Abstract

Detailed chemostratigraphy across the Cenomanian-Turonian boundary in northern Tunisia points to several prevailing paleoceanographic conditions during the deposition of organic-rich beds of Bahloul Formation. The sedimentological study shows that there is no correlation between color and CaCO3 content because both dark and light-colored intervals of Bahloul Formation are carbonate-rich. Stable isotope analysis displays a positive carbon isotope excursion characterized by four significant peaks (I to IV) which are ranging from 3.2 to 3.5‰. These peaks represent episodes of elevated rates of organic carbon burial during the C/T oceanic anoxic event (C/T boundary OAE2). The Cenomanian-Turonian boundary could be situated between the third isotopic peak and the filament event. The total organic carbon (TOC) measurements show values ranging from 0.28 to 6.19% with average value of 3.5%. This indicates that the Bahloul Formation shale is a very good oil source rock. The Hydrogen Index (HI) values range from 359 to 698 mg HC/g TOC. The T max values range from 390 to 438 °C. Binary diagrams HI vs. T max indicate a type II with values falling within the immature organic-matter range. The concentrations major elements reveal low values of Ti and K. The correlation between Al and Ti and K shows a significant correlation pointing to homogeneous provenance. Primary productivity indicators (Cu, Ba, and Ni) record its association with organic matter. Redox-sensitive elements such as U, V, and Mo and the high values of V/(V + Ni) ratio indicate a strongly reducing environment which led to the better preservation of the organic matter.

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