The effect of new biological products based on Novochizol on the condition of spring common wheat crops

The purpose of the current work was to identify the efficiency of new biological complex products prepared on the basis of Novokhizol (NVKhZ) with chitosan and Siberian pine bark extract (SPBE) in protecting spring common wheat from root rot and obligate pathogens (powdery mildew, brown rust) in the forest-steppe of the Ob region, and also to establish their effect on yield elements. The trials were carried out with the spring wheat variety ‘Novosibirskaya 29’ in the field of SibNIISR – branch of the ICG SB of RAS (Novosibirsk) in 2023–2024. The method of application of the products was pre-sowing seed treatment and treatment of vegetative plants. There has been established an efficiency of NVKhZ + SPBE against common root rot. The development of the disease on the roots on average over two years decreased from 21.5 to 3.95 %, the biological efficiency of the product was 81.7 %. There has been found that the use of biological products on vegetative plants reduced the damage of plants by obligate pathogens more than pre-sowing seed treatment. Seed treatment with products contributed to an increase in plant height by 8.7 % with NVKhZ + Chitosan and by 6.8 % with NVKhZ + SPBE, root length by 36.3 % with NVHZ + Chitosan, by 22 % with NVKhZ + SPBE and plant biomass by 17.6 %. There has been found a positive effect of Novochizol compositions on the formation of productive stems, a length of the main spike, a number of kernels per main spike, and kernels per plant. There has been established and statistically proved a positive effect of the tested products on crop yields. On average, over the years of study, plant productivity in variants with biological products has exceeded control values by 1.2 times.

1. Izuchenie geneticheskikh resursov zernovykh kul'tur po ustoichivosti k vrednym organizmam. Metodicheskоe posobiе pod redaktsiei E. E. Radchenko [Study of genetic resources of grain crops according to pest resistance]. M., 2008. 416 s.

2. Kolesnikov L. E., Popova E. V., Novikova I. I., Kolesnikova Yu. R., Balagurova E. D. Primenenie khitozana v zashchite pshenitsy ot boleznei i povyshenii urozhainosti [Application of chitosan in protecting wheat from diseases and for improving productivity] // Prikladnaya biokhimiya i mikrobiologiya. 2022. T. 58, № 3. S. 294–301. DOI: 10.31857/S0555109922030072

3. Novikova I. I., Popova E. V., Kolesnikov L. E., Kolesnikova Yu. R., Chekurova S. S. Ustoichivost' k boleznyam, produktivnost' i soderzhanie fotosinteticheskikh pigmentov v list'yakh yarovoi myagkoi pshenitsy (Triticum aestivum L.) pod vliyaniem polifunktsional'nykh biopreparatov i kompleksov na osnove mikroorganizmov i khitozana [Disease resistance, productivity and photosynthetic pigments in leaves of spring common wheat (Triticum aestivum L.) under the effect of multifunctional biopreparations and complexes based on microorganisms and chitosan] // Sel'skokhozyaistvennaya biologiya. 2023. T. 58, № 1. S. 158–183. DOI: 10.15389/agrobiology.2023.1.158

4. Popova E. V., Domnina N. S., Sokornova S. V., Kovalenko N. M., Tyuterev S. L. Innovatsionnye gibridnye immunomodulyatory rastenii na osnove khitozana i bioaktivnykh antioksidantov i prooksidantov [Innovative hybrid immunomodulators of plants based on chitosan and bioactive antioxidants and prooxidants] // Sel'skokhozyaistvennaya biologiya. T. 56, № 1. 2021. S. 158–170. DOI: 10.15389/agrobiology.2021.1.158

5. Terebova E. N., Oreshnikova N. V., Pavlova M. A., Starodubtseva A. A. Ispol'zovanie kory sosny obyknovennoi i shungitovoi kroshki dlya vyrashchivaniya ovsa posevnogo (Avena sativa L) v zakrytom grunte [Use of pine bark and shungite chips for growing oats (Avena sativa L.) in closed ground] // Lesnoi vestnik. 2024. T. 28, № 2. S. 55–69. DOI: 10.18698/2542-1468-2024-2-55-69

6. Shcherban' A. B. Khitozan i ego proizvodnye kak perspektivnye sredstva zashchity rastenii // Vavilovskii zhurnal genetiki i selektsii [Chitosan and its derivatives as promising plant protection products]. 2023. № 27(8). S. 1010–1021. DOI: 10.18699/VJGB-23-116

7. Francesconi S., Steiner B., Buerstmayr H., Lemmens M., Sulyok M., Balestra G. M. Chitosan Hydrochloride Decreases Fusarium graminearum Growth and Virulence and Boosts Growth, Development and Systemic Acquired Resistance in Two Durum Wheat Genotypes // Molecules. 2020. Vol. 25, Article number: 4752. DOI: 10.3390/molecules25204752

8. Mawale K. S., Giridhar P. Chitosan nanoparticles modulate plant growth, and yield, as well as thrips infestation in Capsicum spp. // International Journal of Biological Macromolecules. 2024. Vol. 254, DOI: 10.1016/j.ijbiomac.2023.127682

9. Mohsen M. E., Reda I. O., Yasser S. M., Saad A. A., Mohamed H., Sulaiman A., Abdelmonim Al. A. Mechanism of Wheat Leaf Rust Control Using Chitosan Nanoparticles and Salicylic Acid // Journal of Fungi. 2022. Vol. 8(3), Article number: 304. DOI: 10.3390/jof8030304

10. Teplyakova O. I., Fomenko V. V., Salakhutdinov N. F., Vlasenko N. G. Novochizol™ Seed Treatment: Effects on Germination, Growth and Development in Soft Spring Wheat Natural Products. // Chemistry & Research. 2022. Vol. 10(5). P. 1–4. DOI: 10.35248/naturalproducts.10.5.104