Through a variety of mechanisms, including increasing the amount of readily available
mineral nutrients, regulating phytohormone levels, and biocontrol of phytopathogens, plant …

Climate change has exacerbated the impact of abiotic stresses, mainly drought, on plant
production. Plant selection, breeding, and genetic engineering to increase drought tolerance …

Plant growth-promoting rhizobacteria (PGPR) such as Bacillus and Pseudomonas have
drawn broad attention and interest due to their agricultural benefits. One of the major …

Drought is a major stressor that poses significant challenges for agricultural practices. It
becomes difficult to meet the global demand for food crops and fodder. Plant physiology …

Dibutyl phthalate (DBP) continues being one of the most frequently detected plasticizers in
agricultural soils. Electrokinetic-assisted bioremediation was considered as one of the eco …

Chemical surfactants have raised concerns due to their negative impact on ecosystems,
prompting the search for eco‐friendly alternatives. Biosurfactants derived from …

Farmers must prioritize soil enhancement methods to preserve soil health and sustainability
as the world population grows, whereas arable lands deplete and degrade owing to poor …

To avoid the unreasonable use of chemical fertilizer, an environmentally friendly means of
improving soil fertility is required. This study explored the role of the plant growth-promoting …

Drought stress is a critical factor limiting plant growth and agricultural productivity, causing
significant physiological and biochemical disruptions. This study addresses the gap in …

Nitrogen (N) deficiency limits crop productivity. In this study, rhizoengineering with biofilm
producing rhizobacteria (BPR) contributing to productivity, physiology, and bioactive …