Abstract
Plant growth relies on both natural and agrochemical inputs, with natural soil nutrients and chemically synthesized fertilizers enhancing its growth. However, continuous fertilizer use can lead to soil alkalinity and environmental contamination, emphasizing the need for sustainable practices. Microbial agents, particularly fungal endophytes, have emerged as promising natural alternatives. They are recognized as integral components of the plant microbiome and aid in nutrient acquisition, hormone production, and stress resistance. Fungal endophytes enhance nutrient uptake by solubilizing phosphorus, fixing nitrogen, and producing siderophores that chelate iron. They also modulate plant hormones, including auxins, gibberellins, and cytokinins, promoting growth and development. Under abiotic stress, these endophytes improve plant tolerance by inducing systemic resistance and enhancing water and nutrient absorption. This review provides a comprehensive theoretical exploration of the role of fungal endophytes in promoting plant growth, examining their diversity, mechanisms of action, and practical applications. The focus is on understanding how these symbiotic organisms can be harnessed to enhance sustainable agricultural practices and contribute to environmental conservation.