Integrating Digital Tools And Regenerative Practices: A Review On Precision Agriculture For Sustainable Soil Health And Climate Resilience

Abstract

The growing challenges of climate change, increasing global food demand, and extensive soil degradation necessitate innovative agricultural approaches (Niru Kumari et al., 2024). Precision agriculture technologies (PATs) offer a transformative pathway by optimizing resource management and enhancing environmental sustainability (2024). This review synthesizes current literature on integrating digital tools with regenerative agricultural practices to promote sustainable soil health and climate resilience. It explores how PATs, including remote sensing, GPS-guided equipment, variable rate technology (VRT), and Internet of Things (IoT) devices, enable data-driven decision-making for precise management of crops, soil, and resources (2024). By minimizing waste and reducing environmental impact through targeted application of inputs, precision agriculture improves crop yields and supports long-term ecological health (2024). The synergy between advanced digital technologies and regenerative practices actively enhances soil health, increases biodiversity, and improves climate adaptation, crucial for a resilient and productive agricultural future (Delivering Regenerative Agriculture through Digitalization and AI, 2025). This approach not only addresses pressing environmental concerns but also offers significant economic benefits for farmers (Delivering Regenerative Agriculture through Digitalization and AI, 2025).