THE INFLUENCE OF TREATMENT WITH RHIZOSPHERIC STRAINS OF PSEUDOMONAS ON GROWTH AND DEVELOPMENT OF BIRCH (BETULA PUBESCENS EHRH.) REGENERANTS AT DIFFERENT TIMES LANDING

The article describes the influence of bacteria different strains of genus Pseudomonas on growth parameters of clonally propagated birch (clone Bp3f1) during the process of adaptation to soil conditions was investigation. It was shown that the treatment of microbial preparations of rhizosphere microorganisms enhanced the growth and increased the survival rate of icropropagated plants. Experiments have shown that the use of Pseudomonas strains, has a positive effect on plant development. As a result of the experiments were selected the most promising bacterial strains to be used in further studies.

1. Yatsyna, A. A. and Kontsevaya, I. I. (1997) “Prospects of using of cell and tissue culture techniques in breeding of forest woody plants”, Lesnaya nauka na rubezhe XXI veka: sb. nauch. tr. In-ta lesa NAN Belarusi [Proc. of the Forest Institute of NAS of Belarus "Forest Science at the turn of the XXI century"], Minsk, BY, vol. 46, pp. 127-134.

2. Vainovskaya, I. F., Chumakova, I.P., Glushakova, N.M. and Fomenko, T. I. (1997) “In vitro reproduction Gerbera hybrida and acclimatization to the greenhouse conditions”, Botanika (issledovaniya): sb. nauch. tr. In-ta eksperim. botaniki NAN Belarusi [Proc. of the Institute of Experimental Botany of the National Academy of Sciences. Botany (research)], vol. 46, pp. 127-134.3. Demenko, V. I. (2007) Mikroklonal’noe razmnozhenie sadovykh rastenii [Micropropagation of garden plants], MAA, Moscow, RU.

3. Yao-Hong, Z., De-Ping, G. and Zhu-Jun, Z. (2005) “Effects of in vitro rooting environments and irradiance on growth and photosynthesis of strawberry plantlets during acclimatization”, Plant Cell, Tissue and Organ Culture, no. 81, pp. 105-108.

4. Perez, E. A. and Hooks, C. R. (2008) “Preparing tissue-cultured banana plantlets for field planting” Biotechnology, no. 8, pp. 1-3.

5. Demenko, V. I. and Lebedev, V. A. (2011) “Acclimatization of in vitro obtained plant, in non-sterile conditions”, Izvestiya Timiryazevskoi sel’skokhozyaistvennoi akademii [Izvestiya Timiryazev Agricultural Academy], no. 1, pp. 60-70.

6. Ostrikova, M. YA., Konstantinov, A. V. and Balandina, I. M. (2011) “The influence of treatment with cultures of rhizosphere bacteria on survival rate and acclimatization of aspen (Populus tremula L.) regenerants”, Problemy lesovedeniya i lesovodstva: sb. nauch. tr. In-ta lesa NAN Belarusi [Proc. of the Forest Institute of NAS of Belarus "Problems of Forest and Forestry"], Minsk, BY, vol. 71, pp. 287- 293.

7. Aka-kaçar, Y., Akpinar, Ç., Agar, A., Yalçin-Mendi, Y., Serçe, S. and Ortaş, İ. (2010) “The effect of mycorrhiza in nutrient uptake and biomass of cherry rootstocks during acclimatization”, Romanian Biotechnological Letters, vol. 15, no. 3, pp. 46-52.

8. Ştefan, M., Mihăşan, M. and Dunca, S. (2008) “Plant growth promoting rhizobacteria can inhibit the in vitro germination of Glycine max L. seeds”, Analele Stiinţifice ale Universităţii “Alexandru Ioan Cuza”, Secţiunea Genetică şi Biologie Moleculară, vol. IX, pp. 105-110.

9. Turan, M., Gulluce, M., Cakmakci, R., Oztas, T. and Sahin, F. (2010) “The effect of PGPR strain on wheat yield and quality parameters”, 19th World Congress of Soil Science, Soil Solutions for a Changing World, Brisbane, 1–6 August 2010, Brisbane, AU, pp. 209-212.

10. Tsevkelova, Ye. A., Klimova, S. Yu., Cherdyntseva, T. A. and Netrusov, A. I. (2006) “Microorganisms as producers of plant growth stimulants and their application in practice (the review)”, Prikladnaya biokhimiya i mikrobiologiya [Applied Biochemistry and Microbiology], vol. 42, no. 2, pp. 133-143.

11. Barashenko, T. B., Dyusova, S. V., Mikanova, O., Mikhaylovskaya, N. A. and Tarasyuk, Ye. G. (2011) “Properties of phosphate mobilizing bacteria and their effect on the yield of grain crops on sod-podzolic sandy loam soils”, Pochvovedeniye i agrokhimiya [Soil Science and Agricultural Chemistry], no. 2 (47), pp. 120-129.

12. Leshina, L. G. (2009) “Cellular and molecular-genetic mechanisms of symbiosis and associative interaction of microorganisms with plants in rhizosphere”, Biopolymers and cell, vol. 25, no. 1, pp. 27-38.

13. Acuña, J. J., Jorquera, M. A., Martínez, O. A., Menezes–Blackburn, D., Fernández, M. T., Marschner, P., Greiner, R. and Mora, M. L. (2011) “Indole acetic acid and phytase activity produced by rhizosphere bacilli as affected by pH and metals”, Journal of Soil Science and Plant Nutrition, vol. 11 (3), pp. 1-12.

14. Nor Aini, A. S, Goh, B. L. and Ridzuan, R. (2009) “The effects of different indole-3-butyric acid (IBA) concentrations, two light regimes of in vitro rooting and acclimatization of in vitro teak (Tectona grandis L.) plantlets”, African Journal of Biotechnology, vol. 8, N 22, pp. 58-61.

15. Owen, H. R. and Miller, A. R. (1992) “An examination and correction of plant tissue culture basal medium formulations”, Plant Cell, Tissue and Organ Culture , vol. 28, pp. 147-150.

16. Shibaeva, T. G. and Sysoeva, M. I. (2007) “DROP - processing of tomato seedlings in a day and night lighting – effective way to increase productivity”, Innovatsionnye napravleniya sovremennoi fiziologii rastenii: tez. dokl. Vseros. nauch. konf. s mezhdunar. uchastiem [Proc. All-Russian Scientific Conference with international participation ‟Innovative trends in modern plant physiology”], Moscow, RU, pp. 103-104.