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IJSTR >> Volume 9 - Issue 2, February 2020 Edition



International Journal of Scientific & Technology Research  
International Journal of Scientific & Technology Research

Website: http://www.ijstr.org

ISSN 2277-8616



Use Of Electrochemical Activated Water During Propagation Of Biomaterials In Bio Factory

[Full Text]

 

AUTHOR(S)

Bakhodir Khaitov, Muradjon Abdullaev, Zokir Mamadzhonov

 

KEYWORDS

barley grains, butterfly moth, biological method, diaphragm eggs of a grain moth, electrochemically activated water, electrolyzer, electrode, trichogramma. pH.

 

ABSTRACT

The introduction of advanced technologies in industry, the national and agricultural sectors, and thereby improving the economic performance of the state, is today one of the urgent problems. Pests are one of the factors that reduce crop yields. Today in the world there are more than 80 thousand pests, of which 10 thousand have very great harm to plants. Calculations show that as a result of exposure to pests in the world more than 30% of crops are lost annually. In this regard, the protection of plants from various pests is one of the urgent problems. Of great importance is the conduct of scientific research in the field of widespread use of biological methods of protecting plants from pests, as well as improving the effectiveness of the biomaterials used. The biological method is considered effective from both an economic and economic point of view. The article discusses the development of a new technology for the production of trichograms for use as a means of protection against cotton pests.

 

REFERENCES

[1] Adashkevich B. Rashidov M.I., Biological control of the cotton scoop on vegetable crops // Plant Protection. -1986. -No.6. -P. 51-52.
[2] Hodjaev Sh. T., Holmurodov E. A. Basics of entomology, crop protection and agrotoxicology. Recommended as a textbook by the Ministry of Higher and Secondary Special Education of the Republic of Uzbekistan. –Tashkent. -2014. –P. 567.
[3] Abdullaev M. et al. The use of electrochemical activated water in order to increase the efficiency of breeding larvae of grain moth in bio-factory //"Young Scientist" monthly scientific journal // Moscow. - 2014. - No. 8.
[4] Abdullaev M.T., Khaitov B.A., Pulatov A.S., Rakhmonov Sh. The use of electrochemically activated water in the production of biological materials for agricultural industries // Moscow Journal of Economics. - 2017. - No. 3. - P.
[5] Abdullaev M.T., Khaitov B.A., Yusupov D.R. Studying the regulatory conditions for feeding moth wax based on electrochemical activated water // International Scientific Journal. - 2016. - No. 6 (3). - S 103-104.
[6] Abdullaev M. Et al. Efficiency of using electrochemical activated water in the process of dilution of wax moth in biological laboratories. "Young Scientist" monthly scientific journal // Moscow. - 2014. - No. 8.
[7] Sorokina A.P. Application of trichogram: past and present // Protection and Plant Quarantine. - 2011. - No. 10.
[8] Andow D. A. Corn IPM and Trichogramma //Ecological Interactions And Biological Control. – 2019.
[9] Li T. H. et al. Multiparasitism with Trichogramma dendrolimi on egg of Chinese oak silkworm, Antheraea pernyi, enhances emergence of Trichogramma ostriniae //Journal of Pest Science. – 2019. – Т. 92. – №. 2. – С. 707-713.
[10] Ebrahimi V. et al. Using parthenogenesis‐inducing Wolbachia for the selection of optimal lines of the egg parasitoid Trichogramma pretiosum for use in biocontrol //Entomologia Experimentalis et Applicata. – 2019. – Т. 167. – №. 3. – p. 241-251.
[11] Reznik, S. Y., Umarova, T. Y., & Voinovich, N. D. (2003). Egg retention in Trichogramma (Hymenoptera: Chalcidoidea: Trichogrammatidae): learning or diapause?. Acta Soc. Zool. Bohem, 67(1), 25-33.
[12] Dubrovin, V., Golub, G., & Marus, O. (2012). Proizvodstvo ehntomologicheskogo preparata trihogrammy. Motrol. Motoryzacja i Energetyka Rolnictwa, 14(3).
[13] Bahir V. M. Electrochemical activation of aqueous solutions and its technological application in the food industry: Overview / V. M. Bahir, N. G. Tsikoridze, L. E. Spector. Tbilisi: Cargo of NIINTI, 1988. –P. 80.
[14] Bahir V.M. Electrochemical activation. Part 1 / V.M. Bahir. M .: VNIIIMT, 1992. -P.189-195.
[15] Kim C. Roles of oxidation-reduction potential in electrolyzed oxidizing and chemically modified water for the inactivation of food-related pathogens / C. Kim, Y. C. Hung, R. E. Brackett // Journal of Food Protection. – 2000. – V. 63. – P. 19–24.
[16] Leonov, B. I., Prilutsky, V. I., & Bahir, V. M. (1999). Physico-chemical aspects of the biological effect of electrochemically activated water. M: VNIIIMT Moscow, Academy of Medical and Technical Sciences of Russia, 6.
[17] Bahir, V. M., Zadorozhnii, Y. G., Leonov, B. I., Panicheva, S. A., & Prilutsky, V. I. (2001). Electrochemical activation: water purification and production of useful solutions. Moscow: VNIIIMT, 1, 100-176.
[18] Hrapenkov S. N., Gernet M. V., Bahir V. M. Electrochemical activated systems influence on malt ferments [Vozdey-stvie elektrokhimicheski aktivirovannykh sistem na fermenty soloda] //Pivo i napitki. – 2002. – №. 5. – p. 20-21.