机构地区:[1]南京农业大学资源与环境科学学院,南京210095 [2]颍上县农业绿色发展推进中心,安徽阜阳236200 [3]南京农业大学三亚研究院,海南三亚572025
出 处:《农业资源与环境学报》2025年第2期369-379,共11页Journal of Agricultural Resources and Environment
基 金:南京农业大学三亚研究院引导资金项目(KYTZ2023017);中国博士后科学基金面上项目(2023M731725)。
摘 要:富含植物根际益生菌的生物有机肥替代矿质氮肥作为改善土壤质量和提高作物产量的有效措施被广泛推广。然而,目前尚缺乏生物有机肥对土壤氧化亚氮(N_(2)O)排放影响的综合评估。为了探究生物有机肥替代矿质氮肥对土壤N_(2)O排放的影响及潜在微生物驱动机制,以菜地土壤为研究对象,通过室内盆栽试验,采用静态暗箱-气相色谱法和Illumina高通量测序,研究不同施肥处理(常规施肥,CF;富含芽孢杆菌的生物有机肥,BOF;经过γ射线灭菌的BOF,MBOF)下N_(2)O排放特征、小白菜生物量、土壤理化性质以及微生物群落结构变化。结果表明,与CF处理相比,BOF可减少42.25%的N_(2)O排放,同时增加15.52%的小白菜生物+量。而与BOF处理相比,MBOF处理N_(2)O累积排放量增加7.22%。生物有机肥替代矿质氮肥降低了土壤NH4-N含量并提高了AOA-amoA+基因的丰度,BOF土壤中较低的NH4-N含量可能更有利于AOA主导氨氧化过程,导致单位N_(2)O-N排放的减少。相关性分析结果表明,髌骨菌门(Patescibacteria)与N_(2)O排放呈正相关,与nosZⅡ功能基因丰度呈负相关,BOF处理下N_(2)O低排放可能与细菌共生网络中以Patescibacteria为代表的关键物种丰度增加有关。此外,土壤芽孢杆菌丰度与(AOA+AOB+nirK+nirS)/nosZⅠ值呈负相关,BOF处理中较高丰度的芽孢杆菌可能通过改变氮循环功能基因的丰度降低硝化和反硝化过程的N_(2)O/N_(2)产物比。由此可见,生物有机肥替代矿质氮肥是一种兼具增产和减少N_(2)O排放的环境友好型施肥策略。The substitution of mineral nitrogen fertilizers by bio-organic fertilizers enriched with inter-root probiotics has been promoted as an effective measure to improve soil quality and crop yields.However,comprehensive assessment of the impact of bio-organic fertilizers on soil nitrous oxide(N_(2)O)emissions is lacking.Pot experiment was conducted to investigate the effect of replacing mineral fertilizers with bio-organic fertilizers on N_(2)O emissions and the potential microbial driving mechanisms in vegetable soils.The experiment was designed with three treatments containing conventional fertilizer(CF),bio-organic fertilizer enriched with Bacillus(BOF),and BOF sterilized byγ-radiation(MBOF).Cabbage biomass,soil N_(2)O fluxes,and related physicochemical properties and microbial community structure were determined in the experiment using the static chamber-GC method and high-throughput sequencing.The results showed that the BOF treatment reduced cumulative N_(2)O emissions by 42.25%while increasing cabbage biomass by 15.52%when compared with the CF treatment.In contrast,the MBOF treatment increased cumulative N_(2)O emissions by 7.22%in comparison with the BOF treatment.The BOF treatment with lower NH+4-N concentration and higher abundance of AOA-amoA genes might contribute in reducing N_(2)O emissions.The correlation analysis results showed that Patescibacteria was positively correlated with N_(2)O emissions and negatively correlated with the abundance of nosZⅡfunctional genes.The lower N_(2)O emissions under BOF treatment might be associated with an increase in the abundance of Patescibacteria,a key representative species in the bacterial co-occurrence network.Furthermore,the correlation analysis showed a negatively correlated relationship between the abundance of Bacillus and the(AOA+AOB+nirK+nirS)/nosZⅠratio,which suggested that the higher abundance of Bacillus from BOF treatment might reduce the ratio of N_(2)O/N_(2) by changing the abundance of soil functional associated with N cycling.In conclusion,the
关 键 词:生物有机肥 氧化亚氮 芽孢杆菌 温室蔬菜 可持续发展
分 类 号:X144[环境科学与工程—环境科学] S141[农业科学—肥料学]
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