Arnaud Coutu scite author profile

Plant–soil–microbe interactions play a central role in plant nutrient acquisition and thus ecosystem functioning and nutrient availability in agroecosystems. Adjustments in root morphology, root exudation and associations with micro‐organisms such as arbuscular mycorrhizal fungi are common for phosphorus acquisition. Yet how plant below‐ground functional traits interact with microbial communities for P acquisition remains largely unknown, limiting our understanding of phosphorus availability in agroecosystems. Interactions between below‐ground functional traits and rhizosheath soil microbial communities for P acquisition were investigated across eight herbaceous species with contrasting root traits. Root morphological and physiological traits involved in P acquisition were quantified simultaneously with PLFA (phospholipid fatty acid) and NLFA (neutral lipid fatty acid) microbial bioindicators. Multiple correlations were observed between root morphology, root exudates and rhizosheath fungal and bacterial communities. Root exudates and in particular release of malate and malonate were strongly linked with indicators of Gram‐negative bacteria, which were correlated with changes in rhizosheath soil P concentration and plant P content. Our results suggest that root exudation of carboxylates may play an important role in plant–soil–microbe interactions for P acquisition, underlining their likely role in shaping microbial communities. Incorporating these interactions in biogeochemical models would lead to better predicting power and understanding of P cycling and ecosystem functioning. A free Plain Language Summary can be found within the Supporting Information of this article.

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Methane yield optimization using mix response design and bootstrapping: application to solid-state anaerobic co-digestion process of cattle manure and damp grass

Coutu

Mottelet

Guérin³

et al. 2022

Bioresource Technology Reports

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A coupling model for solid-state anaerobic digestion in leach-bed reactors: Mobile-Immobile water and anaerobic digestion model

Coutu¹,

Hernández-Shek²,

Mottelet³

et al. 2022

Bioresource Technology Reports

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Multi-objective optimization of an industrial ethanol distillation system for vinasse reduction – A case study

Silva

Torres

Bonfim-Rocha

et al. 2018

Journal of Cleaner Production

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Transport and retention modeling of the liquid phase through a stratified porous leach-bed. Application for solid-state anaerobic co-digestion of cattle manure and roadside grass

Coutu

André²,

Guérin³

et al. 2022

Bioresource Technology Reports

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Arnaud Coutu

Interactions between below‐ground traits and rhizosheath fungal and bacterial communities for phosphorus acquisition

Methane yield optimization using mix response design and bootstrapping: application to solid-state anaerobic co-digestion process of cattle manure and damp grass

A coupling model for solid-state anaerobic digestion in leach-bed reactors: Mobile-Immobile water and anaerobic digestion model

Multi-objective optimization of an industrial ethanol distillation system for vinasse reduction – A case study

Transport and retention modeling of the liquid phase through a stratified porous leach-bed. Application for solid-state anaerobic co-digestion of cattle manure and roadside grass

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