Shah Fahad

TL;DR: An attempt is made to critically evaluate the chemical, physical, and biological synthesis of silver nanoparticles (AgNPs) as well as their efficacy in the field of theranostics including microbiology and parasitology to ensure the versatile application of AgNPs in cosmetics, electronics, and medical fields.

TL;DR: High concentration of Cu in the soil affected plant growth and development by reducing plant height, plant diameter and plant fresh and dry biomass and chlorophyll contents in the leaves compared with the control, while L. usitatissimum is able to revoke large amount of Cu from the soil and could be grown as flaxseed and a potential candidate for phytoremediation of Cu.

TL;DR: The present study integrates various mechanisms of drought tolerance in plants, quantitative trait loci, transgenic approach and application of exogenous substances (nitric oxide, 24-epibrassinoide, glycine betaine and proline) are very crucial.

TL;DR: The translocation of natural pesticides in paddy soils depends upon the ionic or neutral behavior of the soil constituents, on the pesticides' solubility in water, extremity on the substance, and the colloidal nature of the paddy soil as discussed by the authors.

TL;DR: The results illustrate that C. capsularis can tolerate Cu concentrations of up to 300 mg kg-1 without significant decreases in growth or biomass, but further increases in Cu concentration lead to significant reductions in plant growth and biomass, and shows a progressive increase in Cu uptake in response to increasing Cu concentrations in the soil, suggesting that the plant is a potential bio-resource for the phytoremediation of Cu in Cu-contaminated soil.