Asian Soil Research Journal

Agricultural production systems rely heavily on conventional chemical fertilizers to meet the demands of a growing global population. However, these practices have led to significant environmental issues, including low nutrient use efficiency (NUE), soil degradation, water pollution, and loss of biodiversity. This review comprehensively evaluates the potential of nanotechnology-based fertilizers in sustainable agricultural systems. Nano-fertilizers, with their unique properties such as high surface area, controlled release, targeted delivery, and enhanced solubility, can significantly improve plant nutrient use efficiency. The article examines the types of macro and micronutrient-based nano-fertilizers, application methodologies (foliar spray, seed nanopriming, soil application), their effects on plant growth and stress tolerance, and their integration potential with precision agriculture. Furthermore, the obstacles to widespread adoption (high production costs, potential ecotoxicological risks, regulatory gaps) and future research directions ("smart" nano-fertilizer systems, green synthesis methods, life cycle analyses) are discussed. It is concluded that nano-fertilizer technology represents a promising approach to bridging the gap between agricultural productivity and ecological sustainability. However, it is crucial to acknowledge that most nano-fertilizer applications remain at experimental stages, with limited commercial-scale adoption. The transition from laboratory research to field application presents significant challenges including scalability, cost-effectiveness, and long-term environmental safety assessments. This review provides a balanced perspective on both the potential benefits and current limitations of nano-fertilizer technologies within the context of sustainable agricultural systems.