ZHANG, Hualiang; LIU, Zilin; ZHENG, Congcong; MA, Huimin; ZENG, Ming; YANG, Xuechen

doi:10.1016/j.micres.2024.128028

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ZHANG, Hualiang
Zhejiang University [Hangzhou, China]

LIU, Zilin
Zhejiang University [Hangzhou, China]

ZHENG, Congcong
Interactions Sol Plante Atmosphère [UMR ISPA]

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Microbiological Research. 2025-03, vol. 292, p. 128028

Elsevier

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The rhizosphere microbiota, often referred to as the plant's "second genome" plays a critical role in modulating root system architecture (RSA). Despite this, existing methods to analyze root phenotypes in the context of root- microbe interactions remain limited, and the precise mechanisms affecting RSA by microbes are still not fully understood. This review comprehensively evaluates current root phenotyping techniques relevant to plant- microbe interactions, discusses their limitations, and explores future directions for integrating advanced technologies to elucidate microbial roles in altering RSA. Here, we summarized that microbial metabolite, primarily through auxin signaling pathways, drive root development changes. By harnessing advanced phenotyping tools, we aim to uncover more detailed mechanisms by which microbes modify RSA, providing valuable insights into strategies for optimizing nutrient uptake, bolstering food security, and enhancing resilience against climate- induced environmental stresses.Read less <

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Carbon trade-off

Plant-soil feedback

Primary and secondary metabolites

Beneficial rhizosphere microbes

Root system architecture (RSA)

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Root system architecture plasticity with beneficial rhizosphere microbes: Current findings and future perspectives

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