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  • Title: Increases in temperature response to CO2 emissions in biochar-amended vegetable field soil.
    Author: Huang R, Wang Z, Xiao Y, Yu L, Gao X, Wang C, Li B, Tao Q, Xu Q, Gao M.
    Journal: Environ Sci Pollut Res Int; 2022 Jul; 29(33):50895-50905. PubMed ID: 35244849.
    Abstract:
    To explore the effects of biochar application on CO2 and CH4 emissions as well as the temperature response of CO2 emissions, a 1-year experiment was conducted with three treatments (control; CF, chemical fertilizer only; BCF, biochar combined with chemical fertilizer) in a vegetable field. The results showed that (1) compared with CF, short-term application of biochar significantly enhanced the cumulative CO2 emissions by 27.5% from a soil-plant system by increasing the soil microbial biomass (e.g., MBC) and C substrates (e.g., SOC); (2) lowest emissions of CH4 were observed in the BCF treatment, and an increase in CH4 consumption and reduced competition with NH4+ may be responsible for the significant reduction in CH4 source strength in biochar-amended soil; and (3) activation energy (Ea) was identified as an important factor influencing the temperature sensitivity (Q10) of CO2 emissions. Fertilization (CF and BCF) reduced the average Q10 and Ea values of CO2 emissions by 9.0-26.7% and 23.5-10.1%, respectively, relative to the control. In addition, the average Ea value in the BCF treatment (51.9 kJ mol-1) was significantly higher than those in the control and CF treatments. The increase in Q10 and Ea values following biochar application possibly contributed to the supplementation of limited labile C and nutrients but highly resistant C following biochar application. Soil pH and crop cultivation may play key roles in influencing the change in Ea. Our study concludes that biochar amendment increased CO2 emissions and temperature response of CO2 emission from the soil-plant system while reducing CH4 emissions.
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