Yield, quality and crop water stress index relationships for deficit-irrigated soybean [Glycine max (L.) Men.] in sub-humid climatic conditions
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Date
2013-02
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Elsevier
Abstract
Field experiments were conducted for 2 years to evaluate the use of the crop water stress index (CWSI) for irrigation scheduling of soybeans under a sub-humid climate of Bursa, Turkey. Additionally, statistical relationships between CWSI and seed yield, quality parameters, crop evapotranspiration (ETc) and water use efficiency (WUE) were investigated. Irrigations were scheduled based on the replenishment of 100 (Two), 75 (T-75), 50 (T-50), 25 (T-25), and 0% (T-0) of soil water depletion from a soil depth of 90 cm using a 7-day irrigation interval. To compute CWSI, lower (nonstressed) and upper (stressed) baselines were developed based on the canopy temperature (T-c) measurements of fully irrigated and rain-fed treatments, respectively. According to results, CWSI could be used to determine the irrigation time of soybean for sub-humid climate and 0.22 could be offered as a threshold value. Statistically significant relationships were determined between CWSI and seed yield, protein yield, oil yield, ET c and WUE. The polynomial relationship between WUE and CWSI demonstrated that highest WUE could be obtained under CWSI close to 0.6. Consequently, an irrigation schedule that considers water stress could be employed when the cost of water is high and/or water is scarce. However, because of the yield reduction, all economic aspects of water limited irrigation scheduling should be considered before making this decision. We conclude that the CWSI could be used to evaluate crop water stress and improve irrigation scheduling for soybeans under sub-humid climatic conditions.
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Keywords
Agriculture, Water resources, Crop water stress index, Irrigation scheduling, Soybean, Seed yield, Quality, Water use efficiency, Scheduling irrigation, Seed composition, Use efficiency, Base-lines, Regimes, Wheat, Temperature, Thermometry, Growth, Merr., Bursa [Turkey], Turkey, Glycine max, Amino acids, Crops, Image quality, Nitrogen fixation, Oilseeds, Plants (botany), Scheduling, Soil moisture, Water supply, Crop water stress indices, Irrigation scheduling, Seed yield, Soybean, Water use efficiency, Crop yield, Evapotranspiration, Experimental study, Humid environment, Irrigation system, Plant water relations, Protein, Soil depth, Soybean, Water management, Water stress, Water use efficiency, Yield response, Irrigation
Citation
Candoğan, B. N. vd. (2013). "Yield, quality and crop water stress index relationships for deficit-irrigated soybean [Glycine max (L.) Men.] in sub-humid climatic conditions". Agricultural Water Management, 118, 113-121.