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<h2 style="margin-top:30px; margin-bottom:10px;">Bait Trap</h2><hr /> | <h2 style="margin-top:30px; margin-bottom:10px;">Bait Trap</h2><hr /> | ||
− | <p style="font-size:16px;">After the bait trap receives the population size of oriental fruit fly from the IR counter, it will then automatically regulate the frequency of the spray of fungal spore solution and the opening duration of the door.</p> | + | <p style="font-size:16px;">After the bait trap receives the population size of oriental fruit fly from the IR counter, it will then <font color="#FF0000"><b>automatically regulate the frequency </b></font>of the spray of fungal spore solution and the opening duration of the door.</p> |
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<img src="https://static.igem.org/mediawiki/2016/a/a9/T-NYMU-Taipei-photo-floor_1.png" width="100%" /></div> | <img src="https://static.igem.org/mediawiki/2016/a/a9/T-NYMU-Taipei-photo-floor_1.png" width="100%" /></div> | ||
<div style="position:relative; width:48%;"> | <div style="position:relative; width:48%;"> | ||
− | <p style="font-size:16px;">Since flying up is one of the behaviors of B. dorsalis, we set the entrance at the bottom of the trap to hinder the escape of trapped flies. The grower can pull out the drawer to refill the methyl eugenol(a pheromone precursor) to maintain the trap's attraction to male flies. The atomization device in the drawer sprays fungal spore solution to infect the trapped male flies.</p></div> | + | <p style="font-size:16px;">Since flying up is one of the behaviors of B. dorsalis, we set the <font color="#FF0000"><b>entrance</b></font> at the bottom of the trap to hinder the escape of trapped flies. The grower can pull out the drawer to refill the <font color="#FF0000"><b>methyl eugenol(a pheromone precursor)</b></font> to maintain the trap's attraction to male flies. The <font color="#FF0000"><b>atomization device</b></font> in the drawer sprays fungal spore solution to infect the trapped male flies.</p></div> |
</div> | </div> | ||
Revision as of 03:14, 18 October 2016
Prototype
Prototype
Integrated Orchard Safeguard
Overview
Current method of applying entomogenous fungal pesticides is to suspend fungal spores into a solution and introduced through large-scaled spraying. However, with genetically engineered fungi, the contemporary biopesticide deployment method risk damaging the eco-system from the residual fungi. Our project is divided into two main focuses. While our team members in wet lab aim to design a killing switch circuit to decrease the environmental risk of genetically engineered fungus from within the organism. Our prototype team try to avoid the risk of large-scaled pesticide spraying by designing and building an Integrated Orchard Safeguard system centered around our prototype bait trap.
In modern bait traps, the bait only attract B. dorsalis. However, it is female flies that is responsible for the species' high reproductiveness and destructiveness. This is why we designed the bait trap to attract, infect, and release male flies to allow M. anisopliae infection of female flies via copulation. The IR counter, another feature of our prototype, record and provide information including pest population size and meteorological data, such as temperature and humidity. Furthermore, farmers can monitor their orchards with a smartphone app that receives data from the IR counter.
We present the Integrated Orchard Safeguard, a informative defense system that links our bait trap, IR counter, and smartphone app.
Bait Trap
After the bait trap receives the population size of oriental fruit fly from the IR counter, it will then automatically regulate the frequency of the spray of fungal spore solution and the opening duration of the door.
Design
1. The First Layer – Microcontroller, Power
The Arduino UNO in our design has combined with Appsduino's product, AppsBee Shield and Appsduino Shield. (The web site of Appsduino: http://appsduino.com/)
2. The Second Layer – Motor
We use the string attached to a ULN2003 motor to open and close the door.
3. Drawer – Entrance, Atomization Device
Since flying up is one of the behaviors of B. dorsalis, we set the entrance at the bottom of the trap to hinder the escape of trapped flies. The grower can pull out the drawer to refill the methyl eugenol(a pheromone precursor) to maintain the trap's attraction to male flies. The atomization device in the drawer sprays fungal spore solution to infect the trapped male flies.
Features
1. Specificity - Methyl Eugenol
Methyl Eugenol is the pheromone precursor of B. dorsalis. It only attracts male flies. The male flies will fly away once they have consumed enough Methyl Eugenol.
2. Target main Problem – Female B. dorsalis
female B. dorsalis poses more threat than males.
3. Regulation – IR Counter, Trap, Phone App
Automatically regulation of the spray frequency and door open duration depends on the data collected by the IR counter and phone APP.
