Evidences of localized CO2-induced diagenesis in the Cretaceous Quantou Formation, southern Songliao Basin, China

摘要

Evidences of CO2 induced diagenesis in the Quantou Formation, Southern Songliao Basin, have been investigated using petrographic analyses, X-ray diffraction, stable isotopes, fluid inclusions and kinetic thermodynamic modeling. The studied sandstones have two distinct zones based on their mineralogy, one "pristine" being composed of quartz, plagioclase, chlorite, calcite and dolomite, and one "altered" mainly consisting of quartz, illite and illite/smectite, ankerite, and dawsonite. The ankerite/dawsonite and secondary clay-bearing zones are related to the major deep rooted faults in this area. The 8130 value of carbonate cements in the altered zone (mainly centered on 0.9%. to 8.0%.) is higher than that in the "pristine" sediments. We therefore proposed that these zones have experienced CO2 charged hydrothermal (similar to 120-140 degrees C) alteration and with a similar precursor mineral assemblage as in the plagioclase/chlorite rich zones. Kinetic modeling furthermore suggests that the observed alteration must have been under high CO2 partial pressures, with the closest match between simulations and XRD data found at the highest attempted pressure of 100 bar. The modeling furthermore suggests that using kinetic data from the literature together with reactive surface areas normalized to the surface area of the pores provides good estimates for the alteration of tight sandstones such as the Quantou Fm (similar to 8% porosity). (C) 2016 Elsevier Ltd. All rights reserved.