Changes in microbial utilization and fate of soil carbon following the addition of different fractions of anaerobic digestate to soils

Cattin, Marta and Semple, Kirk and Stutter, Marc and Romano, Gaetano and Lag Brotons, Alfonso and Parry, Chris and Surridge, Ben (2021) Changes in microbial utilization and fate of soil carbon following the addition of different fractions of anaerobic digestate to soils. European Journal of Soil Science, 72 (6). pp. 2398-2413. ISSN 1351-0754

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Applying digestate, the residue from anaerobic digestion, to soil as a replacement for inorganic fertiliser is of growing interest in agriculture. However, the impacts of different fractions of digestate on the soil carbon (C) cycle remain unclear and provide the focus for the research reported here. We examined the effects of applying whole digestate (WD) and solid digestate (SD) on carbon dioxide (CO2C) efflux, the concentrations of dissolved organic carbon (DOC), microbial biomass C (Cmicro) and phospholipid fatty acids, alongside carbon use efficiency (CUE). A 21‐day laboratory microcosm incubation was used to investigate the impacts of digestate when applied to two grassland soils of high versus low initial nutrient content. Application rates for SD and WD were based on recommended nitrogen (N) inputs to grassland soils for these organic materials. Compared to control treatments, cumulative CO2C efflux and the concentration of DOC increased significantly after WD and SD application, although only within the low nutrient soil. Both Cmicro and the fungal‐to‐bacterial ratio increased significantly following SD application, regardless of the initial soil nutrient content. These observations are likely to reflect the larger input of C, alongside the dominance of more strongly lignified compounds, associated with SD compared to WD to achieve a constant N application rate. Our results also indicate that the two digestate fractions generated significantly different CUE. The application of SD led to increases in Cmicro and positive values of CUE, whereas decreases in Cmicro and negative values of CUE were observed following WD application. These findings emphasize the need to carefully plan the management of digestate in agricultural production systems, to minimize negative impacts on C storage within soils whilst maximizing the agronomic value derived from digestate.

Item Type:
Journal Article
Journal or Publication Title:
European Journal of Soil Science
Uncontrolled Keywords:
?? carbon cyclecarbon dioxide fluxcarbon use efficiencydigestatemicrobial communitymicrobial respirationsoil nutrient statussoil science ??
ID Code:
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Deposited On:
22 Jan 2021 09:54
Last Modified:
16 Mar 2024 00:58