Add to ORKGMineral nutrients taken up from the soil become incorporated into a variety of important compounds with structural and physiological roles in plants. We summarize how plant nutrients are linked to many metabolic pathways, plant hormones and other biological processes. We also focus on nutrient uptake, describing plant–microbe interactions, plant exudates, root architecture, transporters and their applications. Plants need to survive in soils with mineral concentrations that vary widely. Describing the relationships between nutrients and biological processes will enable us to understand the molecular basis for signaling, physiological damage and responses to mineral stresses
The plant takes up mineral nutrients by its roots from the soil. Minerals are available in the soil ...
<p>The physiological process of zinc uptake in a wheat plant via roots and leaves.</p
The root is an organ that generally grows into the soil in developed plants that have adapted to ter...
Mechanisms characterizing the relationships between root and soil with effects on the mineral nutrit...
Mechanisms characterizing the relationships between root and soil with effects on the mineral nutrit...
An understanding of the mineral nutrition of plants is of fundamental importance in both basic and a...
Nutrient uptake is the mechanism by which plants capture all those elements that are essential for t...
This chapter describes the role of nutrients in regulating plant processes underlying yield formatio...
Optimal plant development requires root uptake of 14 essential mineral elements from the soil. Since...
Nowadays a worrying requirement of food haunts the scientific community: crop production must double...
Plant roots have both direct and indirect effects on nutrient availabilities and fluxes in rhizosphe...
In all living organisms, essential micronutrients are cofactors of many ubiquitous proteins that par...
Plants are the main dietary resource of micronutrients essential for humans. But staple food crops o...
Plants and microbes coexist or compete for survival and their cohesive interactions play a vital rol...
Roots are important not only for water and nutrient supply of the plant, but also to release a wide ...
The plant takes up mineral nutrients by its roots from the soil. Minerals are available in the soil ...
<p>The physiological process of zinc uptake in a wheat plant via roots and leaves.</p
The root is an organ that generally grows into the soil in developed plants that have adapted to ter...
Mechanisms characterizing the relationships between root and soil with effects on the mineral nutrit...
Mechanisms characterizing the relationships between root and soil with effects on the mineral nutrit...
An understanding of the mineral nutrition of plants is of fundamental importance in both basic and a...
Nutrient uptake is the mechanism by which plants capture all those elements that are essential for t...
This chapter describes the role of nutrients in regulating plant processes underlying yield formatio...
Optimal plant development requires root uptake of 14 essential mineral elements from the soil. Since...
Nowadays a worrying requirement of food haunts the scientific community: crop production must double...
Plant roots have both direct and indirect effects on nutrient availabilities and fluxes in rhizosphe...
In all living organisms, essential micronutrients are cofactors of many ubiquitous proteins that par...
Plants are the main dietary resource of micronutrients essential for humans. But staple food crops o...
Plants and microbes coexist or compete for survival and their cohesive interactions play a vital rol...
Roots are important not only for water and nutrient supply of the plant, but also to release a wide ...
The plant takes up mineral nutrients by its roots from the soil. Minerals are available in the soil ...
<p>The physiological process of zinc uptake in a wheat plant via roots and leaves.</p
The root is an organ that generally grows into the soil in developed plants that have adapted to ter...