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Mineralization of low molecular weight carbon substrates in soil solution under laboratory and field conditions

Publiceringsår: 2012
Språk: Engelska
Sidor: 88-95
Publikation/Tidskrift/Serie: Soil Biology & Biochemistry
Volym: 48
Dokumenttyp: Artikel i tidskrift
Förlag: Elsevier


A more detailed mechanistic understanding of how low molecular weight (MW) carbon (C) substrates are mineralized within the rhizosphere by soil microbial communities is crucial to accurately model terrestrial C fluxes. Currently, most experiments regarding soil C dynamics are conducted ex-situ (laboratory) and can fail to account for key variables (e.g. temperature and soil water content) which vary in-situ. In addition, ex-situ experiments are often highly invasive, e.g. severing root and mycorrhizal networks, changing the input and concentrations of low MW exudates within soil. The aim of this study was to directly compare the mineralization rates of 31 common low MW C substrates under ex- and in-situ conditions. In addition, we also assessed the inter-annual field variability of substrate mineralization rates. We added trace concentrations of 31 individual C-14-labelled common low MW C substrates into the top soil of an agricultural grassland and monitored the mineralization rates by capturing (CO2)-C-14 evolved from the soil over 7 d. Our results showed that the contribution of low MW C components to soil respiration was highly reproducible between parallel studies performed either in-situ or ex-situ. We also found that differences in the mineralization of individual compounds were more variable inter-annually in the field than between the laboratory and the field. Our results suggest that laboratory-based C mineralization data can be used to reliably parameterize C models but that multiple experimental measurements should be made over time to reduce uncertainty in model parameter estimation. (C) 2012 Elsevier Ltd. All rights reserved.


  • Biological Sciences
  • Decomposition
  • Dissolved organic carbon
  • DOC
  • SOM
  • Turnover rates


  • Microbial carbon-use efficiency
  • Carbon drivers and microbial agents of soil respiration
  • BECC
  • Microbial Ecology
  • ISSN: 0038-0717

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