薄壳山核桃不同种植模式对土壤微生物群落多样性影响OA
Effects of different planting patterns on soil microbial community diversity of Carya illinoensis
[目的]旨在探讨薄壳山核桃(Carya illinoensis)不同林药种植模式对土壤微生物群落多样性的影响.[方法]利用高通量测序技术,分析薄壳山核桃+丹参、薄壳山核桃+射干和单作种植模式下,3年后根际与非根际土壤微生物Alpha多样性、Beta多样性、群落结构及其与土壤环境因子的相关性.[结果]薄壳山核桃套种丹参、射干及单作模式下,根际与非根际土壤细菌和真菌群落的ACE、Chao1、Shannon和Simpson指数均无显著差异,但套种模式下各指数均有一定提高.在细菌群落中,假单胞菌门和酸杆菌门为显著优势菌门;相比不套种,套种丹参和射干的土壤中,假单胞菌门的相对丰度降低,酸杆菌门的相对丰度提高.α-变形菌纲、β-变形菌纲、酸杆菌门Gp6组、Gp4组和热嗜油菌纲为显著优势菌纲;相比不套种,套种丹参和射干的土壤中,α-变形菌纲和β-变形菌纲的相对丰度降低,酸杆菌门Gp6组、Gp4组和热嗜油菌纲的相对丰度提高.不同种植模式下,土壤细菌以Unclassified、Gp6、Gp4、Gp3为显著优势菌属,套种射干和丹参的土壤中Gp6、Gp4的相对丰度高于单作.在真菌群落中,担子菌门和子囊菌门为显著优势菌门;相比不套种,套种丹参和射干的土壤中子囊菌门的相对丰度显著升高,担子菌门显著降低.伞菌纲、粪壳菌纲、座囊菌纲、被孢霉纲和散囊菌纲为显著优势菌纲;相比不套种,伞菌纲相对丰度显著降低,粪壳菌纲、座囊菌纲和被孢霉纲显著升高.土壤真菌以Unclassified、Mortierella、Fusarium为显著优势菌属,套种射干和丹参的土壤中Mortierella、Fusarium的相对丰度高于单作.土壤pH和蔗糖酶是影响土壤细菌属群落的主要环境因子,土壤pH是真菌群落的主要环境因子.[结论]薄壳山核桃林地套种射干和丹参可显著改变土壤微生物群落结构,有利于提高土壤有机质含量、促进土壤难溶性磷转化为植物能够吸收的有效磷,但可能会产生连作障碍,建议2~3年轮作套种.
[Objective]The effects of soil microbial community diversity on different planting patterns of Carya illinoensis with medicinal plants were investigated to determine appropriate patterns.[Method]High-throughput sequencing was used to analyze,the changes of alpha diversity,beta diversity,community structure and correlations with soil environmental factors of rhizosphere and non-rhizosphere soil microorganisms under Carya illinoensis+Salvia miltiorrhiza,Carya illinoensis+Belamcanda and monoculture planting patterns for 3 years.[Result]There was no significant difference in the ACE,Chao1,Shannon,and Simpson indices of bacteri-al and fungal communities in the rhizosphere and non-rhizosphere soil among Carya illinoensis+Salvia miltior-rhiza,Carya illinoensis+Belamcanda and monoculture,but the interplanting was improved compared with di-versity indices.In the bacterial community,Pseudomonadota and Acidobacteriota were significantly dominant fungal phyla,compared with monoculture,the relative abundance of pseudomonadota was decreased and Acido-bacteriota was increased in interplanting Salvia miltiorrhiza and shoot soil.α-Proteobacteria,β-Proteobacteria,Gp 6 group,Gp 4 group and Thermoleophilia were the significantly dominant groups.Compared with single crop-ping,the relative abundance of α-proteobacteria and β-proteobacteria was reduced in interplanting Salvia milt-iorrhiza and shoot soil,and the relative abundance of Gp 6 group,Gp 4 group and Thermoleophilia was in-creased.The soil bacteria in different cultivation patterns were dominated by Unclassified,Gp6,Gp4 and Gp3.The relative abundance of Gp6 and Gp4 was higher in intercropping Belamcanda chinensis and Salvia miltior-rhiza than in single cropping.In the fungal community,Basidiomycota and Ascomycota were significantly domi-nant bacteria.Compared with single cropping,the relative abundance of interplanting Salvia miltiorrhiza and shoot soil was significantly increased,and Basidiomycota decreased significantly.Agaricomycetes,Sordariomy-cetes,Dothideomyce,Mortierellomycetes and Eurotiomycetes were the significantly dominant groups.Compared with non-intercropping,the relative abundance of Agaricomycetes significantly decreased,while the relative abun-dances of Sordariomycetes,Dothideomycetes,and Mortierellomycetes significantly increased.The soil fungi were dominated by Unclassified,Mortierella and Fusarium.The relative abundance of Mortierella and Fusarium was higher in intercropping Belamcanda chinensis and Salvia miltiorrhiza than in single cropping.pH and sucrase were important environmental factors affecting the soil bacterial communities.[Conclusion]The planting pat-terns of Carya illinoensis+Salvia miltiorrhiza and Carya illinoensis+Belamcanda chinensis significantly affect soil microbial community structure,can improve the soil organic matter content and promote the transformation of soil insoluble phosphorus into effective phosphorus.At the same time,there may be continuous cropping ob-stacles,so crop rotation pattern is recommended.
杜洋文;周国清;杜拾平;周倩;张荣洋;唐明孝
湖北省林业科学研究院,湖北 武汉 430075湖北省林业科学研究院,湖北 武汉 430075湖北省林业科学研究院,湖北 武汉 430075湖北省林木种苗管理总站,湖北 武汉 430079京山市虎爪山林场,湖北 京山 431815国营麻城市狮子峰林场,湖北 麻城 438300
农业科技
薄壳山核桃套种微生物多样性微生物群落结构
Carya illinoensisinterplantingmicrobial diversitymicrobial community structure
《江西农业大学学报》 2026 (2)
419-431,13
湖北省重点研发计划项目(2022BBA153)Project supported by Key-area Research and Development Program of Hubei Province(2022BBA153) 中央财政林业科技推广示范资金项目(鄂[2024]TG11号),中央财政林业科技推广示范资金项目(鄂[2025]TG12号)对本研究给予了资助,谨致谢意!
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