Abstract: A method and apparatus are disclosed that can sample a wide variety of mosquitoes attempting to rest. Because all mosquitoes rest daily, biases of typical mosquito traps are avoided, such as targeted collections of host-seeking mosquitoes or gravid female mosquitoes. A particular advantage is the inclusion of blood-engorged mosquitoes in the resting collections. In one embodiment, the apparatus includes an open-sided pot designed to attract mosquitoes seeking a daytime resting location. The mosquitoes that enter a dark space of the pot are aspirated into a screened collection receptacle by means of a battery-powered fan.

Abstract: A method and apparatus are disclosed that can sample a wide variety of mosquitoes attempting to rest. Because all mosquitoes rest daily, biases of typical mosquito traps are avoided, such as targeted collections of host-seeking mosquitoes or gravid female mosquitoes. A particular advantage is the inclusion of blood-engorged mosquitoes in the resting collections. In one embodiment, the apparatus includes an open-sided pot designed to attract mosquitoes seeking a daytime resting location. The mosquitoes that enter a dark space of the pot are aspirated into a screened collection receptacle by means of a battery-powered fan.

Abstract: Compounds, compositions, and methods for controlling an arthropod pest population that employ an eremophilane sesquiterpene parent structure are presented. The compounds have minimal adverse or toxic effects on humans, non-human animals, and the natural environment. The compounds may be isolated from natural sources, semi-synthesized from naturally occurring compounds, or completely synthesized. The compounds may be applied directly to a pest, or the locus of a pest, and function as topical or ingestible toxins. Eremophilane sesquiterpenes 13-hydroxy-valencene, valencene-11,12-epoxide, valencene-13-aldehyde, and nootkatone-1,10-11,12-diepoxide are exemplary compounds.

Abstract: Compositions and methods for controlling an arthropod pest population that include an eremophilane sesquiterpene pest control agent (such as, nootkatone or 13-hydroxy-valencene) and a dialkyl-substituted phenol pest control agent (such as, carvacrol) are disclosed. The compounds present in the compositions may be isolated from natural sources, semi-synthesized from naturally occurring compounds, or completely synthesized. The pest control compositions may be applied directly to a pest or the locus of a pest, and function as topical or ingestible pest toxins.

Abstract: Compounds, compositions, and methods that employ an eremophilane sesguiterpene are presented for controlling an arthropod pest population. The compounds have minimal adverse or toxic effects on humans, non-human animals, and the natural environment. The compounds may be isolated from natural sources, semi-synthesized from naturally occurring compounds, or completely synthesized. The compounds may be applied directly to a pest or the locus of a pest, and function as topical or ingestible toxins. Eremophilane sesguiterpenes 13-hydroxy-valencene, valencene-11,12-epoxide, valencene-13-aldehyde, and nootkatone-1,10-11,12-diepoxide are exemplary compounds.

Abstract: Compositions and methods for controlling an arthropod pest population that include an eremophilane sesquiterpene pest control agent (such as, nootkatone or 13-hydroxy-valencene) and a dialkyl-substituted phenol pest control agent (such as, carvacrol) are disclosed. The compounds present in the compositions may be isolated from natural sources, semi-synthesized from naturally occurring compounds, or completely synthesized. The pest control compositions may be applied directly to a pest or the locus of a pest, and function as topical or ingestible pest toxins.

Abstract: Compounds, compositions, and methods for controlling an arthropod pest population that employ an eremophilane sesquiterpene parent structure are presented. The compounds have minimal adverse or toxic effects on humans, non-human animals, and the natural environment. The compounds may be isolated from natural sources, semi-synthesized from naturally occurring compounds, or completely synthesized. The compounds may be applied directly to a pest, or the locus of a pest, and function as topical or ingestible toxins. Eremophilane sesquiterpenes 13-hydroxy-valencene, valencene-11,12-epoxide, valencene-13-aldehyde, and nootkatone-1,10-11,12-diepoxide are exemplary compounds.

Abstract: Compounds, compositions, and methods for controlling an arthropod pest population that employ an eremophilane sesquiterpene parent structure are presented. The compounds have minimal adverse or toxic effects on humans, non-human animals, and the natural environment. The compounds may be isolated from natural sources, semi-synthesized from naturally occurring compounds, or completely synthesized. The compounds may be applied directly to a pest, or the locus of a pest, and function as topical or ingestible toxins. Eremophilane sesquiterpenes 13-hydroxy-valencene, valencene-11,12-epoxide, valencene-13-aldehyde, and nootkatone-1,10-11,12-diepoxide are exemplary compounds.