Difference between revisions of "Insects (2018) 9 (3 - 78)"
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{{Publication | {{Publication | ||
| − | |Publication authors=[[Perran A. Ross]] and Ary A. Hoffmann | + | |Publication authors=[[Perran A. Ross]] and [[Ary A. Hoffmann]] |
| − | |Author Page=Perran A. Ross | + | |Author Page=Perran A. Ross, Ary A. Hoffmann |
|Publication date=2018 | |Publication date=2018 | ||
|dc:title= Continued susceptibility of the ''w''Mel ''Wolbachia'' infection in ''[[Aedes aegypti]]'' to heat stress following field deployment and selection | |dc:title= Continued susceptibility of the ''w''Mel ''Wolbachia'' infection in ''[[Aedes aegypti]]'' to heat stress following field deployment and selection | ||
Latest revision as of 23:54, 11 February 2019
Perran A. Ross and Ary A. Hoffmann (2018)
Continued susceptibility of the wMel Wolbachia infection in Aedes aegypti to heat stress following field deployment and selection
Insects 9 (3 - 78)
Abstract: Aedes aegypti mosquitoes infected with the wMel strain of Wolbachia are being deployed to control the spread of arboviruses around the world through blockage of viral transmission. Blockage by Wolbachia in some scenarios may be affected by the susceptibility of wMel to cyclical heat stress during mosquito larval development. We therefore evaluated the potential to generate a heat-resistant strain of wMel in Ae. aegypti through artificial laboratory selection and through exposure to field temperatures across multiple generations. To generate an artificially selected strain, wMel-infected females reared under cyclical heat stress were crossed to wMel-infected males reared at 26 °C. The low proportion of larvae that hatched founded the next generation, and this process was repeated for eight generations. The wMel heat-selected strain (wMel-HS) was similar to wMel (unselected) in its ability to induce cytoplasmic incompatibility and restore compatibility when larvae were reared under cyclical heat stress, but wMel-HS adults exhibited reduced Wolbachia densities at 26 °C. To investigate the effects of field exposure, we compared the response of wMel-infected Ae. aegypti collected from Cairns, Australia where the infection has been established for seven years, to a wMel-infected population maintained in the laboratory for approximately 60 generations. Field and laboratory strains of wMel did not differ in their response to cyclical heat stress or in their phenotypic effects at 26 °C. The capacity for the wMel infection in Ae. aegypti to adapt to high temperatures therefore appears limited, and alternative strains may need to be considered for deployment in environments where high temperatures are regularly experienced in mosquito breeding sites.
(The abstract is excluded from the Creative Commons licence and has been copied with permission by the publisher.)
Full text of article
Database assignments for author(s): Perran A. Ross, Ary A. Hoffmann
Research topic(s) for pests/diseases/weeds:
biocontrol - natural enemies
Research topic(s) for beneficials or antagonists:
general biology - morphology - evolution
Pest and/or beneficial records:
| Beneficial | Pest/Disease/Weed | Crop/Product | Country | Quarant.
|
|---|---|---|---|---|
| Aedes aegypti | Australia (NT+QLD) | |||
| Wolbachia (genus - entomopathogens) | Aedes aegypti | Australia (NT+QLD) |
