Influence of nanosilicon on drought tolerance in plants: An overview

Abstract: Insufficient availability of water is a major global challenge that plants face and that can cause substantial losses in plant productivity and quality, followed by complete crop failure. Thus, it becomes imperative to improve crop cultivation/production in unsuitable agricultural fields and integrate modern agri-techniques and nanoparticles (NPs)-based approaches to extend appropriate aid to plants to handle adverse environmental variables. Nowadays, NPs are commonly used with biological systems because of th… Show more

“…It is classified as 'multi-talented' quasi-essential element due to its important role in physiological/metabolic pathways, cell structure, and plant survival during adverse environmental conditions. Among the various types of NPs, nSi has demonstrated a significant ability to enhance plant performance in stressful conditions (Liang et al, 2015;Hussain et al, 2019;Verma et al, 2022d).…”

Nanosilicon: An approach for abiotic stress mitigation and sustainable agriculture

“…It is classified as 'multi-talented' quasi-essential element due to its important role in physiological/metabolic pathways, cell structure, and plant survival during adverse environmental conditions. Among the various types of NPs, nSi has demonstrated a significant ability to enhance plant performance in stressful conditions (Liang et al, 2015;Hussain et al, 2019;Verma et al, 2022d).…”

Nanosilicon: An approach for abiotic stress mitigation and sustainable agriculture

Mechanisms of Action of Nanosilica to Reduce Oxidative Stress in Plants

Elucidating the underlying mechanisms of silicon to suppress the effects of nitrogen deficiency in pepper plants