Dibenzothiophenes, phenyldibenzothiophenes, and benzo[b]naphthothiophenes in crude oils and source rock extracts from the Niger Delta Basin, Nigeria, and their applications as source facies, depositional environments, and thermal maturity indicators

“…The abundance of benzo­[ b ]­naphthothiophenes is characterized by the predominance of benzo­[ b ]­naphtho­[2,1]­thiophene. This observation is consistent with previous reports on crude oil samples and has been attributed to significant microbial contribution on the source rock that expelled the oils . All crude oils show three isomers of phenyl-dibenzothiophenes (Ph-DBT), which have been unambiguously identified using co-injection of synthesized standards and retention indices .…”

“…The DBT/Phe values for the oil samples are within the range of 0.006–0.023 (Table S4 of the Supporting Information), suggesting crude oils with shale lithology. The (1+4)-/(2+3)-MDBT values in the oil samples vary between 0.476 and 1.000, also suggesting shale lithology . The abundance of benzo­[ b ]­naphthothiophenes is characterized by the predominance of benzo­[ b ]­naphtho­[2,1]­thiophene.…”

“…The relative abundances of particular PAHs can be used for the evaluation of thermal maturity, oil rock lithology, and microbial contribution indicators across crude oils. − Traditionally, alkyl homologues of phenanthrene (Phe), dibenzothiophene (DBT), phenyl dibenzothiophenes (PhDBT), and benzo­[ b ]­naphthothiophenes (BNT) are used; − a typical caveat during traditional GC–MS analysis is the number of potential interferences. To this end, complementary GC–TIMS–HRMS has the added advantage in achieving accurate estimations by filtering interferences coming from fragments and isobars (see the MetaboScape raw worksheet of the Supporting Information).…”

Characterization of Deasphalted Crude Oils Using Gas Chromatography–Atmospheric Pressure Laser Ionization–Trapped Ion Mobility Spectrometry–Time-of-Flight Mass Spectrometry

“…The abundance of benzo­[ b ]­naphthothiophenes is characterized by the predominance of benzo­[ b ]­naphtho­[2,1]­thiophene. This observation is consistent with previous reports on crude oil samples and has been attributed to significant microbial contribution on the source rock that expelled the oils . All crude oils show three isomers of phenyl-dibenzothiophenes (Ph-DBT), which have been unambiguously identified using co-injection of synthesized standards and retention indices .…”

“…The DBT/Phe values for the oil samples are within the range of 0.006–0.023 (Table S4 of the Supporting Information), suggesting crude oils with shale lithology. The (1+4)-/(2+3)-MDBT values in the oil samples vary between 0.476 and 1.000, also suggesting shale lithology . The abundance of benzo­[ b ]­naphthothiophenes is characterized by the predominance of benzo­[ b ]­naphtho­[2,1]­thiophene.…”

“…The relative abundances of particular PAHs can be used for the evaluation of thermal maturity, oil rock lithology, and microbial contribution indicators across crude oils. − Traditionally, alkyl homologues of phenanthrene (Phe), dibenzothiophene (DBT), phenyl dibenzothiophenes (PhDBT), and benzo­[ b ]­naphthothiophenes (BNT) are used; − a typical caveat during traditional GC–MS analysis is the number of potential interferences. To this end, complementary GC–TIMS–HRMS has the added advantage in achieving accurate estimations by filtering interferences coming from fragments and isobars (see the MetaboScape raw worksheet of the Supporting Information).…”

Characterization of Deasphalted Crude Oils Using Gas Chromatography–Atmospheric Pressure Laser Ionization–Trapped Ion Mobility Spectrometry–Time-of-Flight Mass Spectrometry

Geochemical appraisal of crude oils from Niger Delta Basin, Nigeria: insights from β-carotane, rearranged hopanes, tricyclic terpanes, tetracyclic terpanes, and phenyldibenzofurans

Dibenzothiophene removal by environmental bacteria with differential accumulation of intracellular inorganic polyphosphate