UN nuclear agency tests drones to fight disease-carrying mosquitoes

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ROMEO, a customized drone, soars through the sky to help control disease-carrying mosquitoes to save lives. Saving lives through controlling disease-carrying mosquitoes is the mission of ROMEO, an innovative concept using a customized drone that recently won fourth place in this year’s Drones for Good Award competition. Beating over 1000 entries, ROMEO, or the Remotely Operated Mosquito Emission Operation, met the competition’s aims of improving people’s lives: it was designed to transport and release sterile male mosquitoes as part of an insect pest birth control method that stifles pest population growth and, in this case, could help prevent the spread of deadly diseases carried by mosquitoes.

UNITED NATIONS: The International Atomic Energy Agency (IAEA), a United Nations agency based in Vienna, and its partners have successfully tested releasing sterile mosquitoes from drones as part of efforts to use a nuclear technique to suppress the insect that spreads Zika and other diseases.

The drone-based mechanism overcomes a critical bottleneck in the application of Sterile Insect Technique (SIT) to control insect pests, the IAEA, which developed the system in partnership with the UN Food and Agriculture Organisation (FAO) and the non-profit group WeRobotics, said.

“The use of drones is a breakthrough, and paves the way for large-scale and cost-efficient releases, also over densely populated areas,” Jeremy Bouyer, medical entomologist at the Joint FAO/IAEA Division of Nuclear Techniques in Food and Agriculture, said.

SIT, a form of insect birth control, uses radiation to sterilise male mosquitoes, which are then released to mate with wild females. As these do not produce any offspring, the insect population declines over time.

However, to be effective, the technique requires the uniform release of large numbers of insects in good condition over a given area. For instance, Aedes mosquitos, responsible for the spread of diseases like dengue or yellow fever, do not disperse for more than 100 metres in their lifetime. They are also fragile, and high-altitude releases by airplanes ” often used in the application of SIT for other insects ” can damage their wings and legs.

The drone-based system overcomes this problem. “We’re pleased with initial tests that show less than 10 per cent mortality through the entire chilling, transport and aerial release process,” Adam Klaptocz, co-founder of WeRobotics, said. The breakthrough technology is also cost-effective, almost half as cheap, it was pointed out.

Until now, sterile mosquitoes have been released using time-consuming and labour-intensive ground methods. “With the drone, we can treat 20 hectares in five minutes,” Bouyer said. Weighing less than 10 kilogrammes, the drone can carry 50,000 sterile mosquitoes per flight and at 10,000 Euro per drone, its use also reduces the cost of releasing mosquitoes by half.

The IAEA and its partners are now working to reduce the drone’s weight and to increase its capacity to carry up to 150,000 mosquitoes per flight. The testing of the system was carried out last month in Brazil, a country hit hard by the 2015-16 Zika epidemic, which also spread to other parts of South and North America and affected several islands in the Pacific, and South-east Asia.

Brazil plans to start using the drone-based system in selected urban and rural areas from January 2019, at the peak of the summer and mosquito season. “We are hopeful about the application of SIT for the control of Aedes aegypti in Brazil with the results from the drone tests,” said Jair Virginio, Director of Brazil-based Moscamed, a recently-designated IAEA Collaborating Centre.