Nanomaterials–plants–microbes interaction: plant growth promotion and stress mitigation

Frontiers in Microbiology, Год журнала: 2025, Номер 15

Опубликована: Янв. 15, 2025

Soil salinization, extreme climate conditions, and phytopathogens are abiotic biotic stressors that remarkably reduce agricultural productivity. Recently, nanomaterials have gained attention as effective agents for applications to mitigate such stresses. This review aims critically appraise the available literature on interactions involving nanomaterials, plants, microorganisms. explores role of in enhancing plant growth mitigating These materials can be synthesized by microbes, algae, they applied fertilizers stress amelioration agents. Nanomaterials facilitate nutrient uptake, improve water retention, enhance efficiency active ingredient delivery. strengthen antioxidant systems, regulate photosynthesis, stabilize hormonal pathways. Concurrently, their antimicrobial protective properties provide resilience against stressors, including pathogens pests, promoting immune responses optimizing microbial-plant symbiosis. The synergistic with beneficial microorganisms optimize under conditions. also serve carriers nutrients, regulators, pesticides, thus acting like "smart fertilizers. While nanotechnology offers great promise, addressing potential environmental ecotoxicological risks associated use is necessary. outlines pathways leveraging achieve resilient, sustainable, climate-smart systems integrating molecular insights practical applications.

Язык: Английский

Integrating irrigation management and soil remediation practices for sustainable agricultural production: advances, challenges, and future directions

Agroecology and Sustainable Food Systems, Год журнала: 2024, Номер unknown, С. 1 - 27

Опубликована: Ноя. 16, 2024

Agriculture's important role in human survival and its significant impact on the Earth's ecosystem imply need for sustainable practices. This study focuses critical components of irrigation management soil remediation, essential maintaining health productivity. By integrating these components, assessed feasible remediation practices explored various strategies different contexts. It was observed that with suitable techniques scheduling can improve crop yield, conserve water, enhance long-term marginal soils, addressing challenges climate change, hunger, environmental sustainability. The also advocates incorporating indigenous knowledge physical, chemical, biological techniques, integrated review serves as a valuable resource researchers, policymakers, practitioners, offering insights paving way future research development agriculture. making link between explicit, this illustrates practical cases address complex faced by lands, global food security,

Язык: Английский