Integrated chemostratigraphy (δ13C-δ34S-δ15N) constrains Cretaceous lacustrine anoxic events triggered by marine sulfate input

During the Late Cretaceous period (similar to 100.5-65 million years ago), two episodes of expansive lake anoxia occurred in the Songliao Basin (similar to 3 x the size of Lake Superior), NE China, either lasting less than one million years. These events, known as lacustrine anoxic events (LAEs), were the factors driving the development of the main source rocks for the most productive oilfields in China. The details underpinning the initiation of the LAEs, however, remain problematic. As a test of this scientific issue, we present time series of bulk organic carbon isotopes, pyrite sulfur isotopes, nitrogen isotopes and trace element concentrations from the Turanian-Coniacian Qingshankou Formation in the Songliao Basin. A notable delta(34)5 excursion (similar to -10 parts per thousand) and a spike in pyrite sulfur content are recorded in the basal Qingshankou Formation when the basin reached the maximum expansion. We attributed these changes to marine transgression, which would have brought high sulfate concentrations to the lake, thereby promoting microbial sulfate reduction (MSR). Subsequent sulfate limited by MSR and pyrite burial associated with isolation of the lake from the seawater drove a 20 parts per thousand positive delta(34)5 shift. Note that the modes of the delta(34)5 that fluctuations we describe from the LAEs have also been recognized in marine black shale during Oceanic Anoxic Event (OAE) 2, implying a common signature of anoxia. The carbon isotope data suggest that the maximal fractionation found in Qingshankou Member I was likely a consequence of the increased [CO2](aq) in lake water and inputs from chemoautotmphs. Increased sedimentary delta N-15 during the interval of Qingshankou Member I implies intensified denitrification in the oxygen minimum zone, which lowered the water-column N/P ratios, thereby stimulating bacterial nitrogen fixation in Qingshankou Members II-III By comparing and sum- marizing the sulfur, carbon and nitrogen cycles of the LAEs during deposition of the Qingshankou and Nenjiang formations, we argue that the forcing function underlying LAEs was enhanced sulfate levels from marine transgression, which might have intensified nutrient recycling and further regulated the lacustrine carbon and nitrogen cycles.

Automated summary

This study investigates the initiation mechanisms of late Cretaceous lacustrine anoxic events in the Songliao Basin, NE China, revealing processes such as marine transgression, microbial sulfate reduction, and isolation of lake water from seawater. By comparing sulfur, carbon, and nitrogen cycles, it is argued that enhanced sulfate levels from marine transgression were the driving force behind the anoxic events, influencing nutrient recycling and regulating lacustrine carbon and nitrogen cycles.