Modelling the specific pathway of CH 4 and CO 2 formation using carbon isotope fractionation: an example for a boreal mesotrophic fen

We described mathematically the process of peat methanization in a boreal mesotrophic fen. Gaseous and dissolved CH and CO as well as their δ C signatures were considered in the dynamic equations for incubation bottles. In accordance with the model, acetate, H , and CO were produced during cellulose...

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Bibliographic Details
Published in:Isotopes in environmental and health studies 2018-10, Vol.54 (5), p.475-493
Main Authors: Vavilin, Vasily A, Rytov, Sergey V, Lokshina, Lyudmila Y
Format: Article
Language:English
Subjects:
Acetic Acid - metabolism
Carbon Dioxide - metabolism
Carbon Isotopes - analysis
Cellulose - metabolism
Chemical Fractionation
Hydrogen
Methane - metabolism
Models, Theoretical
Soil
Temperature
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Summary:We described mathematically the process of peat methanization in a boreal mesotrophic fen. Gaseous and dissolved CH and CO as well as their δ C signatures were considered in the dynamic equations for incubation bottles. In accordance with the model, acetate, H , and CO were produced during cellulose hydrolysis and acidogenesis. C/ C in CO was a key variable reflecting dynamic changes in the rates of cellulose hydrolysis and acidogenesis, acetoclastic and hydrogenotrophic methanogenesis. As CO is the substrate in hydrogenotrophic methanogenesis, δ C-CO increased from the start till the dissolved hydrogen concentration became very low. Thereafter, the rate of acetoclastic methanogenesis with the significant current acetate concentration dominated over the rate of hydrogenotrophic methanogenesis leading to the decreasing δ C-CO and the increasing δ C-CH . The model was validated by describing the system's dynamics under strong and weak inhibition of acetoclastic and hydrogenotrophic methanogenesis by methyl fluoride, respectively. During peat methanization at the lowered temperature of 10 °C, the processes of hydrogenotrophic methanogenesis and homoacetogenesis competing for H may occur. However, based on dynamics of the carbon isotope signatures, especially on dynamics of δ C-CO , the model showed no significant contribution of homoacetogens in peat methanization.
ISSN:1025-6016
1477-2639
DOI:10.1080/10256016.2018.1478820