1. New insight into the contributions of thermogenic processes and biogenic sources to the generation of organic compounds in hydrothermal fluids.
- Author
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KONN, C., TESTEMALE, D., QUERELLOU, J., HOLM, N. G., and CHARLOU, J. L.
- Subjects
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BODY temperature regulation , *ORGANIC compounds , *BIOMASS , *HYDROCARBONS , *CARBON compounds - Abstract
Experiments on hydrothermal degradation of Pyrococcus abyssi biomass were conducted at elevated pressure (40 MPa) over a 200-450 °C temperature range in sapphire reaction cells. Few organic compounds could be detected in the 200 °C experiment. This lack was attributed to an incomplete degradation of P. abyssi cells. On the contrary, a wide range of soluble organic molecules were generated at temperatures ≥350 °C including toluene, styrene, C-C alkyl-benzenes, naphthalene, C-C alkyl-naphthalenes, even carbon number C-C polycyclic aromatic hydrocarbons, C-C alkyl-phenanthrenes and C-C n-carboxylic acids. The effect of time on the final organic composition of the degraded P. abyssi solutions at 350 °C was also investigated. For that purpose the biomass was exposed for 10, 20, 60, 90, 270 and 720 min at 350 °C. We observed a similar effect of temperature and time on the chemical diversity obtained. In addition, temperature and time increased the degree of alkylation of alkyl-benzenes. This study offers additional evidence that a portion of the aliphatic hydrocarbons present in the fluids from the Rainbow ultramafic-hosted hydrothermal field may be abiogenic whereas a portion of the aromatic hydrocarbons and n-carboxylic acids may have a biogenic origin. We suggest that aromatic hydrocarbons and linear fatty acids at the Rainbow site may be derived directly from thermogenic alteration of material from the sub-seafloor biosphere. Yet we infer that the formation and dissolution of carboxylic acids in hydrothermal fluids may be controlled by other processes than in our experiments. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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