Organic geochemistry of the early Toarcian oceanic anoxic event in Hawsker Bottoms, Yorkshire, England

• Published in: Earth and planetary science letters Vol. 390; pp. 116 - 127
• Main Authors: French, K.L., Sepúlveda, J., Trabucho-Alexandre, J., Gröcke, D.R., Summons, R.E.
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 15.03.2014
• Subjects: Atmospherics; Bacteria; Biomarkers; Carbon; Chromatiaceae; Construction; Deposition; Geochemistry; Hawsker Bottoms; lipid biomarkers; Marine; okenane; photic zone euxinia; stable carbon isotopes; Sulfur; Toarcian oceanic anoxic event; ANE, British Isles, England, Yorkshire; ANE, British Isles, England; stable carbon isotopes; Hawsker Bottoms; lipid biomarkers; photic zone euxinia; Toarcian oceanic anoxic event; okenane
• ISSN: 0012-821X; 1385-013X
• DOI: 10.1016/j.epsl.2013.12.033

A comprehensive organic geochemical investigation of the Hawsker Bottoms outcrop section in Yorkshire, England has provided new insights about environmental conditions leading into and during the Toarcian oceanic anoxic event (T-OAE; ∼183 Ma). Rock-Eval and molecular analyses demonstrate that the section is uniformly within the early oil window. Hydrogen index (HI), organic petrography, polycyclic aromatic hydrocarbon (PAH) distributions, and tricyclic terpane ratios mark a shift to a lower relative abundance of terrigenous organic matter supplied to the sampling locality during the onset of the T-OAE and across a lithological transition. Unlike other ancient intervals of anoxia and extinction, biomarker indices of planktonic community structure do not display major changes or anomalous values. Depositional environment and redox indicators support a shift towards more reducing conditions in the sediment porewaters and the development of a seasonally stratified water column during the T-OAE. In addition to carotenoid biomarkers for green sulfur bacteria (GSB), we report the first occurrence of okenane, a marker of purple sulfur bacteria (PSB), in marine samples younger than ∼1.64 Ga. Based on modern observations, a planktonic source of okenane's precursor, okenone, would require extremely shallow photic zone euxinia (PZE) and a highly restricted depositional environment. However, due to coastal vertical mixing, the lack of planktonic okenone production in modern marine sulfidic environments, and building evidence of okenone production in mat-dwelling Chromatiaceae, we propose a sedimentary source of okenone as an alternative. Lastly, we report the first parallel compound-specific δC13 record in marine- and terrestrial-derived biomarkers across the T-OAE. The δC13 records of short-chain n-alkanes, acyclic isoprenoids, and long-chain n-alkanes all encode negative carbon isotope excursions (CIEs), and together, they support an injection of isotopically light carbon that impacted both the atmospheric and marine carbon reservoirs. To date, molecular δC13 records of the T-OAE display a negative CIE that is smaller in magnitude compared to the bulk organic δC13 excursion. Although multiple mechanisms could explain this observation, our molecular, petrographic, and Rock-Eval data suggest that variable mixing of terrigenous and marine organic matter is an important factor affecting the bulk organic δC13 records of the T-OAE. •First report of okenane in marine rock extracts younger than the Paleoproterozoic.•Identify transition in relative supply of terrigenous and marine organic matter.•Molecular δC13 data support atmospheric and marine carbon cycle perturbation.•Synthesis of sedimentological observations and organic geochemical data.