyright of this article belongs to Elsevier Science.
Keywords:Carbonatite; Silicate Rocks; Sung Valley; India; U-Pb Perovskite Age; Sr and Nd Isotopes; Primary Carbonate Melt; Kerguelen Plume
ID Code:74550
Deposited On:16 Dec 2011 09:35
Last Modified:16 Dec 2011 09:35

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