Halophytes increase rhizosphere microbial diversity, network complexity and function in inland saline ecosystem

盐生植物 根际 生态系统 生物 土壤盐分 生态学 土壤水分 植物 微生物 农学 盐度 细菌 遗传学
作者
Liping Qiu,Weibo Kong,Hansong Zhu,Qian Zhang,Samiran Banerjee,Satoshi Ishii,Michael J. Sadowsky,Jianlun Gao,Changzeng Feng,Jingjing Wang,Chun-Liang Chen,Tianhui Lu,Mingan Shao,Gehong Wei,Xiaorong Wei
出处
期刊:Science of The Total Environment [Elsevier BV]
卷期号:831: 154944-154944 被引量:79
标识
DOI:10.1016/j.scitotenv.2022.154944
摘要

Salinization is an important global environmental problem influencing sustainable development of terrestrial ecosystems. Salt-tolerant halophytes are often used as a promising approach to remedy the saline soils. Yet, how rhizosphere microbes' association and functions vary with halophytes in saline ecosystems remains unclear, restricting our ability to assess the role of halophytes in remedying saline ecosystems. Herein, we examined bacterial and fungal diversities, compositions, and co-occurrence networks in the rhizospheres of six halophytes and bulk soils in a semiarid inland saline ecosystem, and related these parameters to microbial functions. The microbiomes were more diverse and complex and microbial activity and residues were higher in rhizospheres than bulk soils. The connections of taxa in the rhizosphere microbial communities increased with fungi-fungi and bacteria-fungi connections and fungal diversity. The proportion of the fungi-related central connections were larger in rhizospheres (13-73%) than bulk soils (3%). Moreover, microbial activity and residues were significantly correlated with microbial composition and co-occurrence network complexity. These results indicated that enhanced association between fungi and bacteria increased microbial co-occurring network complexity in halophytes rhizosphere, which contributed to the higher microbial functions (microbial activities and residue) in this inland saline ecosystem.
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