Phosphate-solubilizing bacteria reshaped the rhizosphere microbiome and metabolic profile of wheat to inhibit Cd absorption

IF 4.5 2区 生物学 Q2 ENVIRONMENTAL SCIENCES
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Abstract

Phosphorus-solubilizing bacteria are widely studied for their ability to immobilize heavy metals and promote plant growth. However, previous studies have been focused on the effects of phosphate-solubilizing bacteria on phosphorus release and heavy metal immobilization, and there is a lack of research on the effects of phosphate-solubilizing bacteria on rhizosphere soil bacterial communities and metabolites. In this study, the effects of Klebsiella sp. M2 on wheat rhizosphere microbiome and metabolism were investigated as well as the impact of these changes on wheat absorption of Cd. The results showed that under Cd stress, strain M2 reduced (77.54 %) the content of Cd in culture medium and secreted metabolites involved in plant growth promotion, Cd resistance, and phosphorus solubilization. A pot experiment showed that compared with the control, strain M2 increased (14.3 %-35.9 %) the dry weight and reduced (33.3 %-66.7 %) the content of Cd in wheat grains, straw, and roots. Strain M2 increased the exchangeable Ca, Ca2-P and Fe-P contents, soil pH, and alkaline phosphatase activity and decreased the acid-extractable Cd content in rhizosphere soil. The increase in Ca concentration had a significant promoting effect on the pH in rhizosphere soil. Moreover, the relative abundances of key bacteria such as Ramlibacter, Microvirga, Pseudarthrobacter, Massilia, Streptomyces, and Paenibacillus increased. Additionally, strain M2 increased the contents of some substances in rhizosphere soil that play an important role in immobilizing Cd and solubilizing phosphorus as well as improving wheat tolerance to Cd. The results showed that inoculation with an exogenous phosphate-solubilizing bacterial strain can result in the activation of key functional bacteria and the regulation of metabolite production in wheat rhizosphere soil to immobilize heavy metals, which has broad potential in the remediation of wheat fields with high heavy metal levels.

磷酸盐溶解细菌重塑了小麦的根瘤微生物群和代谢谱,以抑制镉的吸收
磷溶解细菌因其固定重金属和促进植物生长的能力而被广泛研究。然而,以往的研究主要集中在磷溶细菌对磷释放和重金属固定的影响上,缺乏磷溶细菌对根圈土壤细菌群落和代谢产物影响的研究。本研究探讨了克雷伯氏菌 M2 对小麦根瘤菌群和代谢的影响,以及这些变化对小麦吸收镉的影响。结果表明,在镉胁迫下,菌株 M2 能降低培养基中的镉含量(77.54%),并分泌出促进植物生长、抗镉和溶磷的代谢产物。盆栽实验表明,与对照相比,菌株 M2 增加了小麦粒、秸秆和根部的干重(14.3 %-35.9 %),降低了镉含量(33.3 %-66.7 %)。菌株 M2 提高了根瘤土壤中的可交换 Ca、Ca2-P 和 Fe-P 含量、土壤 pH 值和碱性磷酸酶活性,降低了酸提取镉含量。Ca 浓度的增加对根圈土壤的 pH 值有明显的促进作用。此外,Ramlibacter、Microvirga、Pseudarthrobacter、Massilia、Streptomyces 和 Paenibacillus 等关键细菌的相对丰度也有所增加。此外,菌株 M2 还增加了根瘤土壤中某些物质的含量,这些物质在固定镉和溶解磷以及提高小麦对镉的耐受性方面发挥着重要作用。结果表明,接种外源磷酸盐溶解细菌菌株可激活小麦根瘤土壤中的关键功能菌,并调节代谢产物的产生,从而固定重金属,这在修复重金属含量较高的麦田方面具有广泛的潜力。
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来源期刊
Environmental and Experimental Botany
Environmental and Experimental Botany 环境科学-环境科学
CiteScore
9.30
自引率
5.30%
发文量
342
审稿时长
26 days
期刊介绍: Environmental and Experimental Botany (EEB) publishes research papers on the physical, chemical, biological, molecular mechanisms and processes involved in the responses of plants to their environment. In addition to research papers, the journal includes review articles. Submission is in agreement with the Editors-in-Chief. The Journal also publishes special issues which are built by invited guest editors and are related to the main themes of EEB. The areas covered by the Journal include: (1) Responses of plants to heavy metals and pollutants (2) Plant/water interactions (salinity, drought, flooding) (3) Responses of plants to radiations ranging from UV-B to infrared (4) Plant/atmosphere relations (ozone, CO2 , temperature) (5) Global change impacts on plant ecophysiology (6) Biotic interactions involving environmental factors.
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