Quantification and Diversity of Cultivated Bacteria in Root Endosphere and Rhizosphere of Bamboo Species Fargesia nitida in Association with the Tree Succession

N. Zhang, Jun Xiang, Lin Luo, Danae Rojas Arellano, Yan Jie Wang, Chunzhang Zhao, Fuqiang Shi, E. Wang
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引用次数: 1

Abstract

Fargesia nitida is a cold-resistant evergreen bamboo and is a pioneer plant in the secondary succession after the native trees were destroyed in the eastern Tibetan Plateau. However, little is known about the effects of this plant on soil conditions and about its microbiomes. Aiming at learning the interactions among the soil characteristics, the plants and the microbes in relation to the plant succession, a study on cultivated microbes associated with the rhizocompartments of F. nitida was performed in the present study to reveal the preference of this plant to the root associated microbes, in comparison with that associated with the successive spruce (Picea asperata Mast.) trees. The results demonstrated that growth of F. nitida could improve the soil nutrient contents, especially increasing total nitrogen, NH4+-N, total carbon, and microbial biomass carbon, and maintained more soil bacteria than the successive spruce trees. Based upon the study of F. nitida root-associated cultivated microbial community, the nutrient improvement in F. nitida growing soils might be from the root endophytic bacteria, which presented greater abundance (3.8, 1.7, and 12.6 folds) than that of bacteria in its rhizosphere, root zone soil, and spruce root zone soil, respectively. Pseudomonas members, especially species related to P. baetica and P. vancouverensis, were strongly selected by F. nitida as root endophytes.
毛竹根内圈和根际培养细菌的数量和多样性与树木演替的关系
毛竹(Fargesia nitida)是一种耐寒的常绿竹,是青藏高原东部原生树木被破坏后次生演替的先锋植物。然而,人们对这种植物对土壤条件和微生物群的影响知之甚少。为了了解与植物演替有关的土壤特征、植物和微生物之间的相互作用,本研究通过对nitida根室相关的培养微生物进行研究,揭示了该植物对根室相关微生物的偏好,并与云杉(Picea asperata Mast.)树的演替相关微生物进行了比较。结果表明,与连作云杉相比,黑松菌的生长可提高土壤养分含量,特别是提高全氮、NH4+-N、总碳和微生物生物量碳,维持了更多的土壤细菌。通过对nitida根部相关培养微生物群落的研究,认为nitida生长土壤的养分改善可能来自于根系内生细菌,其丰度分别比根际、根区土壤和云杉根区土壤的细菌丰度高3.8倍、1.7倍和12.6倍。假单胞菌成员,特别是与p.b aetica和p.c vanverensis相关的种,被F. nitida强烈地选择为根内生菌。
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