XAG Drones Spraying over Aquatic weeds

Flight Height: 2-5 Meters above water Flight Speed: 10-13 m/s
Finished in 5 hrs (Would be impossible to spray it in any other way)
“This water had been infested for years, and we tried everything to control it without success. It got to the point where we couldn’t even spray it by boat. With your drone, you achieved 100% results—the water is crystal clear like we’ve never seen before.”
The Shoalhaven City Council in New South Wales faced a significant challenge in controlling Salvinia molesta, an invasive aquatic weed classified under the Biosecurity Act. Known for its rapid growth, Salvinia can obstruct waterways, degrade water quality, disrupt ecosystems, and result in substantial management costs if left untreated.
To address the issue, XAG Australia’s Operations Team deployed the XAG P100 Pro agricultural drone to spray the affected dam area. Equipped with autonomous flight capabilities and precision spraying technology, the agricultural drone efficiently treated the infestation in just five hours, preventing further spread and protecting the waterway from blockage.
Unlike conventional spraying methods, the P100 Pro was able to safely access hard-to-reach areas without the need for extensive manual labour or specialised ground equipment. Its precise application system ensured chemicals were delivered accurately to the target area, reducing spray waste, improving treatment effectiveness, and minimising environmental impact.
The rapid and efficient operation left a lasting impression on the council, who stated:
"What would take weeks and extensive labour, you achieved in just a few hours."
This successful project highlights how agricultural drones are transforming environmental management by providing faster, more precise, and cost-effective weed control solutions. By combining autonomous flight, remote operation, and targeted spraying, XAG agricultural drones help organisations reduce labour requirements, optimise chemical use, and achieve better outcomes in challenging environments.






