The similar to 260 Ma Emeishan Large Igneous Province (ELIP) in southwest China has previously been demonstrated to provide compelling evidence for pre-volcanic crustal doming in support of the mantle plume hypothesis. However this has been questioned by Ukstins-Peate and Bryan (2008) by showing hydrothermal magmatic activity at the Daqiao section To solve this argument, a detailed characterization of the contact between the Emeishan basalts and the Maokou Formation was carried out. The contact is shown to be an unconformity, which is characterized by paleokarst on top of the Maokou Formation, including paleokarst relief, sinkholes. caves, tower karst and its corresponding rocks (such as kaolinite, bauxite and ferruginous duricrust and collapsed breccias. etc.). This paleokarst unconformity was in turn covered or infilled by the Emeishan basalts and tuffs, suggesting that uplift and erosion occurred prior to the eruption of the ELIP The extent of erosion of the Maokou Formation indicates the ELIP can be divided into three roughly concentric zones. the inner, intermediate, and outer zones The paleokarst features on the top of Maokou Formation vary across the ELIP In the inner zone, a likely sinkhole and an incision valley with 450 m relief in height are found In the intermediate zone, various paleokarst landforms such as karst relief. sinkholes and tower karsts are well developed Some sinkholes that developed in the Qixia Formation below the Maokou Formation imply that the paleorelief is more than 350 m in height In the outer zone, the paleokarstic surface is a paleo-weathering layer with minor karstification and development of caves at 10-50 in. This spatial variation of the paleokarst reflects variation of uplift height across the ELIP The extent of minimal uplift is estimated to be at least 450 m in the inner zone. 350 in in the intermediate zone, whereas uplift is minor (tens-50 m) in the outer zone. The magnitude and shape of the uplift is roughly consistent with that predicted by mantle plume models. The paleokarst was formed after the deposition of the Maokou Formation and the eruption of the Emeishan basalts at the end-Guadalupian and indicates a short duration of uplift. Thus this study lends further support to domal uplift prior to the Emeishan flood volcanism, but also to the mantle plume initiation model for the generation of the ELIP. (C) 2010 Elsevier B.V. All rights reserved
