KG0 – FAO AGRIS data provider 2026
ISSN 1694-6286
e-ISSN 1694-9250
Submit Article
English
Bulletin of the Kyrgyz National Agrarian University

Search Article

DECOMPOSITION OF CELLULOSE IN THE UPPER ROOT ZONE OF SOIL WHEN PROTECTING WHEAT SEEDS WITH FUNGICIDES

O Olga Teplyakova P Petr Kudashkin
Received 30.09.2024
Revised 03.12.2024
Published 29.12.2024

Abstract

The effect of treatment spring wheat seeds with the fungicide Dividend Extreme KS on the rate of cellulose decomposition in the upper root layer (0-10 cm) of leached chernozem was studied. Its negative effect on cellulose decomposition in the first 28 days after sowing was revealed, the strength of which depended on the moisture content during the period of curing the sheets, the applied nitrogen fertilizer and the variety of the sown crop

Keywords

cellulose soil spring wheat fungicide
Suggested citation
Teplyakova, O., & Kudashkin, P. (2024). DECOMPOSITION OF CELLULOSE IN THE UPPER ROOT ZONE OF SOIL WHEN PROTECTING WHEAT SEEDS WITH FUNGICIDES. Bulletin of the Kyrgyz National Agrarian University, 22(6), 70-72.

References

  1. Lazarev, A.P., & Maysyamova, D.R. (2006). The rate of decomposition of post-harvest residues of field crops in chernozems during the autumn-spring and annual periods. Soil Science, 6, 751-757.
  2. Teplyakova, O.I., & Vlasenko, N.G. (2017). Cellulose decomposition in leached chernozem under spring wheat with disease control by fungicides. International Journal of Applied and Fundamental Research, 2, 222-225.
  3. Vlasenko, N.G., Pavlyushin, V.A., Teplyakova, O.I., Kulagin, O.V., & Morozov, D.O. (2021). The effectiveness of spring wheat protection with biological preparations and fungicides in the Ob region forest-steppe: I. First results in extreme weather conditions. Plant Protection News, 104(4), 202-212.
  4. Vlasenko, N.G., Pavlyushin, V.A., Teplyakova, O.I., Kulagin, O.V., & Morozov, D.O. (2022). The effectiveness of spring wheat protection with biological preparations and fungicides in the Ob region forest-steppe: II. Features of action under conditions of moisture deficiency. Plant Protection News, 105(4), 181-192.
  5. Teplyakova, O.I., & Vlasenko, N.G. (2023). The effect of seed treatment with biological preparations and a disinfectant on cellulose decomposition in the upper root layer of spring wheat. Fertility, 6, 55-58.
  6. Buyantueva, L.B., & Nikitina, E.P. (2018). Study of the intensity of microbial destruction of organic matter in dry-steppe soils of the southwestern Transbaikal region using application methods. Nature of Inner Asia, 3(8), 28-37. doi: 10.18101/2542-0623-2018-3-28-37.
  7. Gavrilova, V.I., & Gerasimova, M.I. (2019). Cellulolytic activity of soils: measurement methods, factors and ecological variability. Moscow University Soil Science Bulletin, 1, 23-27.
  8. Ovchinnikova, T.A., & Pankratov, T.A. (2009). Methods of soil microorganism ecology: A textbook. Samara: Samara University Publishing House.