ISSN 2410-7751 (Print)
ISSN 2410-776X (Online)
"Biotechnologia Acta" v. 7, no 6, 2014
https://doi.org/10.15407/biotech7.06.092
Р. 92-101, Bibliography 59, Russian
Universal Decimal classification: 664.0–637.52
COMPLEX MICROBIAL PREPARATIONS. THE APPLICATION IN AGRICULTURAL PRACTICE
S. S. Murodova, K. D. Davranov
Mirzo Ulugbek National University of Uzbekistan, Tashkent
Analysis of literature data and authors researchers on application of complex microbial preparations in agricultural practice of Uzbekistan for the purpose of soils fertility increase was the aim of the review. Application of biotechnologies on the basis of highly effective microorganisms allows offering the alternative strategy of ecologically steady land usage based on chemicals substitution by microbial preparations.
Synthesis of preparations — microbial complexes from local bacterial strains, with are capable to keep the basic properties under extreme conditions is perspective direction that represents theoretical and practical interest.
Key words: complex microbial preparation, rhizosphercial bacteria stimulating growth of plants.
© Palladin Institute of Biochemistry of the National Academy of Sciences of Ukraine, 2014
References
1. Tikhonovich I. A., Kojemyakov A. P., Chebotar V. K. Biopreparations in agriculture (Methodology and practice of microorganisms application in plant growing and crop production). Moskva: Rosselkhozakademiia. 2005, 154 p. (In Russian).
2. Zviagintsev D. G., Dobrovolskaia T. G., Babeva I. P., Chernov I. J. Development of conceptions about the structure of soils microbial successions. Pochvovedeniie. 1999, N 1, 134–144. (In Russian).
3. Dobrovolskaia T. T. Structure of soils bacterial successions. Moskva: Academkniga. 2002. 281 p. (In Russian).
4. Anderuk E. I. Antipchuk A. F., Rangelova V. N., Tantsiurenko E. V. BTU — New complex preparation. Microbiol. zh. 1999, 60(2), 45–53. (In Russian).
5. Titova L. V., Roi A. A., Bulavenko L. V., Kurdish I. K. Combined bacterial preparation son the basis of loamy mineral sand compositions of soil microorganisms. Biulleten Odes. nats. Un-ta. 2001, V. 6, P. 305–308. (In Russian).
6. Tihonovich I. A., Kruglov J. V. Microbiological aspects of soil fertility and problem so sustainable agriculture. Plodorodiie. 2006, V. 5, P. 9–12. (In Russian).
7. Volkogon V. V., Nadkernichna O. V., Kovalevska T. M. Microbial preparations in agriculture: theory and practice. Kyiv: Ahrarna nauka. 2006, 312 p. (In Ukrainian).
8. Kozar S. F., Nadkernichnyi S. P., Sherstoboev M. K, Patika V. P. Development of complex biopreparations for soil restoration. Biul. in-tu s.-kh. mikrobiologii. 1998, V. 2, P. 30–33. (In Ukrainian).
9. Patika V. P. Perspectives and advancement of microbial nitrogen-fixation. Materials of the International Conference “Plants ontogenesis, biological fixation of molecular nitrogen and nitrogen metabolism”, Ternopil, 2–5 October 2001, P. 111–115. (In Ukrainian).
10. Kyrychenko E. V., Kots S. J. Use of Azotobacter chroococcum for development of complex biological preparations. Biotekhnologiia. 2011, 4(3), 74–81. (In Russian).
11. Titova L., Leonov N., Verhoturova I., Pindrus A., Antipchuk A., Iutinskaya G. Complex biopreparations for wheat productivity increase and their effect on microorganisms. Stiinta agricola. 2009, N 2, P. 12–18. (In Russian).
12. Larocque J. R., Bergholz P. W., Baqwell C. E., Lovell C. R. Influence of host plantderived and abiotic environmental parameters on the composition of the diazotroph assemblage associated with roors of Juncus roemerianus/ Juncus roemerianus. Antone van Leewenhoek. 2004, 86(3), 249–261.
13. Kozar S. F., Nadkernichnyj S. P., Sherstoboev M. K., Patika V. P. Development of complex biopreparations for soil restoration. Biulleten in-tu s.-kh. mikrobiol. 1998, V. 2, P. 30–33. (In Ukrainian).
14. Morgun V. V., Kots S. Y., Kirichenko O. V. Growth stimulating rhizobacteria and their practical application. Fisiol. biokhim. kult. rastenii. 2009, 41 (3), 187–207. (In Russian).
15. Antipchuk A. F., Kantseliaruk R. M. The effect of Azotobacter on cucumber seeds germination. Mikrobiol. zh. 1985, 47 (2), 19–23. (In Russian).
16. Antipchuk A. F., Rangelova V. M., Tantsyurenko O. V., Shevchenko A. I. The effect of Azotobacter on yield and quality of sugar beet. Mikrobiol. zh. 1997, 59 (4), 90–95. (In Ukrainian).
