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Abstract

The article presents the comprehensive results of a research study aimed at determining the impact of the biostimulant BioProFito on the water-physical properties of soil in the saline conditions of the Bukhara oasis. The study was conducted on an experimental field where BioProFito was applied, and meticulous monitoring was carried out at both the beginning and the end of the growing season across various test variants. The research focused primarily on observing changes in the volumetric weight of the soil, which is a crucial indicator of soil compaction and overall health. The findings revealed that the volumetric weight of the soil ranged between 1.31 to 1.29 g/cm³. This slight but significant reduction indicates an improvement in soil structure, potentially enhancing root penetration and water retention capabilities. The integration of biostimulants with drip irrigation technology showed promising results. Enhanced water permeability was observed, indicating that the soil’s ability to absorb and distribute water had improved. This is particularly beneficial for cotton cultivation, which requires consistent moisture levels for optimal growth. The combination of these technologies not only supports better crop yields but also contributes to the sustainability of agricultural practices in challenging environments

Keywords

BioProFito cotton soil salinity

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How to Cite
A.K.Juraev, & M R Kudratov. (2024). Determination of the effect of the bio stimulant (BioProFito) on the water-physical properties of the soil in the conditions of the saline soils of the Bukhara oasis. Texas Journal of Agriculture and Biological Sciences, 30, 13–17. https://doi.org/10.62480/tjabs.2024.vol30.pp13-17

References

  1. Khamidov, M., Juraev, A., Juraev, U., Atamuradov, B., Rustamova, K., Najmiddinov, A., &
  2. Nurbekov, A. (2022, July). Effects of deep softener and chemical compounds on mechanical
  3. compositions in heavy, difficult-to-ameliorate soils. In IOP Conference Series: Earth and
  4. Environmental Science (Vol. 1068, No. 1, p. 012017). IOP Publishing.
  5. Atamurodov, B.N., Sobirov, K.S., & Najmiddinov, M.M. (2022). Rational Use of Water in
  6. Agricultural Regions. Miasto Przyszłości, 25, 88-89.
  7. Rustamova, K.B., Najmiddinov, M.M., & Sobirov, K.S. (2022). Economical Use of Water Resources
  8. and Fertilizers in Irrigation of Crops. Miasto Przyszłości, 25, 84-87.
  9. Atamurodov, B.N., & Najmiddinov, M.M. (2022). The Effectiveness of Farming in Greenhouses Drip
  10. Irrigation Method. Journal of Intellectual Property and Human Rights, 1(1), 14-18.
  11. Jurayev, A.K., Jurayev, U.A., Atamurodov, B.N., Sobirov, K.S., & Najmiddinov, M.M. (2022).
  12. Irrigation of cotton by water-saving.
  13. Jurayev, A.K., Jurayev, U.A., Atamurodov, B.N., Sobirov, K.S., & Najmiddinov, M.M. (2022).
  14. Watering their crops with water of different quality. Oriental renaissance: Innovative, educational,
  15. natural and social sciences, 2(6), 1251-1257.
  16. Jurayev, U. A., Atamurodov, B.N., Sobirov, K.S., & Najmiddinov, M.M. (2022). Technology of
  17. Irrigation of Agricultural Crops with Water of Different Quality. American Journal of Social and
  18. Humanitarian Research, 3(7), 45-49.
  19. Jurayev, A.K., Jurayev, U.A., Atamurodov, B.N., Sobirov, K.S., & Najmiddinov, M. M. (2022).
  20. Scientific and practical importance of efficient use of water in irrigated land.
  21. Jurayev, A.K., Jurayev, U.A., Atamurodov, B.N., Sobirov, K.S., & Najmiddinov, M.M. (2022).
  22. Soybeans are transplanted into saline and saline soils to justify the effectiveness of drip irrigation.
  23. Atamurodov, B.N., Sobirov, K.S., & Najmiddinov, M.M. (2022). Use of resource-efficient irrigation
  24. technology in the republic of uzbekistan. Science and innovation, 1(D2), 96-100.
  25. Jurayev, A.K., Jurayev, U.A., Atamurodov, B.N., Sobirov, K.S., & Najmiddinov, M.M. (2022).
  26. Growing tomatoes hydroponically in greenhouses. Science and innovation, 1(D2), 87-90