1. Kostina M.N., Malʼtseva M.N., Novikova E.A., Lopatina Yu.V. The prospects for the creation of forms for professional treatments based on new registered substances // Dezinfektsionnoe delo (Disinfection Affairs). 2005. № 3. P. 44-47. (in Russ.).
2. Makhneva T.V., Chepko V.I., Zakharchenko A.V. [et al.] The contribution of domestic producers of means of disinfection, disinsection and deratization in the development of disinfection business in the Russian Federation // Dezinfektsionnoe delo (Disinfection Affairs). 2006. № 3. P. 17-22. (in Russ.).
3. Zakladnoy G.A. Battle for grain: we or insects? // Zaschita i karantin rastenij (Plant Protection and Quarantine). 2011. № 1. P. 47-51. (in Russ.).
4. Naumann K. Chemistry of plant protection. Heidelberg: Springer-Verlag. V. 4: Synthetic pyrethroid insecticides: structure and properties, 1990. 241 p.
5. Levi M.I., Gorokhova T.S., Beklemesheva L.N. The simplified method of determining the sensitivity of red cockroaches of wild populations to various insecticides // Dezinfektsionnoe delo (Disinfection Affairs). 1992. № 1. P. 26-33. (in Russ.).
6. Roslavtseva S.A., Eremina O.Yu., Bakanova E.I. [et al.] Sensitivity of laboratory race of red cockroaches Blatella germanica (L.) to insecticides // Dezinfektsionnoe delo (Disinfection Affairs). 2005. № 3. P. 58-62. (in Russ.).
7. Eremina O.Yu., Olifer V.V., Roslavtseva S.A., Bendrycheva S.N. The study of resistance of red cockroaches to insecticides from different classes by topical method // Dezinfektsionnoe delo (Disinfection Affairs). 2015. № 3. P. 40-45. (in Russ.).
8. R 4.2.2643-10. Methods of laboratory research and testing of disinfectants to assess their efficacy and safety. Federal’nyj centr gigieny i ehpidemiologii Rospotrebnadzora (Federal Senter of Hygiene and Epidemiology of Rospotrebnadzor) . Moscow, 2010. 615 p. (in Russ.).
9. Amelin V.G., Bolʼshakov D.S., Tretʼyakov A.V. Identification and determination of synthetic pyrethroids, chlorpyrifos and neonicotinoids in water by gas and liquid chromatography // Journal of Analytical Chemistry (Rus). 2012. V. 67. № 4. P. 386-391. (in Russ.).
10. Naobumi Ô., Hajimu K., Reiko K. // J. Chromatogr. 1990. V. 515. R. 441-450.
11. Yu Y. // J. Chin. Mass Spectrom. Soc. 2000. V. 21. № 3-4. R. 23-24.
12. Nosikova L.A., Kochetov A.N. Determination of lambda-cyhalothrine in microincapsulated insecticidal compositions // Tonkie khimicheskie tekhnologii (Fine Chemical Technologies). 2016. V. 11. № 1. P. 88-95. (in Russ.).
13. Nosikova L.A., Kochetov A.N. The possibilities of establishing the isomeric composition of active substances in insecticidal compositions // Dezinfektsionnoe delo (Disinfection Affairs). 2016. № 1. P. 45-57. (in Russ.).
14. Kochetov A.N., Shestakov K.A., Shpilevskij G.M., Kuz'mina L.G. Determination of the content of 4-hydroxycoumarins substituted in the third position in the disinfection tools and pharmaceuticals // KhimikoFarmatsevticheskii Zhurnal (Chemical-Pharmaceutical Journal). 2013. V. 47. № 2. P. 41-50. (in Russ.).
15. Shestakov K.A., Kochetov A.N., Voychishina D.V. Modern microencapsulated insecticidal agents "Microcyn+" and "Microfos+": main features and application experience // Dezinfektsionnoe delo (Disinfection Affairs). 2009. № 2. P. 58-59. (in Russ.).
16. Muntiyan E.M., Batko M.G., Yazlovetskiy I.G. The sensitivity to insecticides of western flower thrips (Frankliniella occidentalis (Pergande)) (Thysanoptera: Thripidae)// Agrochimiya (Agricultural Chemistry). 2014. № 2. P. 33-38. (in Russ.).
17. Sokolyanskaya M.P. Formation of resistance to pyrethroids in larvae of the housefly Musca domestica // Agrochimiya (Agricultural Chemistry). 2014. № 3. P. 54-59. (in Russ.).
18. Vishnyakova I.I., Guzalova A.G., Sidorova L.A. Application of the biotesting method to assess the toxicity of pesticides // Veterinarnyj vrach (Veterinarian). 2015. № 5. P. 9-13. (in Russ.).