The aim of the research was to develop a catch-and-release trap for monitoring and controlling RPW (Rhynchophorus ferrugineus, red palm weevil). The RPW insects were attracted through the use of an aggregation phero...The aim of the research was to develop a catch-and-release trap for monitoring and controlling RPW (Rhynchophorus ferrugineus, red palm weevil). The RPW insects were attracted through the use of an aggregation pheromone located into a dispenser inside the trap. The RPW adults entered through an entrance door into a sterilization room where they were sprayed with a solution containing the chemical sterilizer product "lufenuron". The adults were then forced to move into a contamination room where it was present a wet media containing spores and hyphae of Metarhizium anisopliae and spores and crystalline insecticidal proteins of Bacillus thuringensis. The sterilized and infected RPW adults were counted and released into the environment where they reached new palms and join natural populations of RPW. Preliminary experiments showed that the catch-and-release trap was able to reduce the fertility of RPW adults and to increase their mortality after contamination with entomopathogens. Moreover, the infected RPW adults were able to infect untreated RPW larvae leading to a larvae mortality of 93% within 30 days. In conclusion, the advanced catch-and-release trap represents a safe and effective tool to monitor and control the population of RPW pest without environmental pollution and risks for human health.展开更多
Subculture Helicoverpa armigera nuclear polyhedrosis virus (HaNPV) is an entomopathogenic virus isolated from cadaver of Helicoverpa armigera larvae, and is successfully produced in Spodoptera litura larvae as an al...Subculture Helicoverpa armigera nuclear polyhedrosis virus (HaNPV) is an entomopathogenic virus isolated from cadaver of Helicoverpa armigera larvae, and is successfully produced in Spodoptera litura larvae as an alternate host. These viral agents have been used to control the population of three species insect pests Spodoptera litura, Crocidolomia pavonana and Plutella xyllostella, which were infested in cabbages plantation. The concentration of virus of 4 × 10^7 polyhedra/mL was sprayed in cabbage leaves 24 h before infested of larva and every four days after. The research used randomized design which consisted of one factor (three species of second instar larvae, S. litura, C. pavonana, P. xyllostella) and eight replications. The result showed that the three species of larvae were sensitive against subculture HaNPV infection. The mortality of each larval species (S. litura, C. pavonana and P. xyllostella) was 100%, 97.5% and 98.7%, respectively. Subculture HaNPV can be utilized to control the population of three species of insect pests in cabbage plantation.展开更多
文摘The aim of the research was to develop a catch-and-release trap for monitoring and controlling RPW (Rhynchophorus ferrugineus, red palm weevil). The RPW insects were attracted through the use of an aggregation pheromone located into a dispenser inside the trap. The RPW adults entered through an entrance door into a sterilization room where they were sprayed with a solution containing the chemical sterilizer product "lufenuron". The adults were then forced to move into a contamination room where it was present a wet media containing spores and hyphae of Metarhizium anisopliae and spores and crystalline insecticidal proteins of Bacillus thuringensis. The sterilized and infected RPW adults were counted and released into the environment where they reached new palms and join natural populations of RPW. Preliminary experiments showed that the catch-and-release trap was able to reduce the fertility of RPW adults and to increase their mortality after contamination with entomopathogens. Moreover, the infected RPW adults were able to infect untreated RPW larvae leading to a larvae mortality of 93% within 30 days. In conclusion, the advanced catch-and-release trap represents a safe and effective tool to monitor and control the population of RPW pest without environmental pollution and risks for human health.
文摘Subculture Helicoverpa armigera nuclear polyhedrosis virus (HaNPV) is an entomopathogenic virus isolated from cadaver of Helicoverpa armigera larvae, and is successfully produced in Spodoptera litura larvae as an alternate host. These viral agents have been used to control the population of three species insect pests Spodoptera litura, Crocidolomia pavonana and Plutella xyllostella, which were infested in cabbages plantation. The concentration of virus of 4 × 10^7 polyhedra/mL was sprayed in cabbage leaves 24 h before infested of larva and every four days after. The research used randomized design which consisted of one factor (three species of second instar larvae, S. litura, C. pavonana, P. xyllostella) and eight replications. The result showed that the three species of larvae were sensitive against subculture HaNPV infection. The mortality of each larval species (S. litura, C. pavonana and P. xyllostella) was 100%, 97.5% and 98.7%, respectively. Subculture HaNPV can be utilized to control the population of three species of insect pests in cabbage plantation.
