Hirsutella thompsonii is a fungus that controls mite pests in agriculture. Hirsutella thompsonii is widely used to control rusty wall lice in citrus and other plants. The development of Hirsutella thompsonii insecticide provides a more environmentally friendly solution for developing an alternative to traditional chemical insecticides.
Lifeasible is an integrated plant research company, and we aim to serve plant protection. We offer a variety of effective solutions for agricultural and forestry pest control through greener, more environmentally friendly biopesticides. We combine a variety of advanced biotechnologies to enhance significantly the insecticidal properties of Hirsutella thompsonii as an insecticide. We also improved its integrated application in pest control.
Hirsutella thompsonii is an entomopathogenic fungus whose primary mode of action is to infect insects and use them as hosts for reproduction. The parasitized target pest often grows mycelium from the front, back, and sides of the body. It gradually expands to the limbs and mouth and back along the body wall to the anus, eventually leading to the host's death. Hirsutella thompsonii can control various insects, such as aphids, mites, whiteflies, etc.
Compared to chemical insecticides that indiscriminately affect target and non-target organisms, Hirsutella thompsonii is effective as a fungal insecticide against citrus rusty wall worm. The development of Hirsutella thompsonii insecticides has the following advantages.
Lifeasible is a biological company specializing in biopesticide development. We offer a range of valuable services in insecticide and insecticide protein research. If you are interested in us, please feel free to contact us.
Lifeasible has established a one-stop service platform for plants. In addition to obtaining customized solutions for plant genetic engineering, customers can also conduct follow-up analysis and research on plants through our analysis platform. The analytical services we provide include but are not limited to the following:
July 13, 2024