17. Kots S. Y., Titova L. V. Efficacy of rhizosphere diazotrophs preparations at spring wheat growing. Zhivlennia roslyn: teoriia i praktyka (Proceedings devoted to century from the day of birth of ANRURSR and VASGNIL named after P. A. Vlasyuk). Kyiv: Lohos. 2005, P. 245–253. (In Ukrainian).
18. Hovaniskaja S. S., Lisitskaja T. B. Bacteria stimulating plants growth: screening and associations on their basis. 4-th Moscow International Congress Biotechnology: status and perspectives of development Congress proceedings. Moscow, 12–16 March, 2007. P. 2013. (In Russian).
19. Patent. 2322061 MPK7A01N63/00 C12N 1/20. Biopreparation for agricultural crops yield increase and production quality improvement. Afanasyev Ye. N., Tyumenceva I. S., Afanasyeva Ye. Ye., Afanasyev N. Ye. Russia. April 20, 2008.
20. Strunnikova O. K., Shakhnazarov V. Ju., Vishnevskaya N. A., Chebotar V. K., Tikhonovich I. A. Interactions between Fusarium culmorum and Pseudomonas fluorescens in the rhizosphere of barley. Mikol. fitopatol. 2008, V. 1, P. 70–77 (In Russian).
21. Antipchuk A. F., Skochinkaja N. N. To the question about colonizing ability of Azotobacter genus bacteria beet. Mikrobiol. zh. 1993, 55 (3), 44–47. (In Russian).
22. Lui Xuming, Zhao Hongxing, Chen Sanfeng. Colonization of maize and rice plants by strain Bacillus megaterium C4. Curr. Microbiol. 2006, 52 (3), 186–190. (In Russian).
23. Gonsales Juan E., Marketon Melanie M. Quorum sensing in nitrogen-fixing rhizobia. Microb. Mol. Biol. Rev. 2003, 67 (4), 574–592.
24. Boronin A. M., Kochetkov V. V. Biological preparations on the basis of Pseudomonas. AgroXXI. 2000, V. 3, P 3–5 (In Russian).
25. Rodyniuk I. S. Nitrogen biological fization. Novosibirsk: Nauka, 1991, 142 p. (In Russian).
26. Zavalin A. A. Biopreparations, fertilizers and yield. Moskva: VNIIA. 2005, 302 p. (In Russian).
27. Shevelukha V. C. Plants growth and its regulation in ontogenesis. Moskva: Kolos. 1992, 594 p. (In Russian).
28. Belimov A. A., Ivanchikov A. J., Judkin L. V. Characterization and introduction of the new strains of associative growth stimulating bacteria dominating in barley seedlings rhizoplana. Mikrobiologiia. 1999, 68 (3), 392–397. (In Russian).
29. Belimov A. A., Kojemiakov A. P., Chuvarliyeva C. V. Interaction between barley and mixed cultures of nitrogen fixing and phosphate-solubilising bacteria. Plant Soil. 1995, V. 173, P. 29–37.
30. Kunakova A. M. Interaction of associative bacteria with plants at different agroecological conditions. Synopsis of PhD. VNISM. SPb. 1998, 20 p. (In Russian).
31. Kravchenko L. V. The role of root exometabolites in integration of microorganisms with plants. Dr. of Sci. dissertation.: 03.00.07. VNISM. SPb. 2000, 45 p. (In Russian).
32. Shabaev V. P. The role of biological nitrogen in “soil-plant” system at rhizosphere microorganisms application. Dr. of Sci. dissertation.: In-t fiziko-khim. i biol. problem v pochvoved. 2004, 46 p. (In Russian).
33. Lukin S. A. Kozhevin P. A., Zviagintsev L. G. Azospirillum and associative nitrogen fixation of non legume cultures in practice of agriculture. Sielskokhoziaystvennaia biologiia. 1987, V. 1. P. 51–58. (In Russian).
34. Kozhemyakov A. P., Hotyanovich A. V. Perspectives of biopreparations on the basis of associative nitrogen fixing microorganisms application in agriculture. Biulletien. VIUA. 1997, V. 110, P. 4–5. (In Russian).
35. Volkogon V. V. The methods of associative nitrogenfixation regulation. Biulleten Institutu silskohospodar. mikrobiol. Chernihiv. 1997, P 17–19. (In Russian).
36. Vassyuk L. F., Kojemyakov A. P., Popova T. A. European J. Of Plant Pathology. 1995, P. 1310.
37. Kozhemyakov A. P., Tikhonovich I. A. The application of legume inoculants and biopreparations with complexactivityin agriculture. Doklady Rosselkhozakademii. 1998, V. 6, P. 7–10 (In Russian).
