Irik, H. A., Kaymaz, E., Neslihan Samutoglu, H., Fikret GURKAN, O., Unlukara, A. (2024). Effects of Different Irrigation Levels on Sugar Beet and Potential Use of Crop Water Stress Index in Irrigation Scheduling. , 26(5), 1143-1159. doi: 10.22034/JAST.26.5.1143
H. A. Irik; E. Kaymaz; H. Neslihan Samutoglu; O. Fikret GURKAN; A. Unlukara. "Effects of Different Irrigation Levels on Sugar Beet and Potential Use of Crop Water Stress Index in Irrigation Scheduling". , 26, 5, 2024, 1143-1159. doi: 10.22034/JAST.26.5.1143
Irik, H. A., Kaymaz, E., Neslihan Samutoglu, H., Fikret GURKAN, O., Unlukara, A. (2024). 'Effects of Different Irrigation Levels on Sugar Beet and Potential Use of Crop Water Stress Index in Irrigation Scheduling', , 26(5), pp. 1143-1159. doi: 10.22034/JAST.26.5.1143
Irik, H. A., Kaymaz, E., Neslihan Samutoglu, H., Fikret GURKAN, O., Unlukara, A. Effects of Different Irrigation Levels on Sugar Beet and Potential Use of Crop Water Stress Index in Irrigation Scheduling. , 2024; 26(5): 1143-1159. doi: 10.22034/JAST.26.5.1143

Effects of Different Irrigation Levels on Sugar Beet and Potential Use of Crop Water Stress Index in Irrigation Scheduling

Journal of Agricultural Science and Technology
Article 16, Volume 26, Issue 5, 2024, Pages 1143-1159    PDF (7.69 M)
Document Type: Original Research
DOI: 10.22034/JAST.26.5.1143
Authors
H. A. Irik* 1; E. Kaymaz2; H. Neslihan Samutoglu2; O. Fikret GURKAN3; A. Unlukara1
1Department of Biosystems Engineering, Faculty of Agriculture, University of Erciyes, Kayseri, Türkiye.
2Department of Research and Development, Kayseri Sugar Beet Factory, Kayseri, Türkiye.
3Department of Research and Development, Kayseri Sugar Beet Factory, Kayseri, Türkiye
Abstract
With the increasing world population, global warming, and climate change, water scarcity significantly limits water use in crop production. Therefore, timely and accurate determination of water stress is very important for the correct and effective management of existing water resources and minimizing harmful effects on crop production. Two years of experiments were conducted in the water-limited region in Türkiye to investigate the possible use of the Crop Water Stress Index (CWSI) as a remote sensing technology in sugar beet irrigation scheduling. Four different Irrigation levels (I50: 50% deficit, I75: 25% deficit, I100: full irrigation, and I125: 25% excess irrigation) were applied to sugar beet by drip irrigation system. The amount of applied irrigation water and crop evapotranspiration varied between 238-540 and 350-580 mm in 2021, and between 324-807 and 502-829 mm in 2022. In both years, the highest beed yields were obtained from I100 treatments (83 and 130 t ha-1) and the lowest from I50 treatments (66.7 and 67.4 t ha-1). Water Productivity (WP) and Irrigation Water Productivity (IWP) in both years decreased significantly by excessive irrigation. CWSI values ranged between 0.16-0.98 in 2021 and between 0.02-0.71 in 2022. CWSI was significantly related to yield and Leaf Area Index (LAI). According to the results, CWSI could be used successfully in sugar beet irrigation scheduling and yield estimation.
Keywords
Deficit irrigation; Irrigation water productivity; Leaf area index; CWSI
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