Expanded deepwater euxinia recorded in the Ediacaran–Cambrian boundary interval in South China

Abstract

• The Ediacaran-Cambrian boundary interval at Pingyin in South China records a deepwater euxinia. • Expanded deepwater euxinia occurred in the Nanhua Basin during the Ediacaran-Cambrian transition. • The expanded deepwater euxinia probably resulted in the extinction of Ediacaran fauna. Global anoxia of shallow seawater during the Ediacaran–Cambrian (EC) transition has been interpreted as being caused by the upwelling of H 2 S-bearing deep seawater. This hypothesis implies the possible widespread occurrence of H 2 S-rich deep seawater during the EC transition. However, due to a lack of detailed investigation of environmental information recorded across the EC boundary (ECB) at deep-water facies sections, the occurrence of widespread H 2 S-rich deep seawater in paleo-basins during the EC transition is uncertain. The Pingyin section in South China is a deep-water-facies section for which the position of the ECB has been constrained by high-precision zircon chemical abrasion–isotope dilution–thermal ionization mass spectrometry U–Pb ages. Therefore, this section is a favourable site for obtaining information about deep seawater during the EC transition. In this paper, we present redox sensitive element (RSE) concentrations and Fe speciation of cherts from this section to study the redox condition of deep seawater recorded in the ECB at Pingyin. The results show dramatic differences of redox proxies in the cherts in the ECB from those underlying ones. The enrichment factors of U, V and Mo of the underlying samples are 2.08–6.89, 0.82–1.52 and 3.36–7.32, much lower than those of cherts in the ECB which are 16.52, 3.65 and 48.60, respectively. The underlying samples have Th/U ratios of 0.69–2.29, much higher than the cherts in the ECB with Th/U ratios of <0.30. The V/(V + Ni) ratios of most of the samples below the ECB are <0.84, whereas those of the samples at the ECB are >0.84. The Ce/Ce* values of the chert samples show an upward-decreasing trend below the ECB, but change to an increasing tendency immediately above the boundary. Almost all of the chert samples from the topmost Liuchapo Formation have Fe HR /Fe T ratios of >0.38. The Fe PY /Fe HR ratios of the samples underlying the ECB are lower than 0.80, whereas those of the samples around the ECB are higher than 0.80. These various indicators show that the ECB at Pingyin records an ancient deep-water redox turnover from anoxic ferruginous to sulphidic conditions. Combining the new findings with previous data, we conclude that the ECB in South China records the extensification of euxinia in deep water of the investigated paleo-basin. This event, which may have been global in extent, could have had a profound influence on early marine life and was likely a major cause of Ediacaran faunal extinction.