HomeAgricultureBengaluru Drone Farming Trials Show Big Gains, Slash Water Use

Bengaluru Drone Farming Trials Show Big Gains, Slash Water Use

Drone technology is rewriting the rules of agriculture in southern Karnataka, particularly in Bengaluru and surrounding districts, where recent research trials have demonstrated significant increases in crop yield while drastically reducing water consumption. The trials, conducted over a two-year period across 10 districts, mark a major shift in sustainable farming. By replacing traditional agrochemical spraying methods with drones, experts recorded up to a 90% reduction in water usage. Meanwhile, yields of key crops like finger millet and pigeon pea saw a measurable boost, offering a promising path forward in climate-resilient, tech-enabled agriculture.

Across the southern Karnataka belt, including Bengaluru, Mandya, Kolar and Hassan, field trials used standardised drone operating procedures developed by a public university. The study incorporated detailed spray metrics such as nozzle type, discharge rate, altitude, and volume of chemicals, refined for varying stages of crop growth. By cutting manual labour dependency and increasing spraying precision, drone use addressed both economic and ecological pressures. Officials explained that rural depopulation has intensified labour shortages, and drones are fast emerging as the most viable mechanised solution for small and medium farmers struggling with declining productivity and harsh weather patterns. The study’s breakthrough finding was the steep decline in water required for spraying—from 500 litres per hectare in manual methods to just 55 litres using drones. Agrochemicals were applied more uniformly and efficiently, minimising drift and avoiding plant damage.

Yields increased by 5% for finger millet and 10% for pigeon pea, even under diverse soil and climatic conditions. Trials were conducted on six plots per location, with proper buffering to eliminate contamination risks. The environmental benefits also stood out: reduced chemical exposure for humans and animals, alongside minimised soil degradation, reinforced the role of drone farming in greener food production. Technicians involved in the study noted that their drone operating model differed significantly from national guidelines, offering localised efficiency. By designing custom parameters, the teams addressed region-specific needs—right from chemical ratios to spray heights. Further, researchers fine-tuned nozzles based on varied plant structures, ensuring effective coverage without over-saturation or lodging. This nuanced approach made the results more credible, and experts believe it can be scaled up for pulses and cereals across semi-arid zones.

The study not only provides a roadmap for sustainable crop management but also opens up skilling avenues in precision agriculture. As urban migration depletes the agricultural workforce and climate pressures intensify, drone farming offers a future-proof solution for equitable, environmentally responsible food systems. Bengaluru’s success with region-specific standardisation could become a blueprint for India’s broader drone agriculture strategy. Public sector investment in skilling, local SOP creation, and small farmer subsidies will be key in expanding this innovation beyond pilot projects. While challenges such as costs, battery life, and regulatory clarity remain, the transition to drone-based farming holds potential to reshape India’s agri-landscape—ensuring sustainability, water conservation, and food security in equal measure.

Also Read: Tiruvannamalai Sees Seasonal Revival of Fish Farming in Local Irrigation Tank
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