Sedimentary factors controlling the organic matter enrichment in oil shale, Seyitömer Lacustrine Basin, Western Anatolia: New implications from organic and inorganic geochemistry


Gulbay R., ÖZYURT M., Korkmaz S.

DEPOSITIONAL RECORD, 2024 (SCI-Expanded) identifier

  • Publication Type: Article / Article
  • Publication Date: 2024
  • Doi Number: 10.1002/dep2.313
  • Journal Name: DEPOSITIONAL RECORD
  • Journal Indexes: Science Citation Index Expanded (SCI-EXPANDED)
  • Karadeniz Technical University Affiliated: Yes

Abstract

Western Anatolia, an important segment of the Alp-Himalayan Belt, hosts numerous Neogene lacustrine basins with potential oil shale reserves surpassing 1.6 billion tonnes. Among these basins, the Seyit & ouml;mer Basin (K & uuml;tahya) stands out, containing oil shales that are intercalated with claystone, marl, limestone and coal layers. This study presents a comprehensive dataset of organic and inorganic chemistry to gain insight into the palaeoclimate and palaeoenvironmental factors that control the enrichment of organic matter. The studied samples exhibit high total organic carbon contents, averaging 12.85% (ranging from 2.22 to 36.21%), high hydrogen indices (486-812 mgHC/g rock) and low oxygen indices (33-70 mgCO2/g total organic carbon), indicating their substantial hydrocarbon-source potential. These characteristics indicate predominantly 'excellent' to occasionally 'very good' source rock qualities and very high oil potential. Their pyrolysis, gas chromatography and gas chromatography-mass spectrometer parameters indicate an immature-early mature characteristic for Seyit & ouml;mer oil shale samples. They comprise dominantly Type-I kerogen with minor Type-II kerogen and lacustrine algal organic matter. Their sedimentological characteristics, along with various geochemical values, such as total organic carbon versus S, B versus Ga and dibenzothiophene/phenanthrene, reveal a moderately deep fresh/brackish to saline lacustrine environment. The Ga/Rb, K/Al and Sr/Cu ratios suggest dominantly humid and warm climate conditions, occasionally interrupted by periods of less humidity. The prevalence of warm and humid climate conditions leads to intense chemical weathering processes, supported by high Chemical Index of Alteration and low Rb/Sr ratios in the associated oil shale samples. Intense chemical weathering and high runoff resulted in dissolved nutrient enrichment, promoting ecological dynamics favourable to increased productivity. Their low Pr/Ph and Mo/total organic carbon ratios, high Ni/Co ratio and, relatively low MoEF/UEF ratio, along with well-developed lamination of the oil shales, indicate the presence of anoxic conditions in the bottom water. These anoxic conditions would have facilitated the preservation potential of organic matter in the samples. Thus, the palaeoclimate conditions integrated with sedimentary factors have an important role in the ecological dynamic and physical-chemical environmental conditions, ultimately contributing to the organic matter enrichment of the studied samples. This work provides a case study to better understand the sedimentary factors controlling organic matter enrichment in the lacustrine basins of the Alp-orogenic belt. This study can provide a case study to provide a better understanding of sedimentary factors controlling the organic matter enrichment in the lacustrine basins of the Alp-orogenic belt.image