This disclosure relates to a method for the control or repellency of biting arthropods. The method comprises bringing the biting arthropods into contact with a biting arthropod repellent formulation. The biting arthropod repellent formulation comprises nootkatone in combination, or in synergistic combination, with skin or plant derived compounds and compounds structurally similar to them (e.g., ketones, cyclic ketones, esters, gamma or delta lactones, and branched and/or unsaturated carboxylic acids), and/or one or more repellents selected from the group consisting of DEET®, para-menthane-3,8-diol (PMD), Picaridin, ethyl 3-[acetyl(butyl)amino]propanoate (IR3535), and other nitrogen-containing repellents including amines, amides, and nitrogen-containing heterocyclic compounds. This disclosure also relates to a biting arthropod repellent formulation comprising nootkatone in combination, or in synergistic combination, with the skin or plant derived compounds and compounds structurally similar to them, and/or the one or more repellents.

This disclosure relates to a method for the control or repellency of biting arthropods. The method comprises bringing the biting arthropods into contact with a biting arthropod repellent formulation. The biting arthropod repellent formulation comprises nootkatone in combination, or in synergistic combination, with skin or plant derived compounds and compounds structurally similar to them (e.g., ketones, cyclic ketones, esters, gamma or delta lactones, and branched and/or unsaturated carboxylic acids), and/or one or more repellents selected from the group consisting of DEET®, para-menthane-3,8-diol (PMD), Picaridin, ethyl 3-[acetyl(butyl)amino]propanoate (IR3535), and other nitrogen-containing repellents including amines, amides, and nitrogen-containing heterocyclic compounds. This disclosure also relates to a biting arthropod repellent formulation comprising nootkatone in combination, or in synergistic combination, with the skin or plant derived compounds and compounds structurally similar to them, and/or the one or more repellents.

This disclosure relates to a method for the control or repellency of biting arthropods. The method comprises bringing the biting arthropods into contact with a biting arthropod repellent formulation. The biting arthropod repellent formulation comprises nootkatone in combination, or in synergistic combination, with skin or plant derived compounds and compounds structurally similar to them (e.g., ketones, cyclic ketones, esters, gamma or delta lactones, and branched and/or unsaturated carboxylic acids), and/or one or more repellents selected from the group consisting of DEET®, para-menthane-3,8-diol (PMD), Picaridin, ethyl 3-[acetyl(butyl)amino]propanoate (IR3535), and other nitrogen-containing repellents including amines, amides, and nitrogen-containing heterocyclic compounds. This disclosure also relates to a biting arthropod repellent formulation comprising nootkatone in combination, or in synergistic combination, with the skin or plant derived compounds and compounds structurally similar to them, and/or the one or more repellents.

The present disclosure relates to compositions, systems, and methods for applying agricultural products. In particular, the present disclosure relates to compositions comprising agricultural products (e.g., herbicides, insecticides, pesticides, or fungicides) and plant extracts (e.g., essential oils) and uses thereof to increase efficacy of the agricultural products.

The present disclosure relates to compositions, systems, and methods for applying agricultural products. In particular, the present disclosure relates to compositions comprising agricultural products (e.g., herbicides, insecticides, pesticides, or fungicides) and plant extracts (e.g., essential oils) and uses thereof to increase efficacy of the agricultural products.

The present invention in general relates to the field of biological crop protection by use of predatory mites. More particularly the present invention relates to a mite composition comprising a predatory mite and a prey. Such a mite composition is suitable for rearing the predatory mite and/or for crop protection using the predatory mite. The prey in the composition comprises individuals of at least one Astigmatid mite species, wherein at least a fraction of the Astigmatid individuals is immobilized. The composition is characterized in that immobilized Astigmatid individuals are contacted with a fungus reducing agent.

The present invention in general relates to the field of biological crop protection by use of predatory mites. More particularly the present invention relates to a mite composition comprising a predatory mite and a prey. Such a mite composition is suitable for rearing the predatory mite and/or for crop protection using the predatory mite. The prey in the composition comprises individuals of at least one Astigmatid mite species, wherein at least a fraction of the Astigmatid individuals is immobilized. The composition is characterized in that immobilized Astigmatid individuals are contacted with a fungus reducing agent.

Provided herein are compositions useful for improving conditions in animal housing. In some embodiments, the compositions may include, in combination: a) an organic acid; b) an organic terpene; and optionally, c) a strong mineral acid. In some embodiments, the composition has a pH of from 2 to 5, or from 2.5 to 4, or from 3 to 3.5. Also provided are processes for the control of ammonia and microbes in animal housing, which may include applying a composition as taught herein to at least a portion of the house, e.g., to the bedding of the house, whereby said applying steps result in the control of ammonia and/or microbes in the animal housing.

Provided herein are compositions useful for improving conditions in animal housing. In some embodiments, the compositions may include, in combination: a) an organic acid; b) an organic terpene; and optionally, c) a strong mineral acid. In some embodiments, the composition has a pH of from 2 to 5, or from 2.5 to 4, or from 3 to 3.5. Also provided are processes for the control of ammonia and microbes in animal housing, which may include applying a composition as taught herein to at least a portion of the house, e.g., to the bedding of the house, whereby said applying steps result in the control of ammonia and/or microbes in the animal housing.

Certain components of citrus fruits and oxidation products of limonene are effective deterrents, repellents and/or spatial inhibitors for mosquitoes and biting midges. The compounds that have been found to be deterrents, repellents and inhibitors for mosquitoes and biting midges are neryl acetate, citronellyl acetate, geranyl acetate, hydroxy-p-cymene, citral, α-terpineol, citronellal, linaloyl acetate, citronellol, terpen-4-ol, tetrahydrocarvone, products of oxidized oxidized limonene inclusive of d- and l-carvone, (+) limonene oxide, (−) limonene oxide, cis and trans carveol, a diol and an aldehyde, and mixtures thereof.