The Effect Of The Trichoderma Fungus On The Fertility Of Plants
Mamadiyev Khusanboy Ganijonovich , Lecturer, Andijan State Medical Institute, Andijan, UzbekistanAbstract
Trichoderma, a soil fungus, is widespread in nature and is noted as a microbiological object that is easily separated, has a very rapid biomass formation and has a high level of biological activity against phytopathogenic fungi without harming the plant. Therefore, it is recommended to widely use the results of modern studies of metabolites of the producer Trichoderma Pers.: Fr, which exhibits several fungicidal actions, especially in the process of hyperparasitism in agriculture.
Keywords
Trichoderma, microbiological diseases,, environmental degradation, pests, fungi, biologically active substances
References
Weidling R. Trichoderma lignorum as a parasite of soil fungi. (1932). Phytopath. 22(7). P. 837-845.
Lupashko-Stalsky, I.P. (2006). Food and Agriculture Organization of the United Nations (FAO): Background.
Arriagada, C., Manquel, D., Cornejo, P., Soto, J., Sampedro, I., & Ocampo, J. (2012). Effects of the co-inoculation with saprobe and mycorrhizal fungi on Vaccinium corymbosum growth and some soil enzymatic activities. Journal of soil science and plant nutrition, 12(2), 283-294.
Tsavkelova, E. A., Klimova, S. Y., Cherdyntseva, T. A., & Netrusov, A. I. (2006). Microbial producers of plant growth stimulators and their practical use: a review. Applied biochemistry and microbiology, 42(2), 117-126.
Ergashovich, K. A., Toshtemirovna, N. U., Rakhimovna, A. K., & Abdullayevna, F. F. (2020). Effects of Microelements on Drought Resistance of Cotton Plant. International Journal of Psychosocial Rehabilitation, 24(2).
Sid Ahmed, A., Pérez‐Sánchez, C., Egea, C., & Candela, M. E. (1999). Evaluation of Trichoderma harzianum for controlling root rot caused by Phytophthora capsici in pepper plants. Plant pathology, 48(1), 58-65.
Contreras-Cornejo, H. A., Macías-Rodríguez, L., Cortés-Penagos, C., & López-Bucio, J. (2009). Trichoderma virens, a plant beneficial fungus, enhances biomass production and promotes lateral root growth through an auxin-dependent mechanism in Arabidopsis. Plant physiology, 149(3), 1579-1592.
Vinale, F., Sivasithamparam, K., Ghisalberti, E. L., Marra, R., Woo, S. L., & Lorito, M. (2008). Trichoderma–plant–pathogen interactions. Soil Biology and Biochemistry, 40(1), 1-10.
Hoyos-Carvajal, L., Orduz, S., & Bissett, J. (2009). Growth stimulation in bean (Phaseolus vulgaris L.) by Trichoderma. Biological control, 51(3), 409-416.
Hasan, H. A. H. (2002). Gibberellin and auxin production by plant root-fungi and their biosynthesis under salinity-calcium interaction. Rostlinna vyroba, 48(3), 101-106.
Bae, Y. S., & Knudsen, G. R. (2005). Soil microbial biomass influence on growth and biocontrol efficacy of Trichoderma harzianum. Biological Control, 32(2), 236-242.
Howell, C. R. (2003). Mechanisms employed by Trichoderma species in the biological control of plant diseases: the history and evolution of current concepts. Plant disease, 87(1), 4-10.
Green, H., Larsen, J., Olsson, P. A., Jensen, D. F., & Jakobsen, I. (1999). Suppression of the Biocontrol AgentTrichoderma harzianum by Mycelium of the Arbuscular Mycorrhizal Fungus Glomus intraradices in Root-Free Soil. Applied and Environmental Microbiology, 65(4), 1428-1434.
Harman, G. E. (2000). Myths and dogmas of biocontrol changes in perceptions derived from research on Trichoderma harzinum T-22. Plant disease, 84(4), 377-393.
Nazirova, R., Usmonov, N., & Askarov, K. (2020). Technology of storing grain in a cooled state. Збірник наукових праць ΛΌГOΣ, 93-95.
Chet, I. (1990). Mycoparasitism-recognition, physiology and ecology. New directions in biological control. Alternatives for suppressing agricultural pests and diseases. Proceedings of a UCLA colloquium held at Frisco, Colorado, January 20-27, 1989., 725-733.
Nazirova, R. M., Khoshimov, A. A., Tadjiyev, S. M., & Mirsalimova, S. R. (2020). Investigation of solubility kinetics and interaction of stabilizing additive in production of complex fertilizers based on granular nitrate and stabilizing additives. Academicia an international multidisciplinary research journal, 10(5), 657-664.
Ergashovich, K. A., Davronovich, K. Y., Toshtemirovna, N. U., & Azamatovna, B. Z. (2020). Effect of soil types, salinity and moisture levels on cotton productivity. Journal of Critical Reviews, 7(9), 240-243.
Elad, Y., Barak, R., Chet, I., & Henis, Y. (1983). Ultrastructural studies of the interaction between Trichoderma spp. and plant pathogenic fungi. Journal of Phytopathology, 107(2), 168-175.
Inbar, J., & Chet, I. (1994). A newly isolated lectin from the plant pathogenic fungus Sclerotium roltsii: purification, characterization and role in mycoparasitism. Microbiology, 140(3), 651-657.
Mukhtarovna, N. R., Alimardonugli, S. A., & Botiraliyevich, U. N. (2021). Features of treatment of winter wheat seeds by different processors. International Engineering Journal For Research & Development, 6(ICDSIIL), 3-3.
Davronovich, K. Y., & Ergashovich, K. A. (2019). Growing of cotton varieties and hybrid to the height under the ecological conditions of soil salinity and washed soil salinity. Asian Journal of Multidimensional Research (AJMR), 8(9), 84-89.
Mukhtarovna, N. R., & Botiraliyevich, U. N. (2021, January). Role of sugar production waste in increasing the productivity of cattle. In Euro-Asia Conferences (Vol. 1, No. 1, pp. 346-349).
Kholliyev, A. E., Norboyeva, U. T., Kholov, Y. D., & Boltayeva, Z. A. (2020). Productivity Of Cotton Varieties In Soil Salinity And Water Deficiency. The American Journal of Applied sciences, 2(10), 7-13.
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