寒地软枣猕猴桃园土壤纤毛虫群落季节变化特征OA
Seasonal variations of soil ciliate community in Actinidia arguta orchard in cold region
土壤原生动物可以通过捕食细菌和真菌调控植物根际的微生物群落结构,对植物的生长有着不可忽视的作用.为了揭示东北寒地软枣猕猴桃根际土壤原生动物群落组成及多样性的季节变化,本研究选取佳木斯大学寒地软枣猕猴桃(LD133)种质资源圃,于2023年3、6、9和12月采集LD133根际表层和次表层土壤样品,用非淹没培养法和活体观察法培养和鉴定土壤纤毛虫类群.结果表明:共鉴定出土壤纤毛虫71种,隶属于3纲11目29科46属,优势目为腹毛目(Hypotrichida)、肾形目(Colpodida)和膜口目(Hymenosto-matida);6月的表层土壤和次表层土壤的多样性指数均为最高,6月次表层和9月表层土壤中的纤毛虫群落组成有明显差异,说明纤毛虫在不同生态位上的分化;不同季节的土壤pH值有所变化,其中3月的表层土壤pH最低(4.93),9月的次表层土壤pH最高(6.68),大多数纤毛虫可在相对宽的pH范围内存活;土壤纤毛虫群落特征与环境因子Pearson相关性分析表明,有机质、全氮、NO3--N含量与均匀度指数E、优势度指数D和多样性指数H均存在一定的相关性.本研究结果探明了不同季节寒地软枣猕猴桃LD133根际土壤中原生动物纤毛虫类群的复杂性,可为深入了解藤本植物根际土壤微生态平衡提供数据支持.
Soil protozoa can regulate microbial community structure in the rhizosphere by preying on bacteria and fungi,and thus play a non-negligible role in plant growth.To understand the seasonal variations of the composition and diversity of the protozoan community in the rhizosphere soil of Actinidia arguta in the cold-region of Northeast China,we selected Actinidia arguta(LD133)germplasm resource orchard of Jiamusi University and collected the surface and subsurface soils of the rhizosphere of LD133 in March,June,September,and December 2023.Soil ciliate groups were cultivated and identified by non-flooding culture method and in vivo observation method.A total of 71 species of soil ciliates were identified,belonging to 3 classes,11 orders,29 families,and 46 genera.The dominant orders were Hypotrichida,Colpodida,and Hymenostomatida.The diversity indices of surface and subsur-face soils in June were the highest.There were significant differences in the composition of ciliate communities in the subsurface soil in June and the surface soil in September,indicating the niche differentiation of ciliates.Soil pH varied among different seasons.Specifically,soil pH of the surface layer was the lowest in March(4.93),and soil pH of the subsurface layer was the highest in September(6.68).Most ciliates could survive within a relatively wide pH range.Soil organic matter,total nitrogen,NO3--N contents were correlated with evenness index(E),domi-nance index(D)and diversity index(H)of soil ciliate community.Our results clarified the complexity of the cili-ate groups of protozoa in the rhizosphere soil of Actinidia arguta in different seasons,providing data support for in-depth understanding of the microecological balance of the rhizosphere soil of vines.
卞文杰;卢碧渤;罗福倩;吴陈雪;谢姣姣;李雨彤;刘德江;王影
佳木斯大学生物与农业学院,黑龙江佳木斯 154007佳木斯大学生物与农业学院,黑龙江佳木斯 154007佳木斯大学生物与农业学院,黑龙江佳木斯 154007佳木斯大学生物与农业学院,黑龙江佳木斯 154007佳木斯大学生物与农业学院,黑龙江佳木斯 154007佳木斯大学生物与农业学院,黑龙江佳木斯 154007佳木斯大学生物与农业学院,黑龙江佳木斯 154007||中-乌农林技术开发与应用国际合作联合实验室,黑龙江佳木斯 154007佳木斯大学生物与农业学院,黑龙江佳木斯 154007||中-乌农林技术开发与应用国际合作联合实验室,黑龙江佳木斯 154007
软枣猕猴桃根际土壤纤毛虫季节变化
Actinidia argutarhizospheresoilciliateseasonal variation
《生态学杂志》 2026 (5)
1562-1568,7
黑龙江省省属高等学校基本科研业务费科研项目(2023KYYWF0578)资助.
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