Sewer robots can seek and destroy dengue-carrying mozzies

Embargoed until: Publicly released: 2023-06-09 04:00

International

CC:0

Taiwanese researchers say that their unmanned mosquito-hunting sewer bots can scour the underground network of pipes for the dengue-carrying vampires and kill them off before they make it to the surface. The team tested a crawling robot attached to a controllable cable car and a real-time monitoring system and sent it into the sewers on a mozzie hunt. They found that 20.7% of the sewers they inspected had traces of Aedes mosquito - the ones known to carry dengue, chikungunya, yellow fever and zika. The robots were then able to swiftly cause a mozpocalypse using insecticides or high-temperature water jets, which the team say caused a significant drop in the buzzy-buggers in the area.

Media release

From: PLOS

Robotic vehicles fight dengue-carrying mosquitos in Taiwan sewers

A new study showed the effectiveness of using an unmanned ground vehicle system to monitor sewers for Aedes mosquitos and carry out eradication

Unmanned ground vehicles can be used to identify and eliminate the breeding sources of mosquitos that carry dengue fever in urban areas, according to a new study published this week in PLOS Neglected Tropical Diseases by Wei-Liang Liu of the Taiwan National Mosquito-Borne Diseases Control Research Center, and colleagues.

Dengue fever is an infectious disease caused by the dengue virus and spread by several mosquito species in the genus Aedes, which also spread chikungunya, yellow fever and zika. Through the process of urbanization, sewers have become easy breeding grounds for Aedes mosquitos and most current mosquito monitoring programs struggle to monitor and analyze the density of mosquitos in these hidden areas.

In the new control effort, researchers combined a crawling robot, wire-controlled cable car and real-time monitoring system into an unmanned ground vehicle system (UGV) that can take high-resolution, real-time images of areas within sewers. From May to August 2018, the system was deployed in five administrative discticts in Kaohsiung city, Taiwan, with covered roadside sewer ditches suspected to be hotspots for mosquitos. Mosquito gravitraps were places above the sewers to monitor effects of the UGV intervention on adult mosquitos in the area.

In 20.7% of inspected sewers, the system found traces of Aedes mosquitos in stages from larvae to adult. In positive sewers, additional prevention control measures were carried out, using either insecticides or high-temperature water jets. Immediately after these interventions, the gravitrap index (GI)— a measure of the adult mosquito density nearby— dropped significantly from 0.62 to 0.19.

“The widespread use of UGVs can potentially eliminate some of the breeding sources of vector mosquitoes, thereby reducing the annual prevalence of dengue fever in Kaohsiung city,” the authors say.

Journal/
conference: PLOS Neglected Tropical Diseases

Research:Paper

Organisation/s: National Health Research Institutes, Taiwan

Funder: This study was supported by the National Health Research Institutes (NHRI), Taiwan (grant no. NHRI-MR-111-GP-04 to WLL), awarded NT$ 1 million in total. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

Media Contact/s

Contact details are only visible to registered journalists.