Zusammenfassung
The molecular and isotopic compositions of lipid biomarkers of cultured Aquificales genera have been used to study the community and trophic structure of the hyperthermophilic pink streamers and vent biofilm from Octopus Spring. Thermocrinis ruber, Thermocrinis sp. strain HI 11/12, Hydrogenobacter thermophilas TK-6, Aquifex pyrophilus, and Aquifex aeolicus all contained glycerol-ether ...
Zusammenfassung
The molecular and isotopic compositions of lipid biomarkers of cultured Aquificales genera have been used to study the community and trophic structure of the hyperthermophilic pink streamers and vent biofilm from Octopus Spring. Thermocrinis ruber, Thermocrinis sp. strain HI 11/12, Hydrogenobacter thermophilas TK-6, Aquifex pyrophilus, and Aquifex aeolicus all contained glycerol-ether phospholipids as well as acyl glycerides. The n-C-20:1 and cy-C-21 fatty acids dominated all of the Aquificales, while the alkyl glycerol ethers were mainly C-18:0, These Aquificales biomarkers were major constituents of the lipid extracts of two Octopus Spring samples, a biofilm associated with the siliceous vent walls, and the well-known pink streamer community (PSC). Both the biofilm and the PSC contained mono- and dialkyl glycerol ethers in which C-18 and C-20 alkyl groups were prevalent. Phospholipid fatty acids included both the Aquificales n-C-20:1 and cy-C-21, plus a series of isobranched fatty acids (i-C-15:0 to i-C-21:0), indicating an additional bacterial component. Biomass and lipids from the PSC were depleted in C-13 relative to source water CO2 by 10.9 and 17.2 parts per thousand, respectively. The C20-21 fatty acids of the PSC were less depleted than the iso-branched fatty acids, 18.4 and 22.6 parts per thousand, respectively. The biomass of T. ruber grown on CO2 was depleted in C-13 by only 3.3 parts per thousand relative to C source. In contrast, biomass was depleted by 19.7 parts per thousand when formate was the C source. Independent of carbon source, T. ruber lipids were heavier than biomass (+1.3 parts per thousand). The depletion in the C20-21 fatty acids from the PSC indicates that Thermocrinis biomass must be similarly depleted and too light to be explained by growth on CO2. Accordingly, Thermocrinis in the PSC is likely to have utilized formate, presumably generated in the spring source region.
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