Development of Cotton Irrigation Based on Computer Technology

This study examines the critical intersection of global climate change and increasing water scarcity, with a particular focus on developing optimized irrigation practices for cotton production in the Andijan region. Using the CropWat software, guided by the Food and Agriculture Organization (FAO) me...

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Main Authors: Matyakubov B. Sh., Karabayev A., Zakirova S. Kh., Urinov A. A., Diyorova M. X., Davronov Q. A.
Format: Article
Language:English
Published: EDP Sciences 2025-01-01
Series:BIO Web of Conferences
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Online Access:https://www.bio-conferences.org/articles/bioconf/pdf/2025/02/bioconf_mblc2024_04027.pdf
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author Matyakubov B. Sh.
Karabayev A.
Zakirova S. Kh.
Urinov A. A.
Diyorova M. X.
Davronov Q. A.
author_facet Matyakubov B. Sh.
Karabayev A.
Zakirova S. Kh.
Urinov A. A.
Diyorova M. X.
Davronov Q. A.
author_sort Matyakubov B. Sh.
collection DOAJ
description This study examines the critical intersection of global climate change and increasing water scarcity, with a particular focus on developing optimized irrigation practices for cotton production in the Andijan region. Using the CropWat software, guided by the Food and Agriculture Organization (FAO) methodology, we conducted a comprehensive analysis of local soil and hydrogeological conditions to formulate evidence-based irrigation strategies. The results show that seasonal irrigation requirements for cotton vary significantly across hydromodular regions, ranging from 3000 m³/ha in the dry season (IX) to 5900 m³/ha in the rainy season (I). Moreover, our findings highlight the importance of adapting irrigation practices to regional climate and soil characteristics to improve water use efficiency. By implementing these evidence-based irrigation regimes, we aim to not only improve cotton yields but also contribute to sustainable water management practices in the context of a rapidly changing climate. This study highlights the need for adaptive agricultural practices and provides a basis for further research on irrigation optimization, ultimately supporting agricultural sustainability and food security in water-stressed regions. Future research will also examine the integration of alternative irrigation technologies and their potential impact on optimizing water use in cotton production.
format Article
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institution Kabale University
issn 2117-4458
language English
publishDate 2025-01-01
publisher EDP Sciences
record_format Article
series BIO Web of Conferences
spelling doaj-art-95880a135b3849e8a313ff4929ccb3532025-02-05T10:42:42ZengEDP SciencesBIO Web of Conferences2117-44582025-01-011510402710.1051/bioconf/202515104027bioconf_mblc2024_04027Development of Cotton Irrigation Based on Computer TechnologyMatyakubov B. Sh.0Karabayev A.1Zakirova S. Kh.2Urinov A. A.3Diyorova M. X.4Davronov Q. A.5“Tashkent Institute of Irrigation and Agricultural Mechanization Engineers” National Research UniversityAndijan Institute of Agriculture and AgrotechnologiesFergana State UniversityFergana State UniversityKarshi State UniversityFergana State UniversityThis study examines the critical intersection of global climate change and increasing water scarcity, with a particular focus on developing optimized irrigation practices for cotton production in the Andijan region. Using the CropWat software, guided by the Food and Agriculture Organization (FAO) methodology, we conducted a comprehensive analysis of local soil and hydrogeological conditions to formulate evidence-based irrigation strategies. The results show that seasonal irrigation requirements for cotton vary significantly across hydromodular regions, ranging from 3000 m³/ha in the dry season (IX) to 5900 m³/ha in the rainy season (I). Moreover, our findings highlight the importance of adapting irrigation practices to regional climate and soil characteristics to improve water use efficiency. By implementing these evidence-based irrigation regimes, we aim to not only improve cotton yields but also contribute to sustainable water management practices in the context of a rapidly changing climate. This study highlights the need for adaptive agricultural practices and provides a basis for further research on irrigation optimization, ultimately supporting agricultural sustainability and food security in water-stressed regions. Future research will also examine the integration of alternative irrigation technologies and their potential impact on optimizing water use in cotton production.https://www.bio-conferences.org/articles/bioconf/pdf/2025/02/bioconf_mblc2024_04027.pdfandijancropwat programsoilwater scarcitycottonirrigation normevaporation. computer programcomputer technology
spellingShingle Matyakubov B. Sh.
Karabayev A.
Zakirova S. Kh.
Urinov A. A.
Diyorova M. X.
Davronov Q. A.
Development of Cotton Irrigation Based on Computer Technology
BIO Web of Conferences
andijan
cropwat program
soil
water scarcity
cotton
irrigation norm
evaporation. computer program
computer technology
title Development of Cotton Irrigation Based on Computer Technology
title_full Development of Cotton Irrigation Based on Computer Technology
title_fullStr Development of Cotton Irrigation Based on Computer Technology
title_full_unstemmed Development of Cotton Irrigation Based on Computer Technology
title_short Development of Cotton Irrigation Based on Computer Technology
title_sort development of cotton irrigation based on computer technology
topic andijan
cropwat program
soil
water scarcity
cotton
irrigation norm
evaporation. computer program
computer technology
url https://www.bio-conferences.org/articles/bioconf/pdf/2025/02/bioconf_mblc2024_04027.pdf
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AT karabayeva developmentofcottonirrigationbasedoncomputertechnology
AT zakirovaskh developmentofcottonirrigationbasedoncomputertechnology
AT urinovaa developmentofcottonirrigationbasedoncomputertechnology
AT diyorovamx developmentofcottonirrigationbasedoncomputertechnology
AT davronovqa developmentofcottonirrigationbasedoncomputertechnology