Geochemical, Sr-Nd isotopic and U-Pb zircon study of 1.88 Ga gabbro-wehrlite from north-eastern Singhbhum Craton, India: Vestiges of Precambrian oceanic crust?

Abstract

Dismembered, kilometer-scale slices of gabbroid and serpentinized wehrlite rocks are found emplaced within metapelites of Chaibasa Formation, belonging to the North Singhbhum Mobile Belt, Singhbhum Craton, India. Zircon grains from the gabbroid body yield an average U-Pb crystallization age of 1881.1 ± 8.4 Ma. The undeformed gabbroid body exhibits modal and cryptic layering, and both units exhibit cumulate texture. The presence of dismembered cumulate and layered mafic–ultramafic rocks within a mobile belt assemblage is enigmatic and has potentially far-reaching implications. The gabbroid rocks are moderately evolved with Mg# (100 Mg/Mg + Fe) ranging from 48 to 63, low alkali, TiO2, U, Th, Zr, and high Al2O3, Pb, Ba, Rb, with unfractionated rare earth elements patterns. The serpentinized wehrlite (Mg# 65–71) hosts secondary minerals (clinopyroxene rims, amphibole blebs and interstitial Mg-chlorite) and has LREE enriched rare earth element patterns, which suggest complex fluid-rock interaction history. The gabbroid rocks have 87Sr/86Sr(t) 0.70600–0.71099, 143Nd/144Nd(t) 0.510130–0.510294, and ƐNd(t) 1.8 to −1.4. The serpentinized wehrlite displays extreme enrichment with 87Sr/86Sr(t) 0.71045–0.72640, 143Nd/144Nd(t) 0.509120–0.509706, and almost upper crust-like ƐNd(t) of −9.7 to −21.2. The cumulate nature of the mafic–ultramafic rocks with other petrographical and geochemical evidences suggest formation in a magma chamber. Additionally, their field characteristics, stratigraphic constraints and E-MORB like character of calculated equilibrium melts of the gabbroid rocks, indicates affinity towards formation in an oceanic magma chamber and possible emplacement by obduction. Mineral chemistry, whole-rock geochemistry and clinopyroxene trace elements of the serpentinized wehrlite reveal progressive fluid-rock interaction from very high-temperature to low-temperature regimes, and deep crustal affinity of the modeled metasomatic fluid. Isotopic character of the gabbroid rocks can be explained by 30%-50% mixing between a depleted and an enriched domain in the lithospheric mantle, whereas isotopic nature of the wehrlite has been perturbed by the prolonged metasomatic event. Their occurrence within the Chaibasa intra-continental rift basin indicates rift-drift transition and formation of incipient oceanic crust at 1.88 Ga. A 1.86 Ga orogenic event caused closure of the basin and obduction of these remnant oceanic fragments onto the mobile belt assemblage. This is the first discovery of oceanic crustal fragments in Singhbhum Craton, which fits into the model of rift-dominated tectonics, widespread continental amalgamation, and ophiolite emplacement during the Columbia supercontinent cycle in Paleoproterozoic.