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Information × Registration Number 0225U000986, (0120U000224) , R & D reports Title Adaptation of phytopathogenic bacteria and mollicutes to climate change and modern agrotechnologies popup.stage_title Адаптація фітопатогенних бактерій і молікутів до кліматичних змін і сучасних агротехнологій Head Pasichnyk Lidiia A., Доктор біологічних наук Registration Date 22-01-2025 Organization Institute of Microbiology and Virology named after D. K. Zabolotny of the National Academy of Sciences of Ukraine popup.description1 popup.description2 The emergence of new bacterial disease pathogens in the agrocenoses of Ukraine has been established: Burkholderia glumae, Burkholderia caryophylli, Pseudomonas syringae pv. aesculi, soft rot pathogens of the genus Dickeya, Xylophilus ampelinus. The emergence of new species of phytopathogenic bacteria in the territory of Ukraine is due to the increase in temperatures and the expansion of the distribution areas of these pathogens. It has been determined for the first time that the main pathogen of bacterial diseases of soryz is Pseudomonas syringae. The presence of phytopathogens of the genera Curtobacterium, Pseudomonas and the family Enterobacteriaceae on lentils has been discovered recently. The complex of phytopathogens of walnut has been studied initially and it has been defined that it is affected by the species P. syringae, Xanthomonas arboricola, Agrobacterium tumefaciens. It has been established that the pathogen of rust-brown spot Curtobacterium flaccumfaciens adapts and confidently spreads to soybeans in the new climatic conditions of Ukraine. Under changing climatic conditions, an increase damage soybean plants by phytoplasma a significant lag in their growth and the appearance of additional atypical symptoms were detected: the formation of additional shoots of the “witch's broom” type and shortening of the distance between internodes, the formation of reduced flowers of the phyllodes type, which leads to a decrease in yield, since seeds are not formed on such plants. The positive effect of germanium nanocitrate on resistance to agents of phytoplasmic and bacterial diseases and productivity of soybean and wheat plants has been shown for the first time Product Description popup.authors Bohdan Yuliia M. Butsenko Liudmyla M. Hnatiuk Tetiana T. Huliaieva Hanna B. Dankevych Liudmyla A. Derehuz Olha M. Derehuz Olha M. Dubianska Sofiia A. Zhytkevych Nataliia V. Zarudniak Mykola I. Korobkova Kateryna S. Moroz Svitlana M. Novalska Valeriia Yu. Pasichnyk Lidiia A. Patyka Volodymyr. P. Postoliuk Tetiana H. Reshetnikov Mykola V. Syza Liudmyla I. Tokovenko Iryna P. Shсherbyna Tetiana M. popup.nrat_date 2025-01-22 Close