Statistics – Applications
Scientific paper
Nov 1996
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1996gecoa..60.4467k&link_type=abstract
Geochimica et Cosmochimica Acta, vol. 60, Issue 22, pp.4467-4496
Statistics
Applications
22
Scientific paper
A wide range of novel diagenetic and catagenetic products of the diaromatic carotenoid isorenieratene, a pigment of the photosynthetic green sulphur bacteria Chlorobiaceae , has been identified in a number of sedimentary rocks ranging from Ordovician to Miocene. Compound identification is based on NMR, mass spectrometry, the presence of atropisomers, and stable carbon isotopes. Atropisomers contain an axially chiral centre which, in combination with other chiral centres, results in two or more diastereomers that can be separated on a normal GC column. Chlorobiaceae use the reverse TCA cycle to fix carbon, so that their biomass is enriched in 13 C. High 13 C contents of isorenieratene derivatives therefore support their inferred origins. Isorenieratene derivatives include C 40 , C 33 , and C 32 , diaryl isoprenoids and short-chain aryl isoprenoids with additional aromatic and/or S-containing rings. C 33 and C 32 compounds are diagenetic products of C 33 and C 32 "carotenoids" formed from isorenieratene during early diagenesis through expulsion of toluene and m -xylene, respectively. Cyclisation of the polyene acyclic isoprenoid chain can proceed via an intramolecular Diels-Alder reaction, followed by aromatisation of the newly formed ring. Sulphurisation is also an important process during early diagenesis, competing with expulsion and cyclisation. Sulphur-bound isorenieratane is released during progressive diagenesis, due to cleavage of relatively weak S---S and C---S bonds. Cleavage of C-C bonds during aromatisation of newly formed rings and during catagenesis yields short-chain compounds. The inherent presence of a conjugated double bond system in carotenoids implies that similar diagenetic and catagenetic reactions can occur with all carotenoids. Chlorobiaceae live at or below the oxic/anoxic boundary layer and require both light and H 2 S. The presence of isorenieratene or its diagenetic and catagenetic products in ancient sedimentary rocks and crude oils is therefore an excellent indication for photic zone anoxia in the depositional environment. Diagenetic and catagenetic products of isorenieratene are expected to find applications in reconstruction of palaeoenvironments and in oil-oil and oil-source rock correlation studies. Their presence in several petroleum source rocks suggests that anoxia is an important environmental parameter for the preservation of organic matter.
de Leeuw Jan W.
Hartgers Walter A.
Kenig Fabien
Koopmans Martin P.
Köster Jörgen
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