The present invention is aimed at providing a weed control method and a mixed agrochemical composition for soil treatment, which, in a soil treatment of farmland with pyroxasulfone, not only can inhibit or reduce crop injury caused by absorption into cultivated crops, without being influenced by heavy rainfall, soil type, seeding depth and the like, but also are effective against a wide range of weed species. The weed control method includes a soil treatment step of performing a soil treatment on farmland with an agrochemical composition for soil treatment, which contains pyroxasulfone, and with a protoporphyrinogen oxidase inhibitor, simultaneously or sequentially, the method being characterized in that the agrochemical composition for soil treatment further contains a masking substance that masks the pyroxasulfone, and the pyroxasulfone is microencapsulated in or coated with the masking substance. The mixed agrochemical composition for soil treatment is characterized by containing the agrochemical composition for soil treatment and a protoporphyrinogen oxidase inhibitor.

The present disclosure describes compositions and methods for agricultural production. The formulations described herein enable to combine several active compounds, and are compatible with fertilizers, in particular, liquid fertilizers.

The present disclosure describes compositions and methods for agricultural production. The formulations described herein enable to combine several active compounds, and are compatible with fertilizers, in particular, liquid fertilizers.

The present disclosure describes compositions and methods for agricultural production. The formulations described herein enable to combine several active compounds, and are compatible with fertilizers, in particular, liquid fertilizers.

The invention relates to the compound of the formula (I) in which R.sup.1, R.sup.2 and D have the meanings given in the description, and to the use thereof for controlling animal pests and particularly nematodes.

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Treatment compositions for controlling bed bugs and methods of use, including reducing bed bug resistance to a biological control agent are disclosed. The treatment compositions can include both a NF-kB signaling inhibitor and biological control agent, such as, an entomopathogenic bacteria, to improve the treatment composition efficacy against bed bugs. Provisioning of a small molecule inhibitor of NF-kB signaling can increase the rate of bed bug mortality during infection with a bacterial entomopathogen. Increased mortality can be independent of direct effects of the inhibitor on bacterial growth and can be instead the result of a reduced ability of bed bugs to clear the infection when treated with the inhibitor.

Treatment compositions for controlling bed bugs and methods of use, including reducing bed bug resistance to a biological control agent are disclosed. The treatment compositions can include both a NF-kB signaling inhibitor and biological control agent, such as, an entomopathogenic bacteria, to improve the treatment composition efficacy against bed bugs. Provisioning of a small molecule inhibitor of NF-kB signaling can increase the rate of bed bug mortality during infection with a bacterial entomopathogen. Increased mortality can be independent of direct effects of the inhibitor on bacterial growth and can be instead the result of a reduced ability of bed bugs to clear the infection when treated with the inhibitor.

Treatment compositions for controlling bed bugs and methods of use, including reducing bed bug resistance to a biological control agent are disclosed. The treatment compositions can include both a NF-kB signaling inhibitor and biological control agent, such as, an entomopathogenic bacteria, to improve the treatment composition efficacy against bed bugs. Provisioning of a small molecule inhibitor of NF-kB signaling can increase the rate of bed bug mortality during infection with a bacterial entomopathogen. Increased mortality can be independent of direct effects of the inhibitor on bacterial growth and can be instead the result of a reduced ability of bed bugs to clear the infection when treated with the inhibitor.

The present invention discloses unsaturated hydrocarbon pyrimidine thioether compounds of formula (I) and preparation method and application thereof, the compounds of formula (I) exhibit high insecticidal and acaricidal activity against adults, larvae and eggs of harmful mites and insects in the agriculture, civil use and animal technology fields, meanwhile, the compounds also exhibit good bactericidal activity, and can be widely applied as an insecticide, an acaricide and/or a bactericide in agriculture or other fields ##STR00001##

The present invention discloses unsaturated hydrocarbon pyrimidine thioether compounds of formula (I) and preparation method and application thereof, the compounds of formula (I) exhibit high insecticidal and acaricidal activity against adults, larvae and eggs of harmful mites and insects in the agriculture, civil use and animal technology fields, meanwhile, the compounds also exhibit good bactericidal activity, and can be widely applied as an insecticide, an acaricide and/or a bactericide in agriculture or other fields ##STR00001##