Hydrocarbon evolution of the over-mature Sinian Dengying reservoir of the Neoproterozoic Sichuan Basin, China: Insights from Re–Os geochronology

Abstract

Rhenium–osmium (Re–Os) geochronology is a robust technique for constraining the accurate timing of hydrocarbon evolution, but its effectiveness in over-mature petroleum systems has not been well constrained. Here we conduct a case study in the Neoproterozoic Sichuan Basin, China, i.e., the Sinian Dengying sequence (635–542 Ma). Re–Os isotopic data from this highly mature hydrocarbon reservoir yield a Re–Os isochron ages of 414 ± 44 Ma with an initial 187Os/188Os (Osi) of 1.36 ± 0.19 for bitumen and a 78 ± 37 Ma age with an Osi of 3.21 ± 0.17 for pyrobitumen. Coupled with thermal evolution of possible source rocks and fluid-inclusion homogenization temperatures, the 414 Ma age marks the timing of oil generation, and the 78 Ma age indicates the timing of gas generation associated with the thermal cracking of oil, and the formation of pyrobitumen in the reservoir. A comparison of the Osi of the 414 Ma bitumen and that of possible source rocks at the time of bitumen formation reveal that it was primarily sourced from shale of the lower Cambrian Qiongzhusi Formation. The results of this study provide new insights to better understand the over-mature oil–gas system in the Sinian Sichuan Basin, and show that Dengying Formation reservoirs in the depocenter areas of the basin are potentially favorable for oil and gas exploration. The results further highlight the utility of the Re–Os geochronometer to constrain the accurate age and source of hydrocarbon evolution.