38. Makarov P. N. Features of growth processes in formation of efficiency of a winter cherry depending on a breed, way of cultivation and application of associative bacteria strains. Synopsis of PhD. SPb.: VIR. 2002, 18 p. (In Russian).
39. Glik B., Pasternak G. Molecilar biotechnology. Principles and application. Transl. from Eng. Moskva: Mir. 2002, 589 p. (In Russian).
40. Chebotar B. K., Zavalin A. A., Kiprushkina E. I. Efficacy of Extrasol bioreparation application. Moskva: Rosselkhozakademiia. 2007, 216 p. (In Russian).
41. Novikova I. I. Biological basis of creation and application of polyfunctional biopreparations on the basis of microbs-antagonists for phytosanitar optimization of agroecosystems. Dr. of Sci. dissertation.: 06.01.04. VNIIZR. SPb. 2005. 792 p. (In Russian).
42. Kandybin N. V., Smirnov O. V. Microbial preparations for agricultural crops pest control. AgroXXI. 1997, V. 3. P. 14–15. (In Russian).
43. Korobkova T. P., Ivanitskaya L. P., Drobysheva T. N. Current state and perspectives of antibiotics application in agriculture. Antibiotiki i meditsinskaya biotekhnologiya. 1987, V. 8, P. 563–571. (In Russian).
44. Lobanok A. G., Zalashko M. V., Anisimova N. I. Biotechnology for agriculture. Minsk: 1988, 199 p. (In Russian).
45. Popov F. A. Commercial preparations on the basis of Bacillus subtilis. «Zashita rasteniy», Minsk: Uradzhay. 1990, P. 120–128. (In Russian).
46. Egorov I. V., Chekasina E. V. Rebirth of agricultural production of Russia. Proceedings of the 2 international symposiums to the memory of P. G. Kuznecov. 2002, N 7–8, P. 31–32. (In Russian).
47. Malashin S. N. The influence of associative nitrogen fixing microorganisms on productivity of red meadow in north-west of Russian Federation. Synopsis of PhD. s.-kh. nauk: 06.01.04. Leningradskiy NIISKHRA. SPb. 2009, 101 p. (In Russian).
48. Chiga T. Regenerated future. Transl. from Japan by V. M. Khaykov and I. V. Yugov. Vladivostok: Dalnauka. 2010, 280 p. (In Russian).
49. Lazarev S. F. About the efficiency of bacterial fertilizers at cotton and alfalfa crops. Khlopkovodstvo. 1958, V. 6. (In Russian).
50. Shurigin V. V., Lyan Yu. V., Davranov K. Properties of Azotobactercroococcum A-4 bacteria. Uzbek. biol. zh. 2012, V. P. 20–23. (In Russian).
51. Patent. IAP 20100618. Association of green algae of Scenodesmus genus for application in plant growing. Dzhumaniyasov I., Yuldasheva Ch. E., Dzhumaniyasova G. I., Yakubov Ch. F., Zaripov R. N., Berezhnova V. V., Yusupov Ch. Uzb. 2010.
52. Dzhumaniyasova G. I Phosphorus mobilizing bacteria and biopreparations on their basis. Dr. of Sci. Dissertation: 03.00.07.-03.00.23. Institut mikrobiologii ANSUZ. Tashkent, 2012. 101 p. (In Russian).
53. Patent. IAP 04660. Bacterial fertilizer and the way of its acquisition. Davranov K. Uzb. January 19, 2013.
54. Patent. IAP03807. The way of fertilizer acquisition. Mavlyanova F. M., Mavlyanov N. G., Mavlyanov E. N., Mavlyanov O. E., Mavlyanov P. N., Mavlyanov G. N. Uzb. November 28, 2008.
55. Patent. IAP20030291. Biofertilizer. Djumaniyasov I., Djumaniyasova G. I., Egjemov S. S., Yusupov B. Yu., Kulbekov M. T., Iskandarov Sh. E. Uzb. March 11, 2003.
56. Patent. IAP 02430. Complex microbiological fertilizer and the way of its acquisition. Abduazizov M. N., Baybaev B. Uzb. June 30, 2004.
57. Patent. IAP 2012 0370 8A 01N. Microbial preparation Verbaktin for biocontrol of fungi deseases and stimulation of cotton growth. Khodzhibaeva S. M., Zolotilina G. D., Fedorova O. A., Karimova H. M., Hamidova H. M., Abdullaev N. D., Tashpulatov Z. Z., Gulyamova T. G. Uzb. March 31, 2014.
58. Zuhriddinova N. J. Microbial growth stimulators and their influence on agricultural crops. Synopsis of PhD. Institut mikrobiologii ASRUZ, Tashkent, 2008. 23 p.
59. Murodova S. S., Gafurova L. A., Fajzullaev B. A., Chuzhanazarova M. K. The effect of microbial composition on cotton productivity. Agro XXI. 2008, V. 10–12, P. 38–39 (In Russian).