Ovillanta

An ovillanta is a type of mosquito trap designed by researchers at Laurentian University in Ontario, Canada, and tested in cooperation with the Ministry of Health in Guatemala and with researchers in Mexico. The simple, low-cost trap allows efficient collection and disposal of mosquito eggs and larvae.

History

Laurentian University professor Gerardo Ulibarri, who has been studying ways to reduce numbers of mosquitoes since 2003, and had previously developed other types of mosquito control devices,[1][2] began a study locally to find a way to reduce numbers of Culex mosquitoes which spread West Nile virus and other diseases. Ulibarri and his fellow researchers designed an inexpensive trap that they called an ovillanta. Preliminary studies showed that this type of trap can attract about seven times as many mosquito eggs as a conventional ovitrap,[3][4] especially when more than one ovillanta are used in close proximity, which might be due to the ‘skip-oviposition’ characteristic of the Aedes mosquitoes.[5]

A ten-month follow-up study was conducted in northern Guatemala, where Dengue fever spread by Aedes aegypti mosquitoes is a serious health problem, and where Zika virus may soon arrive.[6] The study was funded by a Stars in Global Health grant[7] from the Canadian government's Grand Challenges Canada program,[8] and was conducting along with researchers from Mexico and with the Guatemala Ministry of Health.[9] Results of the study were reported in 2016[10] and showed that the traps were particularly effective during the dry season when alternate egg-laying sites were scarce.

Trap design

The design[11] for the trap was released in 2016. Each trap costs less than $4.00CAN to make.

The trap consists of attractant-laced water in a section of discarded rubber tire into which a drain has been installed. The attractant [link to formula needed] is milk-based. Mosquitoes lay eggs on a piece of paper floating in the water. At regular intervals the water is run through a filter and the paper replaced to remove any deposited eggs and larva. The water is then re-used, because mosquitoes release an 'oviposition' pheromone when they lay eggs, and other mosquitoes are attracted to water which contains this pheromone.[12]

3D model

"En 5 Minutes - Piège à moustiques bon marché". Ovillanta interactive 3D model, by Wilfried Vougny. April 14, 2016 (in French)[13]

References

  1. "Sudbury researcher develops mosquito trap". Northern Ontario Business, 1/15/2015, By: Jonathan Migneault
  2. "LU prof targets dangerous mosquitoes". Northern Life, Sep 23, 2014 5:35 PM by: Jonathan Migneault
  3. "Canadian researcher’s mosquito trap offers hope in fight against Zika spread". The Globe and Mail, JULIEN GIGNAC, Friday, Apr. 08, 2016
  4. "A Canadian team is testing a $4 hack to solve the Zika crisis". Toronto Star, Jennifer Yang. Apr 07 2016
  5. Colton, YM, CHADEE, DD and SEVERSON, DW. Medical and Veterinary Entomology (2003) 17, 195–204.
  6. "How this Canadian-designed mosquito trap could help fight Zika virus". CBC Radio: As it Happens, April 07, 2016
  7. http://www.grandchallenges.ca/grantee-stars/0624-01-10/
  8. "This Low-Tech Trap For Killing Mosquito Eggs Is Brilliant". Gizmodo, George Dvorsky
  9. "Canadian team helps develop a low-cost solution to stop the spread of Zika". Design-Engineering, April 11, 2016
  10. http://f1000research.com/articles/5-598/v1
  11. Design video with English subtitles https://drive.google.com/file/d/0B1bF9zth54L8cXdkWXlXTlFBQ1k/view
  12. "How Canadian Scientists Plan to Fight Zika With Old Tires and Milk". Motherboard, by Amanda Roth. April 7, 2016
  13. "En 5 Minutes - Piège à moustiques bon marché" "Le Journal de Montréal", by Wilfried Vougny, Apr. 14, 2016.
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