Агроекологічні аспекти застосування біопрепаратів при вирощуванні fragaria vesca l.

В. В. БОРОДАЙ, І. В. Обринець, О. Л. КЛЯЧЕНКО, А. Ф. ЛІХАНОВ, О. В. СУБІН

Анотація


AGROECOLOGICAL ASPECTS OF DRUGS IN GROWING FRAGARIA VESCA L.

 

V. Boroday, І. Obrinets, O. Klyachenko, A. Lіhanov, O. Subіn

 

Abstract. When using microbiological preparations of Trichoderma, Fitotsida and Biofosforina in growing Fragaria vesca L. was an increase in the total number of microorganisms on 12,7-15,8%, increase in the amount of the order of actinomycetes, filamentous fungi and oligotrophs amount tselyulozorazrushayuschih, nitrogen-fixing and phosphorus mobilizing bacteria. This, in turn, helped to reduce the spread of Fusarium spp. a 1.3-1.9 fold induction supresivnosti soil, increase degradation of organic residues and synthesis of humic substances, increased activity ammonification and nitrification processes, mobilize phosphorous, improved mineral nutrition, particularly nitrogen and phosphorus, and stimulating the growth and contribute to the development of plants.

Keywords: microbiological preparations, Fragaria vesca L. soil microflora.


Повний текст:

PDF

Посилання


Tihonovich I. A. ed. (2005). Biopreparaty v sel’skom hozjajstve. (Metodologija i praktika primenenija mikroorganizmov v rastenievodstve i kormoproizvodstve). [Biologicals in agriculture. (Methodology and practice of microorganisms in crop and fodder production)]. Moscov: Rossel’hozakademija, 154.

Gerhard F. (1984). Metody obshhej bakteriologii [Methods of general bacteriology]. Moscov: Mir, 264.

Govorova G. F., Govorov D. N. (2010). Gribnye bolezni zemljaniki [Fungal diseases of strawberries]. Moscov: VSTISP,168.

Volkogon, V. V. ed. (2010). Eksperymental’na g’runtova mikrobiologija [Experimental soil microbiology]. Kyiv: Agrarna nauka, 463.

Zhuchenko, A. A. (2004). Jekologicheskaja genetika kul’turnyh rastenij i problemy agrosfery (teorija i praktika) [Ecological genetics of cultivated plants and the problems of the biosphere (theory and practice)]. Moscov: OOO Izd-vo Agrorus, (2), 466.

Iutyns’ka G. O. (2006). Shljahy reguljuvannja funkcij mikrobnyh ugrupovan’ gruntu v aspekti biologizacii’ zemlerobstva i stijkogo rozvytku agroekosystem [Ways of regulating of the function of microbial communities in soil in the aspect of the agriculture biologization and sustainable development of agro-ecosystems]. Sil’s’kogospodars’ka mikrobiologija, 3, 7-18.

Kurdysh, I. K. (2010). Introdukcija mikroorganizmiv u agroekosystemy [Introduction of microorganisms in agro-ecosystems]. Kyiv: Nauk. dumka, 253.

Mamedova, S. O., Zhuravel’, I. O., Pavlij, O. I. (2009). Doslidzhennja lipofil’nyh frakcij travy ta korenevyshha Fragaria vesca L. [Research lipophilic fractions and grass roots Fragaria vesca L.]. Ukrai’ns’kyj zhurnal klinichnoi’ ta laboratornoi’ medycyny, 4 (3), 36-38.

Mezhens’kyj, V. M., Mezhens’ka, L. O., Jakubenko ,B. Je.(2014). Netradycijni jagidni kul’tury: rekomendacii’ z selekcii’ ta rozmnozhennja [Alternative berry crops advice on selection and reproduction]. Kyiv: CP «Komprynt», 119.

Zvjagincev, D. G. ed. (1991). Metody pochvennoj mikrobiologii i biohimii [Methods of Soil Microbiology and Biochemistry]. Moscov: MGU, 304.

Voznjakovskay, Ju. M. ed. (1982). Nekotorye novye metody kolichestvennogo ucheta pochvennyh mikroorganizmov i izuchenija ih svojstv [Some of the new methods of quantifying soil microorganisms and study their properties]. Leningrad, 52.

Lapa, O. M., Janovs’kyj, Ju. P., Chepernatyj, E. V. (2006). Tehnologija vyroshhuvannja ta zahystu jagidnyh kul’tur [The technology of growing and protecting berries]. Kyiv: Kolobig, 100.

Koike, S. T., Gordon, T. R. (2015). Management of Fusarium wilt of strawberry. Special issue: Management of Fusarium diseases. Crop Protection,73,67-72. doi: 10.1016/j.

Najda, A., Dyduch-Siemińska M., Dyduch, J., Gantner M. (2014). Comparative analysis of secondary metabolites contents in Fragaria vesca L. fruits. Annals of Agricultural and Environmental Medicine, 21(2), 339-343. doi: 10.5604/1232-1966.110860.

Nam, M. H., Park, M. S., Kim, H. G., Yoo, S.J. (2009). Biological control of strawberry Fusarium wilt caused by Fusarium oxysporum f. sp. fragariae using Bacillus velezensis BS87 and RK1 formulation. J Microbiol Biotechnol,19(5), 520-529. doi: 10.4014/jmb.0805.333.

Camprubi, A., Estaun, V., El Bakali, M. A., Garcia-Figueres, F., Calvet, C. (2007). Alternative strawberry production using solarization, metham sodium and beneficial soil microbes as plant protection methods. Agronomy for Sustainable Development, 27 (3),179-184. doi: 10.1051/agro:2007007.

Bona, E., Lingua, G., Manassero, P., Cantamessa, S., Marsano, F., Todeschini V., Copetta, A., D’Agostino, G., Massa, N., Avidano, L., Gamalero, E., Berta, G. (2015). AM fungi and PGP pseudomonads increase flowering, fruit production, and vitamin content in strawberry grown at low nitrogen and phosphorus levels. Mycorrhiza, 25(3), 181-93. doi: 10.3390/ijms140816207.


Метрики статей

Завантаження метрик ...

Metrics powered by PLOS ALM

Посилання

  • Поки немає зовнішніх посилань.