##plugins.themes.academic_pro.article.main##

Abstract

Groundwater is located deep (3 meters), gray and clay soils with medium mechanical composition, gravelly and sandy soils (II hydromodule region) are scattered, with low moisture retention capacity. za is watered 9 times in the 3-5-1 system. In this case, the day between irrigations is 15-12-15 days. Gray and clay soils (III hydromodule region) are irrigated 7 times in the 2-4-1 system, and the interval between irrigations is 16-14-25 days. In the conditions of sand and loamy soils (IV hydromodule region), cotton is watered 9 times in the 3-5-1 system, with 12-13-25 days between waterings, heavy gray, gray, mechanical in the conditions of different or dense layered soils (VI hydromodule region), it is irrigated 6 times in the 1-41 system, 16-15-25 days between irrigations, 2-5 in sandy and loamy soils where seepage water is located at 1-2 meters - Watered 8 times in 1 system, 15-12-20 days between waterings, seepage water 1-2 meters, light, gray homogenous medium and heavy soils 1-3-0 and 1- Watered 4-5 times in 3-1 systems, 17-15-25 days between waterings, in heavy, gray and clay soils with high water permeability, seepage water is located at 1-2 meters 1-3- It is watered 5 times in 1 system, and the intervals between waterings are 19-16-25 days

Keywords

cotton soil technology underground

##plugins.themes.academic_pro.article.details##

How to Cite
Zoirov Jaxongir Olimovich. (2022). Based on Acceptable Parameters of Irrigation Technique Elements in Irrigation of Bukhara-6 Variety of Cotton in Conditions of Water Shortage. Texas Journal of Agriculture and Biological Sciences, 9, 12–14. Retrieved from https://zienjournals.com/index.php/tjabs/article/view/2435

References

  1. Action strategy on five priority areas of development of the Republic of Uzbekistan in 2017-2021, approved by the Decree of the President of the Republic of Uzbekistan No. PF-4947 of February 7, 2017.
  2. Address of the President of the Republic of Uzbekistan to the Oliy Majlis of December 28, 2018.
  3. Isayev S. X., Qodirov Z. Z., Oripov I. O., & Bobirova M. B. (2022). EFFECTS OF RESOURCE-EFFICIENT IRRIGATION TECHNOLOGIES IN IRRIGATION OF SUNFLOWERS ON LAND HYDROGEOLOGICAL CONDITIONS. British Journal of Global Ecology and Sustainable Development, 4, 95–100. Retrieved from https://journalzone.org/index.php/bjgesd/article/view/55
  4. Egamberdiyev, M. S., Oripov, I. U., Hakimov, S., Akmalov, M. G., Gadoyev, A. U., & Asadov, H. B. (2022). Hydrolysis during hydration of anhydrous calcium sulfosilicate. Eurasian Journal of Engineering and Technology, 4, 76-81.
  5. Egamberdiev, M. S., Oripov, I. U., & Sh, T. S. (2022). Development of a Method for Measuring the Layered Moisture State of Concrete and Various Bases. Eurasian Journal of Engineering and Technology, 4, 82-84.
  6. Qodirov, Z. Z., Oripov, I. A., Tagiyev, A., Shomurodova, G., & Bobirova, M. (2022). WATER-SAVING IRRIGATION TECHNOLOGIES IN SOYBEAN IRRIGATION, EFFECT OF SOYBEAN ON GROWTH AND DEVELOPMENT. European Journal of Interdisciplinary Research and Development, 3, 79-84.
  7. THE IMPORTANCE AND PROSPECTS OF DRIP IRRIGATION OF COTTON IN UZBEKISTAN
  8. Z Kodirov, I Oripov, SH Avezov, M Kurbonov - Инновационные исследования в науке, 2022
  9. THE IMPORTANCE AND PROSPECTS OF DRIP IRRIGATION OF COTTON IN UZBEKISTAN
  10. Z Kodirov, I Oripov, SH Avezov, M Kurbonov - Инновационные исследования в науке, 2022
  11. THE IMPORTANCE AND PROSPECTS OF DRIP IRRIGATION OF COTTON IN UZBEKISTAN
  12. Z Kodirov, I Oripov, SH Avezov, M Kurbonov - Инновационные исследования в науке, 2022
  13. THE IMPORTANCE AND PROSPECTS OF DRIP IRRIGATION OF COTTON IN UZBEKISTAN
  14. Z Kodirov, I Oripov, SH Avezov, M Kurbonov - Инновационные исследования в науке, 2022