Spent mushroom substrate as a substitute for chemical fertilizer changes N-cycling genes and reduces N2O emission in different textured soils
文献类型: 外文期刊
作者: Yang, Guiting 1 ; Ma, Yan 1 ; Xu, Wenyi 1 ; Ma, Xiaochi 1 ; Lu, Chao 1 ;
作者机构: 1.Jiangsu Acad Agr Sci, Inst Agr Resources & Environm, Nanjing 210014, Peoples R China
2.Minist Agr & Rural Affairs, Key Lab Saline Alkali Soil Improvement & Utilizat, Nanjing 210014, Peoples R China
3.Natl Agr Expt Stn Agr Environm, Nanjing 211500, Peoples R China
4.Univ Copenhagen, Dept Geosci & Nat Resource Management, DK-1350 Copenhagen K, Denmark
关键词: Spent mushroom substrates; N2O emissions; Functional genes; Real-time Qpcr
期刊名称:BIOLOGY AND FERTILITY OF SOILS ( 影响因子:6.5; 五年影响因子:6.9 )
ISSN: 0178-2762
年卷期: 2023 年
页码:
收录情况: SCI
摘要: Spent mushroom substrate (SMS) is a by-product of mushroom production, which can be used as an organic fertilizer. However, studies on the effect of SMS as a substitute for chemical fertilizer on soil N2O emissions and relative mechanisms are scarce. A laboratory incubation experiment was conducted to examine the effects of SMSs derived from Pleurotus eryngii (SMS-PE) and Agaricus bisporus (SMS-AB) production on N2O emissions from a sandy loam and a clay loam soil. Six treatments for each soil were established: no fertilization (CK); chemical N fertilizer (U); two types of SMSs alone (SMS-PE and SMS-AB); and their half substitution with chemical N fertilizer (SMS-PEU and SMS-ABU). The recalcitrance and aliphaticity indices of SMS-PE determined by C-13 nuclear magnetic resonance spectra were lower than those of SMS-AB. N2O emissions from the SMS-PEU and SMS-ABU decreased by 21.5-58.5% compared to the urea alone treatment. The emission of N2O was controlled by soil NH4+-N and AOB, indicating that nitrification is primarily responsible for N2O production. The increased NH4+-N concentration in the SMS-PEU treatment increased N2O emissions by 32.4% compared to the SMS-ABU treatment of the sandy loam soil. The N2O emissions from the clay loam soil treated with SMS-PEU depended on NO3--N concentration and absolute abundance of nirS, nirK, and the nir/nos ratio, suggesting the presence of the simultaneous nitrification and denitrification. Thus, the application of SMS-PE with a higher proportion of available organic C increased denitrification gene abundance and likely enhanced denitrification-associated N2O emissions (by 72.6%) in the clay loam soil compared to SMS-ABU. Overall, our results reveal that substituting chemical N with SMSs, particularly SMS-AB with lower NH4+-N and available C concentrations, is a promising strategy to mitigate N2O emissions while reducing chemical N consumption.
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