1. Hydrocarbon Generation Potential of the Organic-Rich Naifa Formation, Say'un–Masila Rift Basin, Yemen: Insights from Geochemical and Palynofacies Analyses.
- Author
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Hakimi, Mohammed Hail, Abdullah, Wan Hasiah, Lashin, Aref A., Ibrahim, El-Khedr H., and Makeen, Yousif M.
- Subjects
ANALYTICAL geochemistry ,KEROGEN ,HYDROCARBONS ,PYROLYSIS gas chromatography ,GEOLOGIC faults ,BIOMARKERS - Abstract
The Say'un–Masila rift, one of the most important basins of Yemen, contains unconventional resources of organic-rich rocks. In the present work, geochemical and palynofacies analyses were performed on the organic-rich source rock (argillaceous limestone) of the late Jurassic–early Cretaceous Naifa Formation in the Say'un–Masila Rift Basin to investigate its hydrocarbon generation potential. The geochemical analysis of the organic matter reveals that the argillaceous limestone unit has total organic carbon contents of 0.5–2.6%, which indicate fair to good hydrocarbon source potential. The organic matter in the analyzed samples is dominated by Type II/III and Type III kerogens, with minor Type II kerogen, referring to both oil- and gas-prone source rocks. The dominant kerogen Types II/III and Type III are indicated further from quantitative results based on an open pyrolysis–gas chromatography analysis. Biological markers and palynofacies analysis suggest that the kerogen was formed through a combination of mixed marine and high land plant organic matter and was preserved under sub-oxic sedimentary conditions. The different geochemical and optical maturity parameters indicate that the analyzed argillaceous limestone of the Naifa Formation is thermally mature, equivalent to early mature of oil-generation window. This implies that the burial depth of the analyzed samples is not deep enough; therefore, only the deeper parts of the Naifa source rocks at the basin have reached a satisfactory maturity level to be considered as potentially effective petroleum source rock. The biomarker source and depositional environment indicators presented and discussed in this study are useful for future exploration in the Say'un–Masila Basin for oil-to-oil and oil-to-source geochemical correlations and offer guidance for potential prospecting targets that may occur within the basin. [ABSTRACT FROM AUTHOR]
- Published
- 2020
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