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Distinct rhizobacteria recruitment under copper stress contributes to the different copper-accumulating capacities of two Elsholtzia species (Lamiaceae)
Li,Xiong; Zhao,Gaojuan; Huang,Yingqi; Li,Boqun
2023
发表期刊PLANT AND SOIL
ISSN1573-5036
摘要Background and aimsThis study aims at identifying Cu accumulators from Elsholtzia and uncovering the rhizospheric mechanisms for improving the phytoremediation of Cu-contaminated soils.MethodsThe Cu accumulation capacities of ten Elsholtzia species were investigated in Cu-polluted soil, and two species with the largest differences in Cu accumulation capacities were selected to verify the results and to analyze their rhizospheric response characteristics (e.g., changes in Cu availability and rhizospheric bacterial community) to Cu stress in soils spiked with 0, 250, and 500 mg kg(-1) Cu.ResultsThese 10 Elsholtzia species showed various Cu accumulation capacities (Cu bioconcentration factors: 0.55-1.86 in shoots, 1.13-5.27 in roots), and most of them showed the potential for Cu phytostabilization. Among them, E. eriocalyx and E. winitiana could both tolerate up to 500 mg kg(-1) Cu in soils but showed high- and low-Cu-accumulating capacities, respectively. Rhizospheric analysis indicated that specific rhizobacteria recruited by E. eriocalyx and E. winitiana were responsible for their differential Cu uptake. Several different plant growth-promoting rhizobacteria (e.g., Sphingomonas, Gemmatimonas, Devosia, and Flavisolibacter) might contribute to the plant vitality of E. eriocalyx under Cu stress. Moreover, the dominant Sphingomonas was responsible for the higher Cu accumulation in E. eriocalyx plants. However, the dominance of several rhizobacteria in the Planctomycetes phylum might participate in Cu immobilization, thus decreasing Cu uptake by E. winitian.ConclusionThis study identifies novel Elsholtzia species resources for the phytoremediation of Cu-contaminated soils and improves our understanding of the roles of rhizobacteria in regulating the Cu accumulation capacities of plants.
关键词Copper pollution Lamiaceae Phytoremediation Siderophore Plant growth-promoting rhizobacteria SOIL REMEDIATION CD
学科领域Agriculture ; Plant Sciences
DOI10.1007/s11104-023-06017-3
WOS记录号WOS:000968515800003
引用统计
文献类型期刊论文
条目标识符http://ir.kib.ac.cn/handle/151853/74817
专题中国科学院昆明植物研究所
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Li,Xiong,Zhao,Gaojuan,Huang,Yingqi,et al. Distinct rhizobacteria recruitment under copper stress contributes to the different copper-accumulating capacities of two Elsholtzia species (Lamiaceae)[J]. PLANT AND SOIL,2023.
APA Li,Xiong,Zhao,Gaojuan,Huang,Yingqi,&Li,Boqun.(2023).Distinct rhizobacteria recruitment under copper stress contributes to the different copper-accumulating capacities of two Elsholtzia species (Lamiaceae).PLANT AND SOIL.
MLA Li,Xiong,et al."Distinct rhizobacteria recruitment under copper stress contributes to the different copper-accumulating capacities of two Elsholtzia species (Lamiaceae)".PLANT AND SOIL (2023).
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