赖草
根际
微生物群
生物
碱土
化学
植物
细菌
农学
生态学
草原
生物信息学
土壤水分
遗传学
作者
Zhechao Zhang,Zhihong Zhou,Shicheng Feng,Peiran Guo,Yuchen Wang,Baihui Hao,Wei Guo,Frank Yonghong Li
标识
DOI:10.1016/j.eti.2024.103900
摘要
Arbuscular mycorrhizal fungi (AMF) and plant growth-promoting rhizobacteria (PGPR) can synergistically enhance their promotional effects on plants. The positive effects are closely related to their modulation on rhizosphere microbiomes. Leymus chinensis is widely used in restoration of saline-alkaline grasslands. However, the information is unavailable on mechanisms of inoculating AMF and PGPR in enhancing saline-alkaline tolerance of L. chinensis. We conducted a pot experiment to examine effects of separate and combined inoculation of AMF and PGPR , with a focus on the pathways of AMF and PGPR effects by regulating complex interactions in plant rhizosphere. The combined inoculation significantly increased plant biomass (by 40.18–193.18 %) and Na + accumulation, and decreased soil EC and pH to a greater extent than the separate inoculation did, and it was also superior in terms of multiple nutrient accumulation, root ion homeostasis ratios and soil enzyme activities. The combined inoculation significantly enriched beneficial bacterial and symbiotic mycorrhizal taxa, and increased complexity and stability of rhizosphere microbiome. Coexistence of AMF and PGPR activated beneficial secondary metabolic pathways and higher expression of beneficial metabolites, which regulates plant growth and stress response. The inoculation of AMF and PGPR synergically promoted interactions among keystone microbial species from different cluster modules and rhizosphere soil metabolites, and strengthened the roles of core microorganisms and core metabolites, and their interrelations and their relations with host plant. These results implies that the synergistic positive effects of AMF and PGPR on saline-alkaline tolerance of L. chinensis is realized by strengthening the links between rhizosphere metabolites and microbiomes. • Combined inoculation of AMF and PGPR more effectively improves L. chinensis growth than separate inoculation • Coexistence of AMF and PGPR optimizes rhizosphere microbiome and functional interactions of keystone species • Coexistence of AMF and PGPR improves network characteristics, which is helpful for plant growth • Coexistence of AMF and PGPR activates beneficial secondary metabolic function of rhizosphere microenvironment • Coexistence of AMF and PGPR strengthens rhizosphere metabolite-microbiome interactions
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