Plants forage soil for water and nutrients, whose distribution is patchy and often dynamic. To improve their foraging activities, plants have evolved mechanisms to modify the physicochemical properties and microbial communities of the rhizosphere, i.e. the soil compartment under the influence of the roots. This dynamic interplay in root-soil-microbiome interactions creates emerging properties that impact plant nutrition and health. As a consequence, the rhizosphere can be considered an extended root phenotype, a manifestation of the effects of plant genes on their environment inside and/or outside of the organism. Here, we review current understanding of how plants shape the rhizosphere and the benefits it confers to plant fitness. We discu...
Background First discovered on desert plants by Volkens 1887, rhizosheath formation, i.e. soil aggre...
Great potential exists to harness plant traits at the root-soil interface, mainly rhizodeposition an...
Plant roots have both direct and indirect effects on nutrient availabilities and fluxes in rhizosphe...
Plants forage soil for water and nutrients, whose distribution is patchy and often dynamic. To impro...
Plants forage soil for water and nutrients, whose distribution is patchy and often dynamic. To impro...
Root architectural and anatomical phenotypes are highly diverse. Specific root phenotypes can be ass...
The rhizosphere microbiome plays an important role in plant growth, nutrition and health. Recent res...
Background: Suboptimal water and nutrient availability are primary constraints in global agriculture...
The rhizosphere provides a home to numerous (micro)organisms that in turn may affect plant growth, d...
The rhizosphere provides a home to numerous (micro)organisms that in turn may affect plant growth, d...
The rhizosphere supports the development and activity of a huge and diversified microbial community,...
\u2022 Plant survival and crop productivity are strictly dependent on the capability of plants to ad...
The rhizosphere, meaning the soil volume influenced by the living roots, hosts several important eco...
In recent decades, endophytes have attracted significant attention for their beneficial role in plan...
Plants host a mesmerizing diversity of microbes inside and around their roots, known as the microbio...
Background First discovered on desert plants by Volkens 1887, rhizosheath formation, i.e. soil aggre...
Great potential exists to harness plant traits at the root-soil interface, mainly rhizodeposition an...
Plant roots have both direct and indirect effects on nutrient availabilities and fluxes in rhizosphe...
Plants forage soil for water and nutrients, whose distribution is patchy and often dynamic. To impro...
Plants forage soil for water and nutrients, whose distribution is patchy and often dynamic. To impro...
Root architectural and anatomical phenotypes are highly diverse. Specific root phenotypes can be ass...
The rhizosphere microbiome plays an important role in plant growth, nutrition and health. Recent res...
Background: Suboptimal water and nutrient availability are primary constraints in global agriculture...
The rhizosphere provides a home to numerous (micro)organisms that in turn may affect plant growth, d...
The rhizosphere provides a home to numerous (micro)organisms that in turn may affect plant growth, d...
The rhizosphere supports the development and activity of a huge and diversified microbial community,...
\u2022 Plant survival and crop productivity are strictly dependent on the capability of plants to ad...
The rhizosphere, meaning the soil volume influenced by the living roots, hosts several important eco...
In recent decades, endophytes have attracted significant attention for their beneficial role in plan...
Plants host a mesmerizing diversity of microbes inside and around their roots, known as the microbio...
Background First discovered on desert plants by Volkens 1887, rhizosheath formation, i.e. soil aggre...
Great potential exists to harness plant traits at the root-soil interface, mainly rhizodeposition an...
Plant roots have both direct and indirect effects on nutrient availabilities and fluxes in rhizosphe...