Rathinapriya Periyasamy ¹ Maharajan Theivanayagam ² Jothi Ravi ³ Prabakaran Mayakrishnan ⁴ In-Bog Lee ¹ Pyeong-Ho Yi ¹ Seungtak Jeong ^1*

• ¹ National Institute of Horticultural and Herbal Science, Rural Development Administration (South Korea), Jeollabuk-do, Republic of Korea
• ² Rajagiri College of Social Sciences, Kochi, Kerala, India
• ³ National Institute of Agricultural Science (South Korea), Wanju, Republic of Korea
• ⁴ Saveetha University, Chennai, Tamil Nadu, India

Global agricultural challenges, especially soil degradation caused by abiotic stresses, significantly reduce crop productivity and require innovative solutions.Global-scale agricultural challenges, particularly soil quality affected by abiotic stresses that significantly reduce crop productivity, demand innovative solutions. Biochar (BC), a biodegradable product derived from agricultural and forestry residues, has been proven to significantly enhance soil quality. Although its benefits for improving soil properties are well-documented, the potential of BC to mitigate various abiotic stresses-such as drought, salinity, and heavy metal toxicity-and its effect on plant traits need further exploration. This review aims to elucidate BC production by highlighting primary feedstock's and synthesis techniques, and examining its role in boosting soil decomposition efficiency and fertility, which are pivotal for sustainable crop growth. This review also discuss how BC can enhance the nutritional and chemical properties of soil under different abiotic stress conditions, emphasizing its capacity to foster crop growth and development in adverse environments. Furthermore, this article serves as a comprehensive resource for agricultural researchers in understanding the importance of BC in promoting sustainable agriculture, and addressing environmental challenges. Ultimately, this review highlights critical knowledge gaps and proposes future research avenues on the bio-protective properties of BC against various abiotic stresses, paving the way for the commercialization of BC applications on a large scale with cutting-edge technologies. BC ameliorates physico-chemical properties of soil against environmental stress. It serves as a significant nutritional reservoir for plant growth improvement. BC acts as a key player in mitigating abiotic stress tolerance for sustainable agriculture. Further studies are needed on expression pattern and characterization of genes in BC's protective roles against abiotic stress. Emphasis should be placed on innovative uses of BC for agricultural stress management.