A newly devised electric field screen for avoidance and capture of cigarette beetles and vinegar flies

A bifunctional electric field screen was proposed to physically exclude insect pests from warehouses. The screen consists of insulated iron wires (ICW) arranged in parallel and two earthed conductor nets placed on both sides of the ICW. A negative charge (0.1–8.0 kV) was applied to the insulated wir...

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Bibliographic Details
Published in:Crop protection 2011-02, Vol.30 (2), p.155-162
Main Authors: Matsuda, Yoshinori, Nonomura, Teruo, Kakutani, Koji, Takikawa, Yoshihiro, Kimbara, Junji, Kasaishi, Yoshihiro, Osamura, Kazumi, Kusakari, Shin-ichi, Toyoda, Hideyoshi
Format: Article
Language:English
Subjects:
Cigarette beetles
Cigarettes
Drosophila melanogaster
electric current
electric field
Electric field screen
electrostatic interactions
equipment design
insect attractants
insect control
insect repellents
insect traps
Lasioderma serricorne
methodology
new methods
Pest management
spatial distribution
storage insects
Vinegar flies
warehouses
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Summary:A bifunctional electric field screen was proposed to physically exclude insect pests from warehouses. The screen consists of insulated iron wires (ICW) arranged in parallel and two earthed conductor nets placed on both sides of the ICW. A negative charge (0.1–8.0 kV) was applied to the insulated wires with a voltage generator to polarize an insulator sleeve used to cover the wire, negatively on the outer surface and positively on the inner conductor wire surface of the sleeve. The negative surface charge of the ICW caused an electrostatic induction in the earthed nets and an opposite charge on the net surfaces facing the ICW. An electric field formed in a space between the ICW and the earthed net, and the field strength increased in direct proportion to increasing voltages applied to the ICW. Adults of the test insects (cigarette beetle ( Lasioderma serricorne) and vinegar fly ( Drosophila melanogaster)) reaching the outer surface of the earthed net were deterred from entering the inside of the charged screen, whereas all insects immediately passed through the screen when the ICW was not charged. This avoidance was directly proportional to the increase in the voltage. In addition, the capability of the screen to capture insects that enter inside the screen was proven by introducing insects into the space between the ICW and the earthed net. Strong capture was observed when the ICW was negatively charged with more than 4.1 kV, under which conditions a short-term electric current (peaking at 0.3–0.6 μA, for 3 min) occurred transiently. This electric current was due to the release of electricity from the insects, giving a net overall positive charge to the insects, which therefore were attracted more strongly to the negatively charged ICW. A test using an attractant-set chamber showed that the insects were completely prevented from passing through the charged screen, in contrast to a rapid transfer of all insects when the screen was not charged. Thus, the present results show that the described screen is a promising physical tool for controlling insect pests in warehouses. ► A bifunctional electric field screen was proposed to physically exclude insect pests from warehouses. ► The screen consists of insulated iron wires (ICW) arranged in parallel and two earthed conductor nets placed on both sides of the ICW. ► A test using an attractant-set chamber showed that the insects were completely prevented from passing through the charged screen.
ISSN:0261-2194
1873-6904
DOI:10.1016/j.cropro.2010.09.001