4. Eco-Friendly – Recycle
Replacing the indissoluble plastic material (distributed by the government) with recyclable wood chips, which can reduce environmental pollution.
Mechanism
Functionality Display Video
IR Counter & APP
IR counter records and provides real-time information of the orchard : pest group size, meteorological data including temperature and humidity. With a smartphone app, the bait traps are able to inform the grower of these important information.
Design
IR Counter + part文字
Functional Test
To improve the accuracy of counter, we tried to find the proper tunnel diameter allows only one-by-one passage of B. dorsalis. We prepared different size of straws to connect two centrifuge tubes. One contained male B. dorsalis, and the other contained the bait, methyl eugenol.
Result
Results indicate that when the tunnel diameter is above 0.8 cm, the flies can pass through.
Diameter(cm) | 2.00 | 1.75 | 1.50 | 1.00 | 0.80 | 0.75 | 0.60 |
outcome | O | O | O | O | O | Hardly | X |
Diameter(cm) | 2.00 | 1.75 | 1.50 | 1.00 | 0.80 | 0.75 | 0.60 |
outcome | O | O | O | O | O | Hardly | X |
(尚未想好名字)
(文字 – 家祥編寫中… 分析實際農地中配置方法 by 承勳model的結果, 成本, Z-bee收訊範圍…)
Integrated Orchard
Safeguard
Overview
In our project, we tried to design a killing switch circuit to make genetically engineered fungus feasible. Despite decreasing the risk and concerns from inside, in prototype, we try to achieve the same goal from the outside. Current method in applying entomogenous fungus are dissolved fungus powder into solution and practice large scale spraying. However, we are dealing with genetically-engineered fungus, the better we implement them, the better to the eco-system, the environment and us.
In practice, the bait will appeal to the male oriental fruit fly, but it is the female one that is high reproductive and destructive. In our project, we come up with the idea of infect the female oriental fruit fly while mating, and conduct related experiment on mating infection rate. IR counter, another feature of our prototype, record and provide in-time information of the orchard, this can pest group size, and other climatological information include temperature, the humidity…etc. With a smartphone app, we are able to inform the grower.
With a bait trap, an IR counter and a smartphone app, we are bringing the integrated orchard safeguard to iGEM.
Bait Trap
After the bait trap receives the population size of oriental fruit fly from IR counter, it will then automatically regulate the frequency of spraying the fungal solution and the length of the door opening time.
Design
1. The First Layer – Microcontroller, Power
晶片設計圖
2. The Second Layer – Motor
We use ULN2003 motor to control the string and let the door go up or down.
3. Drawer – Entrance, Atomization Device
Flying from bottom to up is one the behavior of oriental fruit fly. Thus, we set the entrance at the bottom of the trap make the oriental fruit fly not able to run out. The grower can pull out the drawer to supplement the methyl eugenol(a pheromone precursor) to maintain the attraction for oriental fruit fly. The atomization device in the drawer sprays fungal solution to infect the oriental fruit fly.
Features
1. Specificity - Methyl Eugenol
Methyl Eugenol is the pheromone precursor of oriental fruit fly. It will only appeal to male oriental fruit fly. The male oriental fruit fly will stop and fly away once they consume enough Methyl Eugenol.
2. Target main Problem – Female Oriental Fruit Fly
A female oriental fruit fly poses more threat than male oriental fruit fly.
3. Regulation – IR Counter, Trap, Phone App
Automatically regulation of the frequency and door open duration depending on data from IR counter and phone APP.
4. Eco-Friendly – Recycle
Replacing the indissoluble plastic material (distributed by the government) with recyclable wood chips. It can reduce environmental pollution.
Mechanism
Functionality Display Video
IR Counter & APP
IR counter records and provides in-time information of the orchard : pest group size, climatological information include temperature, the humidity…etc. With a smartphone app, we are able to inform the grower these important information.
Design
IR Counter + part文字
Functional Test
To improve the accuracy of counter, we try to find the proper size that oriental fruit flies can go through the entrance one by one. We prepared different size of straws to connect two centrifuge tubes, and put the bait, methyl eugenol, in one of the tubes.
Result
In our testing, when the diameter of tube is above 0.8 centimeter, the oriental fruit fly can go through the tube.
Diameter(cm) | 2.00 | 1.75 | 1.50 | 1.00 | 0.80 | 0.75 | 0.60 |
outcome | O | O | O | O | O | Hardly | X |
(尚未想好名字)
(文字 – 家祥編寫中… 分析實際農地中配置方法 by 承勳model的結果, 成本, Z-bee收訊範圍…)