June 22, 2024


Imen Hibri, the founder of RoboCare, prepares to fly a drone over an agricultural area to scan the trees from the air
Imen Hbiri, the founder of RoboCare, prepares to fly a drone over an agricultural area to scan the trees from the air.

A drone buzzed back and forth above rows of verdant orange trees planted near Nabeul, eastern Tunisia.

The black unmanned aircraft, equipped with a multi-lens camera and sensors, has been enlisted by Tunisian farmers to help adapt to years of drought and erratic weather patterns caused by .

“The seasons are not like they were before where we knew exactly what to do,” said Yassine Gargouri, noting temperatures now can begin to climb as early as May while in August there have been unusual summer rains.

He hired start-up RoboCare to scan the trees from the air and assess their hydration levels, soil quality and overall health—to prevent irreversible damage.

The “provides us with information on how much water each plant needs, no more, no less”, he said.

The use of modern technologies in agriculture is globally on the rise, including in North Africa where countries rank among the world’s 33 most water-stressed, according to the World Resources Institute.

RoboCare, employing about 10 people, is the only company in Tunisia, according to its 35-year-old founder Imen Hbiri, to use drones to help farmers combat the impacts of climate change and reduce costs, crop losses and water consumption.

Yassine Gargouri (L), a farmer who hired the RoboCare startup company, checks his citrus trees in the region of Nabeul, Tunisia
Yassine Gargouri (L), a farmer who hired the RoboCare startup company, checks his citrus trees in the region of Nabeul, Tunisia.

“Resorting to modern technologies in the sector of agriculture has become inevitable,” Hbiri told AFP while monitoring the drone’s path on her computer screen.

‘Challenge of tomorrow’

The daughter of farmers, the entrepreneur knows well the limits of existing farming methods.

Now, in just a few clicks, she can access scans that detect signs of illness or malnourishment before they are visible to the naked eye.

On the screen, fields appear in RGB (red, green, blue) imagery—the greener the plants, the healthier.

Farmers can then use medicine-filled sprinklers mounted to the drones to target the sickly plants with more precision and consequently less expense.

“By relying on this technology, we can save by up to 30 percent and reduce about 20 percent of the cost of fertilizers and medicine, while raising by 30 percent”, Hbiri explained.

A technician from the RoboCare startup company prepares to fly a drone over an agricultural area
A technician from the RoboCare startup company prepares to fly a drone over an agricultural area.

Gargouri, who spends about 80 percent of his budget on fertilizers and other remedies, says this technology is the future.

“We must adapt to these upheavals,” Gargouri added. “It’s the challenge of tomorrow”.

Tunisia is currently experiencing its eighth year of drought (four of which were consecutive) in recent years, according to its agriculture ministry.

The country’s dams, which are the primary source for drinking water and irrigating crops, are currently only filled to about 22 percent capacity.

And about 20 dams—mostly located in the south—have gone completely out of service.

In neighboring countries, water scarcity is also a major issue.

Licensing hurdles

Morocco—where agriculture accounts for 13 percent of the , 14 percent of exports and 33 percent of jobs—also suffered its worst drought in four decades in 2022.

A drone from the RoboCare startup company flies over an agricultural area to scan the trees and assess their overall health in the region of Nabeul, Tunisia
A drone from the RoboCare startup company flies over an agricultural area to scan the trees and assess their overall health in the region of Nabeul, Tunisia.

Only about three percent of nearly two million Moroccan farmers use new technologies in their fields, Loubna El Mansouri, director of the digital center at Morocco’s agriculture ministry, told AFP.

A study they conducted found that using drones to water crops could use “less than 20 liters of water to irrigate one hectare compared to nearly 300 liters” used with traditional methods, Mansouri added.

Similarly, Algeria’s agriculture ministry said it was using drones and satellite imagery for mapping “to optimize the use of agricultural land by evaluating its characteristics and suitability for production”, local media reported.

For the use of these technologies to become widespread, however, Hbiri says the law needs to be changed in Tunisia and awareness raised.

Algeria, Morocco, and Tunisia ban the use of unmanned drones without a permit, which in the case of commercial uses can take months to be issued.

Hbiri hopes authorities will help reach more farmers as she estimates “only 10 percent of farmers in Tunisia depend on this type of technology”.

“We want to focus our work on the use of technology and not spend time and effort on administrative issues and moving between departments and banks, which is slowing our progress,” she said.

© 2023 AFP

Citation:
Maghreb farmers embrace drones to fight climate change (2023, December 3)
retrieved 3 December 2023
from https://phys.org/news/2023-12-maghreb-farmers-embrace-drones-climate.html

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