Main conclusion This review is an effort to provide in-depth knowledge of microbe's
interaction and its role in crop microbiome using combination of advanced molecular and …

Climate change is one of the biggest challenges of the twenty-first century for sustainable
agricultural production. Several reports highlighted the need for better agricultural practices …

Trichoderma spp. are proposed as major plant growth-promoting fungi that widely exist in
the natural environment. These strains have the abilities of rapid growth and reproduction …

Extensive use of synthetic fertilizer to maximize the productivity often leads to depletion of
essential soil nutrients, environmental degradation and adversely affects soil rhizosphere …

Biofilm-producing rhizobacteria (BPR) enhance productivity and mitigate abiotic stresses in
plants. This study showed that 21 out of 65 halotolerant rhizobacteria could build biofilms …

The growth of wheat (Triticum aestivum) is constrained by soil salinity, although some fungal
species have been shown to enhance production in saline environments. The yield of grain …

Soil-borne diseases have become increasingly problematic for farmers producing crops
intensively under protected agriculture. Although soil fumigants are convenient and effective …

Microorganisms are the key players in every agro-ecosystem. They are the natural
inhabitants of all the soil and plant systems, in which they represent dominant presence in …

This study reports the mitigating strategy against salinity by exploring the potential effects of
biochar (5%), Arbuscular mycorrhizal fungi (20 g/pot, AMF), and biochar+ AMF on maize …

The beneficial role of fungi from the Trichoderma genus and its secondary metabolites in
promoting plant growth, uptake and use efficiency of macronutrients and oligo/micro …