Fungi control

Fungi control of cotton. Fabric, vinyl films... 

Use Electroconductive and electroluminescent coatings, mordant in dyeing textiles, perfume stabilization, manufacture of fuchsin, color lakes, ceramic coatings, bleaching agent for sugar, stabilizer for certain resins, manufacture of blueprint and other sensitized papers, other tin salts, bacteria and fungi control in soaps. 

Products and Uses An ingredient in metallic hair dyes, soaps, and perfumes. Used for bacteria and fungi control for perfume stabilizer. 

Aquatic animals are susceptible to a variety of diseases including those caused by viruses, bacteria, fungi, and parasites. A range of chemicals and vacciaes has been developed for treating the known diseases, although some conditions have resisted all control attempts to date and severe restrictions on the use of therapeutants ia some nations has impaired that abiUty of aquaculturists to control disease outbreaks. The United States is a good example of a nation ia which the variety of treatment chemicals is limited (Table 6). 

Fungi are broadly associated microbial pathogens of insects. Beauveria bassiana is extensively used as a microbial insecticide in China and Eastern Europe, especially for the control of the com borer Ostrinia spp. However, fungi have had no significant development as microbial insecticides in the United States. 

A number of isoquinoline derivatives have fungicidal properties, eg, 1,2,3,4-tetrahydroisoquinoiines bearing acyl nitrogen substituents like (36) [41910-26-3] (189). Substituted isoquinolines (37) have proved to be effective in controlling undesired vegetation, insects, acarina, and fungi (190). 

Water Treatment Compounds. Like the disinfecting agents, several water treatment compounds are used in aquaculture. Of particular interest is potassium permanganate which is exempted from registration by EPA when used as an oxidizer or detoxifier and can control certain parasites, external bacteria, and possibly fungi (9). 

Herbicides. An array of herbicides are registered for use in aquatic sites, but copper sulfate and diquat dibromide are of additional interest because they also have therapeutic properties (9,10). Copper sulfate has been used to control bacteria, fungi, and certain parasites, including Jchthjophthirius (ich). Diquat dibromide can control columnaris disease, but it also exhibits fungicidal properties (9,10). EPA recentiy proposed to limit the amount of diquat dibromide, endothaH, glyphosate, and simazine that can be present in drinking water therefore, the use of these compounds may be reduced if they cannot be removed from the effluent. 

The primary use for methyl bromide is in the extermination of insect and rodent pests. Methyl bromide is used in space and stmctural fumigation except in California. The material is suitable for the fumigation of food commodities such as dried fmits, grain, flour, and nuts, and the faciHties in which these foods are processed or stored, as weU as for tobacco and many kinds of nursery stock. The usual dosage is 2—4 kg/28 m for 12—24 h. In soil fumigation methyl bromide controls weed seeds, nematodes, wireworms, and soil fungi. The usual dosage is 0.5—1 kg/9 m for 24 h at 16°C and above (82). 

Foliar Fungicides and Bactericides. Of the - 70,000 t/yr as copper in compounds used in agriculture, almost 75% is used in the control of fungi (see Fungicides, agricultural). The first reference to the use of copper as a fungicide dates to 1761 (83) where copper sulfate was used on wheat seed for the control of bunt. In 1807 (84) the discovery of copper as a fungicide was made and the discovery of Bourdeaux mixture (copper sulfate plus lime) followed in 1882. 

Other materials based on EDA have also been suggested as fungicides. The most important of the imida2oline type (162) is 2-heptadecyl-2-imida2oline (163), prepared from EDA and stearic acid [57-11-4]. It is used as the acetate salt for control of apple scab and cherry leaf spot. A 2 1 EDA—copper sulfate complex has been suggested for control of aquatic fungi (164). 

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