西南农业学报2026,Vol.39Issue(2):225-234,10.DOI:10.16213/j.cnki.scjas.2026.2.001
基于高通量测序分析芽孢杆菌Bam22防治油菜根肿病的机制
Control mechanism of Bacillus Bam22 against clubroot disease of oilseed rape based on high-throughput sequencing
摘要
Abstract
[Objective]The study evaluated the control effect of Bacillus amyloliquefaciens Bam22 on clubroot disease of oilseed rape and as-sessed its impacts on soil microbial community structure and physicochemical properties,so as to explore its application potential in sustain-able agriculture.[Method]The inhibition rate of B.amyloliquefaciens Bam22 on the germination of Plasmodiophora brassicae resting spores was determined using a co-culture experiment of the Bam22 and the pathogen.Meanwhile,pot experiments were conducted to assess its con-trol effect on rape clubroot.High-throughput sequencing technology was used to analyze differences in the diversity and community structure of rhizosphere soil microorganisms under different treatments(BS:Bam22 treatment;CS:Control treatment).Combined with the contents of soil physicochemical properties,the correlations between changes in rhizosphere microbial abundance of rhizosphere soil microbial communi-ties and soil nutrient content were analyzed.[Result]Bam22 exhibited significant inhibitory effects on the germination of P.brassicae resting spores and demonstrated effective disease control,achieving a spore germination inhibition rate of 50.60%and a clubroot control efficacy of 80.96%.BS significantly elevated the levels of soil total phosphorus(TP),available phosphorus(AP),ammonium nitrogen(NH4+-N),and available potassium(AK),with increases of 0.07 g/kg,3.51 mg/kg,0.40 mg/kg and 60.66 mg/kg,respectively,compared to the control soil(CS).Concurrently,BS significantly reduced the concentrations of total potassium(TK)and nitrate nitrogen(NO3--N),which were 0.46 g/kg and 3.05 mg/kg lower than that of CS,respectively.BS significantly enhanced the richness and diversity of rhizosphere soil micro-bial communities,which was evidenced by substantially higher values of the ACE index,Chao1 index and Shannon index in BS compared to CS.Regarding microbial community composition,BS demonstrated a statistically significant elevation in the relative abundances of Bacillus(10.14%vs.5.45%)and Burkholderia(3.73%vs.3.09%).Analysis of the relative abundance of the top 10 genera revealed that the Myxococcus had a strong positive correlation with soil total potassium(TK)and alkaline-hydrolyzable nitrogen(AN).Nitrososphaera displayed an extremely significant negative correlation with soil total nitrogen(TN),available phosphorus(AP),available potassium(AK),and nitrate nitrogen(NO3--N),along with a significant negative correlation with exchangeable calcium(Ex-Ca).Allomyces showed a significant positive correlation with soil total nitrogen(TN),available phosphorus(AP),nitrate nitrogen(NO3--N),and an extremely significant positive correla-tion with available potassium(AK).Additionally,Heterotypic bacteria demonstrated a significant negative correlation with soil pH.In the BS-treated soil,the abundances of Bacillus and Flavobacterium,both known as biocontrol or plant growth promoting properties,were significantly elevated,with relative abundances of 10.14%and 3.44%,respectively.Conversely,the relative abundance of Fusarium,a pathogen associat-ed with disease induction,was markedly reduced to 30.71%,significantly lower than CS.[Conclusion]B.amyloliquefaciens Bam22 markedly elevates soil total phosphorus(TP),available phosphorus(AP),ammonium nitrogen(NH4+-N)and available potassium(AK)levels,thereby substantially improving soil fertility.Concurrently,it significantly enhances soil microbial richness and diversity,elevating the relative abun-dances of biocontrol-associated genera(e.g.,Bacillus and Flavobacterium)while suppressing pathogenic taxa such as Fusarium.This dual regulatory mechanism effectively synergizes to maintain a balanced and healthy soil microbial community structure,ultimately conferring ro-bust suppression of clubroot disease of oilseed rape.关键词
芽孢杆菌/油菜/根肿菌/根际土壤/微生物群落结构Key words
Bacillus spp./Brassica napus L./Plasmodiophora brassicae/Rhizosphere soil/Microbial community structure分类
农业科技引用本文复制引用
黄小琴,杨潇湘,刘勇,胡孜进,余垚颖,张重梅,邓越,宋沛,张蕾,周西全..基于高通量测序分析芽孢杆菌Bam22防治油菜根肿病的机制[J].西南农业学报,2026,39(2):225-234,10.基金项目
四川省自然科学基金项目(2023NSFSC0150) (2023NSFSC0150)
四川省农业科学院"1+9"揭榜挂帅科技攻关项目(1+9KJGG006) (1+9KJGG006)
四川省财政自主创新专项(2022ZZCX023) (2022ZZCX023)
国家产业技术体系四川省创新团队项目(SCCXTD-2025-3) (SCCXTD-2025-3)
