Rhizosphere metabolic cross-talk from plant-soil-microbe tapping into agricultural sustainability: Current advance and perspectives

Rhizosphere interactions from plant-soil-microbiome occur dynamically all the time in the “black microzone” underground, where we can't see intuitively. Rhizosphere metabolites including root exudates and microbial metabolites act as various chemical signalings involving in rhizosphere interact...

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Veröffentlicht in:	Plant physiology and biochemistry 2024-05, Vol.210, p.108619-108619, Article 108619
Hauptverfasser:	Zhuang, Yong, Wang, Hao, Tan, Furong, Wu, Bo, Liu, Linpei, Qin, Han, Yang, ZhiJuan, He, Mingxiong
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Schlagworte:	Agriculture - methods Biochemical communications disease control ecosystems metabolites Microbial metabolites Microbiota - physiology plant growth Plant Roots - metabolism Plant Roots - microbiology Plants - metabolism Plants - microbiology Rhizosphere Rhizosphere interactions Root exudates soil Soil Microbiology soil quality Stress sustainable agriculture
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creator	Zhuang, Yong Wang, Hao Tan, Furong Wu, Bo Liu, Linpei Qin, Han Yang, ZhiJuan He, Mingxiong
description	Rhizosphere interactions from plant-soil-microbiome occur dynamically all the time in the “black microzone” underground, where we can't see intuitively. Rhizosphere metabolites including root exudates and microbial metabolites act as various chemical signalings involving in rhizosphere interactions, and play vital roles on plant growth, development, disease suppression and resistance to stress conditions as well as proper soil health. Although rhizosphere metabolites are a mixture from plant roots and soil microbes, they often are discussed alone. As a rapid appearance of various omics platforms and analytical methods, it offers possibilities and opportunities for exploring rhizosphere interactions in unprecedented breadth and depth. However, our comprehensive understanding about the fine-tuning mechanisms of rhizosphere interactions mediated by these chemical compounds still remain clear. Thus, this review summarizes recent advances systemically including the features of rhizosphere metabolites and their effects on rhizosphere ecosystem, and looks forward to the future research perspectives, which contributes to facilitating better understanding of biochemical communications belowground and helping identify novel rhizosphere metabolites. We also address challenges for promoting the understanding about the roles of rhizosphere metabolites in different environmental stresses. [Display omitted] •Rhizosphere interactions were mediated by root exudates and microbial metabolites as biochemical communications in plant-soil-microbe.•Root exudates were released to cry for helps by altering soil physicochemical properties and microbe flora structure under stresses.•Rhizosphere microbes stimulated directly or indirectly host growth and resistance to ambient pressure via metabolic cross-talk.•The coupling of multi-omics platforms, genetic tools and analytical methods boosted the deepening of rhizosphere interactions.
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Rhizosphere metabolites including root exudates and microbial metabolites act as various chemical signalings involving in rhizosphere interactions, and play vital roles on plant growth, development, disease suppression and resistance to stress conditions as well as proper soil health. Although rhizosphere metabolites are a mixture from plant roots and soil microbes, they often are discussed alone. As a rapid appearance of various omics platforms and analytical methods, it offers possibilities and opportunities for exploring rhizosphere interactions in unprecedented breadth and depth. However, our comprehensive understanding about the fine-tuning mechanisms of rhizosphere interactions mediated by these chemical compounds still remain clear. Thus, this review summarizes recent advances systemically including the features of rhizosphere metabolites and their effects on rhizosphere ecosystem, and looks forward to the future research perspectives, which contributes to facilitating better understanding of biochemical communications belowground and helping identify novel rhizosphere metabolites. We also address challenges for promoting the understanding about the roles of rhizosphere metabolites in different environmental stresses. [Display omitted] •Rhizosphere interactions were mediated by root exudates and microbial metabolites as biochemical communications in plant-soil-microbe.•Root exudates were released to cry for helps by altering soil physicochemical properties and microbe flora structure under stresses.•Rhizosphere microbes stimulated directly or indirectly host growth and resistance to ambient pressure via metabolic cross-talk.•The coupling of multi-omics platforms, genetic tools and analytical methods boosted the deepening of rhizosphere interactions.</description><identifier>ISSN: 0981-9428</identifier><identifier>EISSN: 1873-2690</identifier><identifier>DOI: 10.1016/j.plaphy.2024.108619</identifier><identifier>PMID: 38604013</identifier><language>eng</language><publisher>France: Elsevier Masson SAS</publisher><subject>Agriculture - methods ; Biochemical communications ; disease control ; ecosystems ; metabolites ; Microbial metabolites ; Microbiota - physiology ; plant growth ; Plant Roots - metabolism ; Plant Roots - microbiology ; Plants - metabolism ; Plants - microbiology ; Rhizosphere ; Rhizosphere interactions ; Root exudates ; soil ; Soil Microbiology ; soil quality ; Stress ; sustainable agriculture</subject><ispartof>Plant physiology and biochemistry, 2024-05, Vol.210, p.108619-108619, Article 108619</ispartof><rights>2024 The Authors</rights><rights>Copyright © 2024 The Authors. 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Rhizosphere metabolites including root exudates and microbial metabolites act as various chemical signalings involving in rhizosphere interactions, and play vital roles on plant growth, development, disease suppression and resistance to stress conditions as well as proper soil health. Although rhizosphere metabolites are a mixture from plant roots and soil microbes, they often are discussed alone. As a rapid appearance of various omics platforms and analytical methods, it offers possibilities and opportunities for exploring rhizosphere interactions in unprecedented breadth and depth. However, our comprehensive understanding about the fine-tuning mechanisms of rhizosphere interactions mediated by these chemical compounds still remain clear. Thus, this review summarizes recent advances systemically including the features of rhizosphere metabolites and their effects on rhizosphere ecosystem, and looks forward to the future research perspectives, which contributes to facilitating better understanding of biochemical communications belowground and helping identify novel rhizosphere metabolites. We also address challenges for promoting the understanding about the roles of rhizosphere metabolites in different environmental stresses. 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subjects	Agriculture - methods Biochemical communications disease control ecosystems metabolites Microbial metabolites Microbiota - physiology plant growth Plant Roots - metabolism Plant Roots - microbiology Plants - metabolism Plants - microbiology Rhizosphere Rhizosphere interactions Root exudates soil Soil Microbiology soil quality Stress sustainable agriculture
title	Rhizosphere metabolic cross-talk from plant-soil-microbe tapping into agricultural sustainability: Current advance and perspectives
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