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Resistance organophosphorus compounds

Other chemicals evaluated but not yet adopted commercially include organophosphorus compounds, triphenyltin compounds, quaternary ammonium salts, imidazoles, benzimidazoles, carbamates and the precocene anti-juvenile hormones [517]. Although none of the above has found use as an insect-resist agent, several have been used as antimicrobial agents for textiles. [Pg.276]

Insects have acquired resistance to organochlorine compounds, such as DDT and BHC, developed as agricultural and hygienic insecticides after World War II. This insect resistance was also acquired to subsequent organophosphorus compounds and carbamate insecticides. Photostable pyrethroids have been developed for outdoor use because pyrethroids were found to be effective against these resistant pests. As a matter of course, these pyrethroids are also effective against sanitary pests however, problems associated with safety and chemical residues indoors must be resolved. [Pg.12]

Resistance to insecticides has drawn global attention since the Korean War in 1950 when the mass use of organic synthetic insecticides, such as DDT and BHC, against agricultural pests and sanitary pests became common. Organophosphorus compounds and carbamates were used thereafter, but invited problems of safety concerns and insect resistance. Synthetic pyrethroids were watched with keen interest as alternatives and have become used widely not only for sanitary pests but also agricultural pests. The development of resistance to synthetic pyrethroids is also not a rare phenomenon and has spread all over the world. [Pg.16]

Irreversible inhibition in an organism usually results in a toxic effect. Examples of this type of inhibitor are the organophosphorus compounds that interfere with acetylcholinesterase (see Box 7.26). The organophosphorus derivative reacts with the enzyme in the normal way, but the phosphory-lated intermediate produced is resistant to normal hydrolysis and is not released from the enzyme. [Pg.531]

The stationary phases coated on the inert supports are similar in the two classes of columns. Liquids of different polarities are chosen for the separation of non-polar or polar compounds a relatively small number of solvents, chemically inert and heat resistant, are sufficient for most residue analyses. The most commonly used for organophosphorus compounds vary from low-polarity hydrocarbons, methylsilicones, phenylsilicones, phenylmethylsilicones or carboranesiloxanes 165 168 175 178 180 182 184 192,195,197,198,... [Pg.369]

So far, no serious resistance against pyrethroids has been recorded in vectors or pest populations, although there is an indication that it may be developing in some species. At present, 14 anopheline malaria vector species have developed resistance to organochlorine insecticides, eight to organophosphorus compounds and three to carbamates, and three species have reduced susceptibility to permethrin. [Pg.10]

Tphe search for insecticides with modes of action different from the A well-known acetylcholinesterase inhibition led us to uncouplers of oxidative phosphorylation (1, 2). An inherent advantage of such pesticides would be the absence of cross-resistance with organophosphorus compounds and chlorinated hydrocarbons. The number of commercial pesticides which are likely to act by uncoupling of oxidative phosphorylation is small. All of them can be regarded as derivatives of the... [Pg.147]

Ivanov, P., B. Georgiev, K. Kirov, L. Venkov. 1993. Correlation between concentration of cholinesterase and the resistance of animals to organophosphorus compounds. Drug Chem. Toxicol. 16 81-99. [Pg.140]

These include amitraz (110), prepared from 54, a member of the form amidine class, active against mites and ticks, that have replaced organophosphorus compounds. Notably, amitraz is active against newer strains of pyrethroid-resistant ticks. The reaction of diphenylamine (8) with sulfur in the presence of iodine as catalyst yields the anthelmintic (worming agent) phenothiazone (phenothiazine) (111) (Scheme 24). It is too toxic for human use, though it is an intermediate in the production of antipsychotic drugs. [Pg.753]

The carbamate derivatives, including Carbaryl, tend to be less toxic than the organophosphorus compounds. They are also readily degraded to harmless materials. Nevertheless, insects resistant to soft insecticides have also been observed. Furthermore, the organophosphorus and carbamate derivatives destroy many more nontarget pests than the chlorocarbon compounds do. The danger to earthworms, mammals, and birds is very high. [Pg.418]

Fire-Resistant Epoxy Resins Containing Organophosphorus Compounds 259... [Pg.259]

See other pages where Resistance organophosphorus compounds is mentioned: [Pg.1074]    [Pg.1076]    [Pg.529]    [Pg.1074]    [Pg.1076]    [Pg.217]    [Pg.386]    [Pg.491]    [Pg.507]    [Pg.38]    [Pg.13]    [Pg.217]    [Pg.567]    [Pg.302]    [Pg.2]    [Pg.275]    [Pg.3753]    [Pg.117]    [Pg.210]    [Pg.27]   
See also in sourсe #XX -- [ Pg.193 , Pg.197 , Pg.199 , Pg.201 , Pg.211 ]



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ORGANOPHOSPHORUS

Organophosphorus compounds

Organophosphorus resistance

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