Salinity and drought stress substantially decrease crop yield and superiority, directly
threatening the food supply needed to meet the rising food needs of the growing total …

The advancement in nanotechnology has enabled a significant expansion in agricultural
production. Agri-nanotechnology is an emerging discipline where nanotechnological …

Alleviating the adverse effects of abiotic and biotic stress factors on crop plants is essential
to achieve higher productivity for satisfying the future food demands of the rapidly-growing …

Lentil is one of the highly nutritious legumes but is highly susceptible to salinity stress.
Silicon has been known to reduce the effect of various environmental stresses including …

Background Drought is a major abiotic stress that restricts plant growth and efficiency
although some nutrients such as silicon improve drought tolerance by regulating the …

Drought is a key abiotic stress that confines agriculture development worldwide. Silicon (Si)
is commonly considered to be a valuable element for resistance against drought and for …

In contemporary floriculture, particularly within the cut flower industry, there is a burgeoning
interest in innovative methodologies aimed at enhancing the aesthetic appeal and …

Abiotic stresses like salinity and micronutrient deficiency majorly affect wheat productivity.
Applying mesoporous silica nanoparticles (MSiNPs) as a smart micronutrient delivery …

Background Drought stress is a critical environmental factor that disturbs plant performance.
However, some non-essential elements such as silicon can improve water deficit tolerance …

Abstract Silica nanoparticles (SiO 2-NPs) have been demonstrated to alleviate the adverse
impacts of salt or low temperature on crop growth, especially for individual stress. The aim of …