Abstract

Sedimentary rocks preserve the geological history of a basin and play a key role in constraining the palaeogeography. The Mesozoic Kutch Basin (India) comprises a number of sub-basins representing a pericratonic rift formed during the break-up of Gondwanaland. It preserves sediment deposited during the rifting and drifting of the Indian subcontinent. The current study identifies evidence of provenance changes recorded in Mesozoic sandstone units using a multi-proxy approach of quantitative modal analysis, quantitative heavy-mineral analysis and garnet chemistry. The Mesozoic sedimentary successions in the sub-basins are classified as the Kutch Mainland Group (KMG), the Pachchham Island Group (PIG) and the Eastern Kutch Group (EKG). Although the sub-basins are thought to share sediment from common source areas and the sandstone units are highly mature quartz arenites, the heavy-mineral assemblages (especially the content of zircon, tourmaline, rutile, apatite and staurolite) indicate previously unreported variation in the sediment source for the PIG when compared to the KMG and EKG. Moreover, an increase in the content of staurolite and kyanite in combination with rising trends of the ratios of staurolite–kyanite and zircon–tourmaline–rutile over garnet (St + Ky/Grt and ZTR/Grt) for the Callovian and younger strata is observed in the KMG and EKG. The above indicates a change in source from the older to the younger strata in each of the two sub-basins. The absence of their coeval strata in the PIG gives credence to the previously postulated rise of a subsurface basement high, the Median High in this basin. However, the timing of the rise remained so far unspecified, mentioned as “later in Jurassic” (Biswas, 2016b). The observations made in the current study constrain the rise of the Median High in the Kutch Basin to the Callovian time. The similarities in trends of the ratio of heavy minerals and garnet chemistry as well as variations in igneous garnet suggest recycling within the Kutch Basin from the Callovian to Oxfordian–Kimmeridgian strata in the EKG to the Kimmeridgian to Albian strata in the KMG.Besides revealing previously unknown details in the evolutionary and palaeogeographic history of the different sub-basins constituting the Kutch Basin, this multi-proxy study demonstrates the high potential of using recently developed techniques in provenance analysis i.e., the semi-automated heavy-mineral analysis by Raman spectroscopy and the state-of-the-art machine-learning aided garnet discrimination scheme. This study also provides a globally applicable workflow for other sedimentary basins, especially rift basins characterised by overall highly mature quartz arenites.

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