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W3080552676 endingPage "1202" @default.
W3080552676 startingPage "1194" @default.
W3080552676 abstract "Root–soil interactions, involving rhizosphere sensing, root architecture and function, as well as root-induced rhizosphere processes, are crucial for soil health, sustainable food security, and resource use efficiency. Heterogeneity is an important feature of the rhizosphere and this poses a challenge to a thorough understanding of root–soil processes. Uneven distribution of soil particles and resources shapes root activities and the consequent root-induced modification of the rhizosphere. Understanding and integrating root biology with soil processes in the context of the heterogeneous physical structure and resource distribution in soil will help close the application gap between rhizosphere research and agricultural practice, thereby contributing to sustainable crop production. Root–soil interactions in the rhizosphere are central to resource acquisition and crop production in agricultural systems. However, apart from studies in idealized experimental systems, rhizosphere processes in real agricultural soils in situ are largely uncharacterized. This limits the contribution of rhizosphere science to agriculture and the ongoing Green Revolution. Here, we argue that understanding plant responses to soil heterogeneity is key to understanding rhizosphere processes. We highlight rhizosphere sensing and root-induced soil modification in the context of heterogeneous soil structure, resource distribution, and root–soil interactions. A deeper understanding of the integrated and dynamic root–soil interactions in the heterogeneously structured rhizosphere could increase crop production and resource use efficiency towards sustainable agriculture. Root–soil interactions in the rhizosphere are central to resource acquisition and crop production in agricultural systems. However, apart from studies in idealized experimental systems, rhizosphere processes in real agricultural soils in situ are largely uncharacterized. This limits the contribution of rhizosphere science to agriculture and the ongoing Green Revolution. Here, we argue that understanding plant responses to soil heterogeneity is key to understanding rhizosphere processes. We highlight rhizosphere sensing and root-induced soil modification in the context of heterogeneous soil structure, resource distribution, and root–soil interactions. A deeper understanding of the integrated and dynamic root–soil interactions in the heterogeneously structured rhizosphere could increase crop production and resource use efficiency towards sustainable agriculture." @default.
W3080552676 created "2020-09-01" @default.
W3080552676 creator A5006822602 @default.
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W3080552676 creator A5083596501 @default.
W3080552676 date "2020-12-01" @default.
W3080552676 modified "2023-10-17" @default.
W3080552676 title "Sustainable Cropping Requires Adaptation to a Heterogeneous Rhizosphere" @default.
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W3080552676 doi "https://doi.org/10.1016/j.tplants.2020.07.006" @default.
W3080552676 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32830043" @default.
W3080552676 hasPublicationYear "2020" @default.
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