International Journal of Environment and Climate Change

Biological nitrogen fixation (BNF) is a key ecological process that converts atmospheric nitrogen into plant-available forms through symbiosis between legumes and nitrogen-fixing microorganisms. Although essential for sustainable agriculture, its natural efficiency is often constrained by environmental variability, soil nutrient imbalances, and genetic limitations of host plants. Recent technological advancements have led to the development of precision-enhanced BNF systems to overcome these limitations and improve crop productivity.
This review synthesizes findings from multiple recent studies focusing on natural BNF mechanisms, limitations of conventional systems, genetic and microbial innovations, and the integration of precision agriculture tools. The studies employed approaches such as molecular and genomic analyses, evaluation of advanced microbial inoculants, and field-based assessments of site-specific nutrient management to examine their effects on nitrogen fixation and plant performance. The reviewed studies consistently show that integrating genomic-assisted breeding, efficient microbial inoculants, and precision nutrient management significantly enhances nitrogen fixation efficiency, nodulation, and overall legume productivity. However, variability in environmental conditions, challenges in large-scale implementation, and adoption barriers among farmers remain important constraints.