Team:Valencia UPV/Project/modules/methodology/windtunnel
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Saturation ambient in the cabinet is difficult to achieve as the laminar flow allows the air renewal at each instant, preventing the receptor saturation inside the tunnel. Therefore in these set up the odorant molecule is not expected to act a disruptant but as an attractant. </p> | Saturation ambient in the cabinet is difficult to achieve as the laminar flow allows the air renewal at each instant, preventing the receptor saturation inside the tunnel. Therefore in these set up the odorant molecule is not expected to act a disruptant but as an attractant. </p> | ||
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The insect will react to the source and this behaviour is recorded. Possible actions include keeping quiet, moving from its position by flying or not, oriented flight to the source, get in contact with the stimulus and so forth. This procedure has to be repeated many times in order to obtain statistically significant data. </p> | The insect will react to the source and this behaviour is recorded. Possible actions include keeping quiet, moving from its position by flying or not, oriented flight to the source, get in contact with the stimulus and so forth. This procedure has to be repeated many times in order to obtain statistically significant data. </p> | ||
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Latest revision as of 02:16, 18 October 2014
Project > Modules > Methodology > Wind Tunnel
Wind tunnel is a tool used for insect flight studies where the biological response of an insect to a certain stimuli, usually an odorant molecule, is tested. It consists of a rectangular cabinet of transparent walls with a laminar air flow system. The stimulant source is placed at the side where the air is entering the chamber and at the opposite extreme of the wind tunnel a male moth is placed on the ground or preferably elevated over a base.
Saturation ambient in the cabinet is difficult to achieve as the laminar flow allows the air renewal at each instant, preventing the receptor saturation inside the tunnel. Therefore in these set up the odorant molecule is not expected to act a disruptant but as an attractant.
The insect will react to the source and this behaviour is recorded. Possible actions include keeping quiet, moving from its position by flying or not, oriented flight to the source, get in contact with the stimulus and so forth. This procedure has to be repeated many times in order to obtain statistically significant data.
When the moth and a small amount of the inducing agent (0.05 ug) are placed on the opposite side, the laminar flow is switched on. Male behaviour is observed for 3-10 minutes. If the moth flies to the opposite side where the stimulus is placed means an attractive response. Behaviour recordings includes staying on the place where it was deposited, oriented flight, taking flight but dispersed or not oriented to the source [1].
(*) Part of this figure has been taken of "Helicoverpa armigera 1" by Donald Hobern from Canberra, Australia - Helicoverpa armigera. Uploaded by berichard. Licensed under Creative Commons Attribution 2.0 via Wikimedia Commons - http://commons.wikimedia.org/wiki/File:Helicoverpa_armigera_1.jpg#mediaviewer/File:Helicoverpa_armigera_1.jpg
References
- Eizaguirre M, Albajes R, López C, Sans A, Gemeno (2007) Inhibition of pheromone response in Sesamia nonagrioides by the pheromone of the sympatric corn borer, Ostrinia nubilalis. Pest Manag Sci 63:608-614.