Online ISSN: 2515-8260

Keywords : irrigation rate


Development of agrotechnical methods and application of biomeliorant plants in the lower areas of Amudarya

ILKHOMURAZBAEV .; SALTANATKASIMBETOVA .; GULNORAAKHMEDJANOVA .; ZEBINISONIYAZOVA .

European Journal of Molecular & Clinical Medicine, 2020, Volume 7, Issue 2, Pages 844-849

little-known sorghum culture, over the past ten years has gained a worthy place among agricultural crops.Sorghum has high drought tolerance, salt tolerance, high productivity, crop stability over the years and a distinctive feature is that it is able to continue the accumulation of dry matter and grow normally at high air temperatures and a limited amount of moisture in the soil, when other crops often die.

APPLICATION OF GEOINFORMATION TECHNOLOGIES FOR SUSTAINABLE USE OF WATER RESOURCES

Mukhamadkhan Khamidov; Khasimbek Isabaev; Ilkhom Urazbaev; Utkir Islamov; Aziz Inamov; Zokhid Mamatkulov

European Journal of Molecular & Clinical Medicine, 2020, Volume 7, Issue 2, Pages 1639-1648

Research in the 80s of the XX century aimed at changing the hydromodular
zoning of irrigated lands of the Khorezm oasis in Uzbekistan, the distribution of irrigated
lands by hydromodular regions and the definition of scientifically based irrigation regimes
for cotton in each hydromodule region. This article presents the results of scientific
research on the implementation of hydromodular zoning of irrigated lands of Khorezm
region, the distribution of irrigated lands by hydromodular regions and the definition of
scientifically based irrigation regimes for cotton in the main hydromodular regions of
Khorezm region. Moreover, it provides information on the study of hydrogeological
conditions, the definition of irrigated lands in the new hydromodular areas of the oasis.
Irrigated lands of Khorezm region belong to one soil-climatic zone - desert zone, three soilameliorative
areas within this zone. For the first time electronic distribution of irrigated
lands of Shоvоt and Gurlan districts of Khorezm region on the basis of geographic
information system (GIS) technology, using the data of soil-lithological sections and
observational wells maps were created.
When irrigating cotton in the most common hydromodule regions VII, VIII and IX in the
region cotton, while maintaining the pre-irrigation the soil moisture at the level of 70-80-
60% LSMC (lowest soil moisture capacity), and cotton is grown at 3856 m3 / ha (VII), 2789
(VIII) and 2203 m3 / ha (IX) irrigated according to seasonal irrigation norms; 35.0, 38.9
and 39.8 С/ha of cotton, with a minimum of one quintal for growing cotton: 55.4; 71.7 and
110.2 m3 of river water is consumed.