Dehydroicetexanes in sediments and crude oils: Possible markers for Cupressoideae

Abstract: Two previously unidentified dehydroabietane isomers were isolated from Miocene Serbian lignite and Rhaetian (Late Triassic) coaly mudstones from South Sweden and characterized using NMR-spectroscopy as cis-and trans-dehydroicetexane. Both have a 9(10→20)-abeo-abietane or icetexane skeleton consisting of a 6-7-6 tricyclic framework with seven carbons in ring B instead of the usual six in common diterpanes of the abietane-type. Dehydroicetexanes can be detected using GC-MS-MS in m/z 270 → 146 chromatograms witho… Show more

“…Therefore, the geological fate of the abeo -diterpenoids is not fully known. However, a derivative biomarker, i.e., 10α- and 10β-dehydroicetexane, has been elucidated in sediments and petroleum [78], and it could be derived from pisiferol/ abeo -pisiferol by reductive dehydroxylation during diagenesis and preservation of organic matter. The resin of extant G. pensilis contained traces of 7α-p-cymenylferruginol [36].…”

Terpenoids of the Swamp Cypress Subfamily (Taxodioideae), Cupressaceae, an Overview by GC-MS

“…Therefore, the geological fate of the abeo -diterpenoids is not fully known. However, a derivative biomarker, i.e., 10α- and 10β-dehydroicetexane, has been elucidated in sediments and petroleum [78], and it could be derived from pisiferol/ abeo -pisiferol by reductive dehydroxylation during diagenesis and preservation of organic matter. The resin of extant G. pensilis contained traces of 7α-p-cymenylferruginol [36].…”

Terpenoids of the Swamp Cypress Subfamily (Taxodioideae), Cupressaceae, an Overview by GC-MS

High-cellulose content of in-situ Miocene fossil tree stumps and trunks from Lusatia lignite mining district, Federal Republic of Germany

Organic petrography, biomarkers, and stable isotope (δ13C, δD, δ15N, δ18O) compositions of liptinite-rich coals