Õ¬Äе¼º½

Photograph courtesy of Ausveg and Vegetables Australia.
Photograph courtesy of Ausveg and Vegetables Australia.
20 April 2015

University of Queensland agricultural science student Michael Godfrey has developed a drone that spreads beneficial insects onto crops, potentially saving farmers time and money.

During his Summer Science Scholarship, Mr Godfrey investigated if drones could be used to spread the beneficial Californicus mite onto crops infected with two spotted mites.

Mr Godfrey said two spotted mites ate chlorophyll in leaves, reducing plant vigour and crop yield. 

“As corn grows, it is very difficult to walk between the crop to spread beneficial bugs,” he said.

“A drone flying over the crop and distributing the insects from above is a much more efficient and cost-effective method.”

Mr Godfrey began his project at the Agriculture and Remote Sensing Laboratory at Campus, learning how drones function, before spending time at to gain insight into potential uses for drones.

“I built a specific drone for the project, tailoring the number of propellers, stand, and size of the motor to suit the drone’s application,” he said.

“My initial concept for the ‘Bug Drone’ came from a seed spreader, and in the end I built an attachment to the drone that can be used to spread the mites over the crop from the air.”

Initial designs using a cylinder-shaped container to hold the mites weren’t practical as it couldn’t hold enough of the predatory mites to make the process efficient.

“I used corflute material to make a large enough storage device for the mites,” Mr Godfrey said.

“The seed spreader then acts as the distributer as it has a small motor powering it.”

The device is controlled remotely from the ground.

“We’ve tested the product at Rugby Farms and I’ve successfully proved the concept that drones can be used to spread beneficial bugs,” Mr Godfrey said.

“There is still a lot of work to be done, but the most difficult part is to work out how to control the volume of bugs being distributed at the one time.

“The next step is to monitor the crops and to see what happens after the bugs have been dropped.

“Remote sensing with precision agriculture is an interesting field, and it has opened my eyes to the career opportunities in this field,” he said.  

Students can study at Õ¬Äе¼º½ Gatton in a course run by who also manages the Agriculture and Remote Sensing Laboratory.

Media: Erin Pearl, Õ¬Äе¼º½ Gatton, 0409265587 or (07) 5460 1229 or e.pearl@uq.edu.au.