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hal.structure.identifierPontificia Universidad Católica de Chile [UC]
dc.contributor.authorDUSSARRAT, Thomas
hal.structure.identifierInstitute of Ecology and Biodiversity
hal.structure.identifierPontificia Universidad Católica de Chile [UC]
dc.contributor.authorLATORRE, Claudio
hal.structure.identifierPlateforme Bordeaux Metabolome
hal.structure.identifierBiologie du fruit et pathologie [BFP]
dc.contributor.authorBARROS SANTOS, Millena
hal.structure.identifierUniversidad de Chile = University of Chile [Santiago] [UCHILE]
dc.contributor.authorAGUADO-NORESE, Constanza
hal.structure.identifierBiologie du fruit et pathologie [BFP]
hal.structure.identifierPlateforme Bordeaux Metabolome
dc.contributor.authorPRIGENT, Sylvain
hal.structure.identifierPontificia Universidad Católica de Valparaíso [PUCV]
hal.structure.identifierAgencia Nacional de Investigación y Desarrollo [ANID]
dc.contributor.authorDÍAZ, Francisca
hal.structure.identifierBiologie du fruit et pathologie [BFP]
hal.structure.identifierPlateforme Bordeaux Metabolome
dc.contributor.authorROLIN, Dominique
hal.structure.identifierUniversidad de Cantabria [Santander] = University of Cantabria [Spain] = Université de Cantabrie [Espagne] [UC / UniCan]
dc.contributor.authorGONZÁLEZ, Mauricio
hal.structure.identifierInstitute of Science and Technology [Klosterneuburg, Austria] [IST Austria]
dc.contributor.authorMÜLLER, Caroline
hal.structure.identifierInstituto Milenio de Biología Integrativa = Millennium Institute for Integrative Biology [iBio]
hal.structure.identifierCenter for Genome Regulation [Santiago] [CGR]
dc.contributor.authorGUTIÉRREZ, Rodrigo
hal.structure.identifierPlateforme Bordeaux Metabolome
hal.structure.identifierBiologie du fruit et pathologie [BFP]
dc.contributor.authorPÉTRIACQ, Pierre
dc.date.issued2025
dc.identifier.issn0038-0717
dc.description.abstractEnPlants modulate their rhizochemistry, which affects soil bacterial communities and, ultimately, plant performance. Although our understanding of rhizochemistry is growing, knowledge of its responses to abiotic constraints is limited, especially in realistic ecological contexts. Here, we combined predictive metabolomics with soil metagenomics to investigate how rhizochemistry responded to environmental constraints and how it in turn shaped soil bacterial communities across stress gradients in the Atacama Desert. We found that rhizochemical adjustments predicted the environment (i.e. elevation, R2 between 96% and 74%) of two plant species, identifying rhizochemical markers for plant resilience to harsh edaphic conditions. These metabolites (e.g. glutamic and succinic acid, catechins) were consistent across years and could predict the elevation of two independent plant species, suggesting biochemical convergence. Next, convergent patterns in the dynamics of bacterial communities were also observed across the elevation gradient. Finally, rhizosphere predictors were associated with variation in composition and abundance of bacterial species. Biochemical markers and convergences as well as potential roles of associated predictive bacterial families reflected the requirements for plant life under extreme conditions. This included biological processes such as nitrogen and water starvation (e.g. glutamic and organic acids, Bradyrhizobiaceae), metal pollution (e.g. Caulobacteraceae) and plant development and defence (e.g. flavonoids, lipids, Chitinophagaceae). Overall, findings highlighted convergent patterns belowground, which represent exciting insights in the context of evolutionary biology, and may indicate unique metabolic sets also relevant for crop engineering and soil quality diagnostics. Besides, the results emphasise the need to integrate ecology with omics approaches to explore plant-soil interactions and better predict their responses to climate change.
dc.language.isoen
dc.publisherElsevier
dc.rights.urihttp://creativecommons.org/licenses/by/
dc.subject.enPredictive metabolomics
dc.subject.enRhizochemistry
dc.subject.enPlants
dc.subject.enAtacama desert
dc.subject.enSoil bacterial community
dc.subject.enChemodiversity
dc.title.enRhizochemistry and soil bacterial community are tailored to natural stress gradients.
dc.typeArticle de revue
dc.identifier.doi10.1016/j.soilbio.2024.109662
dc.subject.halSciences du Vivant [q-bio]
dc.subject.halSciences de l'environnement/Biodiversité et Ecologie
dc.subject.halSciences du Vivant [q-bio]/Biologie végétale/Botanique
dc.subject.halSciences du Vivant [q-bio]/Ecologie, Environnement/Interactions entre organismes
dc.subject.halSciences du Vivant [q-bio]/Microbiologie et Parasitologie/Bactériologie
dc.subject.halSciences du Vivant [q-bio]/Sciences agricoles/Science des sols
bordeaux.journalSoil Biology and Biochemistry
bordeaux.page109662
bordeaux.volume202
bordeaux.peerReviewedoui
hal.identifierhal-04806040
hal.version1
hal.popularnon
hal.audienceInternationale
hal.origin.linkhttps://hal.archives-ouvertes.fr//hal-04806040v1
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