Root exudation is an important process determining plant interactions with the soil
environment. Many studies have linked this process to soil nutrient mobilization. Yet, it …

Plant growth promoting microorganisms (PGPM) are an important group of microbial
inoculants, which exist in rhizosphere and have the ability to inhabit the root of the plants …

Drought and nutrient limitations adversely affect crop yields, with below‐ground traits
enhancing crop production in these resource‐poor environments. This review explores the …

Iron (Fe) bioavailability to plants is reduced in saline soils; however, the exact mechanisms
underlying this effect are not yet completely understood. Siderophore-expressing …

Plant-associated microorganisms can stimulate plants growth and influence both crops yield
and quality by nutrient mobilization and transport. Therefore, rhizosphere microbiome …

In concert with oxygen, soil alkalinity strongly restricts the availability of iron, an essential
nutrient with a multitude of functions in living organisms. In addition to its role in …

Saline soils are a major challenge in agriculture, and salinization is increasing worldwide
due to climate change and destructive agricultural practices. Excessive amounts of salt in …

Sustainable agriculture requires the application of bioinoculants to control plant pests and
increase productivity. Thus, plant growth-promoting rhizobacteria (PGPR) have emerged as …

Despite the high abundance of iron (Fe) in most earth's soils, Fe is the major limiting factor
for plant growth and development due to its low bioavailability. With an increasing …

Iron (Fe) is an essential micronutrient for plant growth and productivity and, among other
micronutrients, is the one required in higher amounts. In most soils, Fe occurs at relatively …