Researchers at the University of Warwick's School of Engineering are using imaging technologies, that are normally applied to automotive engines and sprays, to image thousands of mosquitoes to help develop better netting and physical protection against the malaria spreading insect.
The University of Warwick engineers, David Towers, Natalia Angarita
and Catherine Towers, are helping entomologist colleagues at the
Liverpool School of Tropical Medicine, Philip McCall and Josie Parker,
explore the best insecticide treatment and physical design of the
protection for sleeping people in areas where mosquitoes are a problem.
In observing how mosquitoes engage with insecticide treated barriers such as netting, researchers have in the past mainly relied on recording just the final landing location, which does not give a full picture of how they approach and handle the protective barriers.
The entomologists at the Liverpool School of Tropical Medicine are carrying out their latest experiments in a swamp in Tanzania. The site has a stable mixed population of mosquitoes, some resistant to insecticide, others not. This is particularly important as insecticide resistance is of significant interest when testing bed nets.
They have built a hut at this site mimicking the typical housing and sleeping arrangements for local people. They need to experiment at night when people are at greatest risk of being bitten by anopheles gambiae mosquitoes: the species responsible for transmission of the malaria parasite which is the most dangerous to humans.
The University of Warwick engineers devised a method that would capture a vast amount of data on the behaviour of the tiny mosquitoes. Using a modified back lighting technique the insects have been imaged throughout a 2.0 × 2.4 × 1.0 metre volume using illumination in the near infra-red. This is a wavelength that is not perceived by mosquitoes so it does not change their natural behaviour. Two cameras are positioned so each captures images at a rate of 50 per second. For every hour of operation 360,000 images are captured, each taken at 4 million pixels, or 1.4 TerraBytes (TB) in total size.
Until now there was no software capable of analysing such a large number of high resolution images, so it had to be specially written by the Warwick Engineers and it has now been used to process over 50 TB of data so far.
University of Warwick engineering researcher Professor David Towers said: "There is a lot of interest in the analysis of so-called 'big data' -- here we have the added complexity of capturing information from the field with everything powered from petrol fuelled generators and we need very robust algorithms to be tolerant of the natural variability in behaviour exhibited by wild mosquitoes."
The current phase of the research grant is nearing its conclusion and some initial findings are published in September 2015 in Nature Scientific Reports. The indications show that the mosquitoes do not realise a net is treated before they touch it and future research will build on these findings.
In observing how mosquitoes engage with insecticide treated barriers such as netting, researchers have in the past mainly relied on recording just the final landing location, which does not give a full picture of how they approach and handle the protective barriers.
The entomologists at the Liverpool School of Tropical Medicine are carrying out their latest experiments in a swamp in Tanzania. The site has a stable mixed population of mosquitoes, some resistant to insecticide, others not. This is particularly important as insecticide resistance is of significant interest when testing bed nets.
They have built a hut at this site mimicking the typical housing and sleeping arrangements for local people. They need to experiment at night when people are at greatest risk of being bitten by anopheles gambiae mosquitoes: the species responsible for transmission of the malaria parasite which is the most dangerous to humans.
The University of Warwick engineers devised a method that would capture a vast amount of data on the behaviour of the tiny mosquitoes. Using a modified back lighting technique the insects have been imaged throughout a 2.0 × 2.4 × 1.0 metre volume using illumination in the near infra-red. This is a wavelength that is not perceived by mosquitoes so it does not change their natural behaviour. Two cameras are positioned so each captures images at a rate of 50 per second. For every hour of operation 360,000 images are captured, each taken at 4 million pixels, or 1.4 TerraBytes (TB) in total size.
Until now there was no software capable of analysing such a large number of high resolution images, so it had to be specially written by the Warwick Engineers and it has now been used to process over 50 TB of data so far.
University of Warwick engineering researcher Professor David Towers said: "There is a lot of interest in the analysis of so-called 'big data' -- here we have the added complexity of capturing information from the field with everything powered from petrol fuelled generators and we need very robust algorithms to be tolerant of the natural variability in behaviour exhibited by wild mosquitoes."
The current phase of the research grant is nearing its conclusion and some initial findings are published in September 2015 in Nature Scientific Reports. The indications show that the mosquitoes do not realise a net is treated before they touch it and future research will build on these findings.
Source: University of Warwick.
Journal Reference:
- Josephine E.A. Parker, Natalia Angarita-Jaimes, Mayumi Abe, Catherine E. Towers, David Towers, Philip J. McCall. Infrared video tracking of Anopheles gambiae at insecticide-treated bed nets reveals rapid decisive impact after brief localised net contact. Scientific Reports, 2015; 5: 13392 DOI: 10.1038/srep13392
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