Early steroid sulfurisation in surface sediments of a permanebtly stratified lake (Ace Lake, Antarctica)

Surface sediments (0 25 cm) from Ace Lake (eastern Antarctica), a saline euxinic lake, were analyzed to study the early incorporation of reduced inorganic sulfur species into organic matter. The apolar fractions were shown to consist predominantly of dimeric (poly)sulfide linked C27-C29 steroids. Th...

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Bibliographic Details
Main Authors: Sinninghe Damsté, J.S., Kok. M.D., Rijpstra, W.I.C., Robertson, L., Volkman, J.K.
Format: Article in Journal/Newspaper
Language:English
Published: 2000
Subjects:
Aardwetenschappen
Ace Lake
Antarc*
Antarctica
Online Access:https://dspace.library.uu.nl/handle/1874/4288
Description
Summary:Surface sediments (0 25 cm) from Ace Lake (eastern Antarctica), a saline euxinic lake, were analyzed to study the early incorporation of reduced inorganic sulfur species into organic matter. The apolar fractions were shown to consist predominantly of dimeric (poly)sulfide linked C27-C29 steroids. These steroid moieties were identified by GC-MS analysis of the apolar fractions after cleavage of polysulfide linkages using MeLi and MeI and after desulfurisation. The polar fractions contained the oligomeric analogues. The S-bound steroids are most likely formed by sulfur incorporation into steroidal ketones formed from Ä5 sterols by biohydrogenation by anaerobic bacteria. The concentrations of these sulfurised steroids increased with depth in the sediment. The sulfurisation reaction is completed in 1000 3000 years. Despite a wide range of functionalised lipids present in these sediments that are potentially available for sulfurisation, there is a very strong preference for the incorporation of sulfur into steroidal compounds. A predominance of sulfurised C27 steroids contrasted with the distribution of free sterols, which showed a strong predominance of C29 sterols. This indicates that the incorporation of sulfur is biased towards C27 sterols. The results demonstrate that intermolecular sulfurisation of organic matter can occur in surface sediments at low temperatures and in the absence of light.

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