作物系数
灌溉
蒸散量
作物
滴灌
环境科学
农学
生长季节
用水效率
农业
阶段(地层学)
用水
地理
生物
生态学
古生物学
考古
作者
Xianghao Hou,Junliang Fan,Fucang Zhang,Wenhui Hu,Fulai Yan,Chao Xiao,Yuepeng Li,Houliang Cheng
标识
DOI:10.1016/j.indcrop.2021.114376
摘要
Crop evapotranspiration ( ET c ) and crop coefficient ( K c ) can vary among various geographical locations and cultivated species. Therefore, determining regional- and species-specific crop coefficients is fundamental for rational irrigation water management . A two-year field study was conducted in south Xinjiang of northwest China to estimate periodic ET c and reference evapotranspiration ( ET 0 ), and thus develop the regional crop coefficient ( K c ) at various growth stages of fertigated cotton ( Gossypium hirstum L. Xinluzhong No 67 ) under various irrigation amounts. ET c was determined by the soil water balance method, while ET 0 was obtained using the FAO (Food and Agriculture Organization of the United Nations) Penman-Monteith model. The results indicated that increasing irrigation amounts resulted in increased seed cotton yields, but reduced crop water productivity (WP). The water consumption at flowering and boll setting stages accounted approximately for 60% of the seasonal water use of cotton under various irrigation amounts. The average locally developed K c ( K c-local ) values over two seasons were 0.38, 1.30 and 1.09 for initial, mid-season, and end-season stages, respectively. The locally developed initial K c ( K c-local-ini ) (0.38) was higher than the optimized initial-stage K c ( K c-opt-ini ) (0.23) and similar to the FAO recommended K c ( K c-FAO ) (0.35). The optimized K c ( K c-opt ) did not significantly differ from K c-FAO at mid-season and end-season stages. The locally developed middle-stage K c ( K c-local-mid ) was 10% higher than the optimized middle-stage K c ( K c-opt-mid ) and the FAO recommended middle-stage K c ( K c-FAO-mid ), and the locally developed end-stage K c ( K c-local-end ) was approximately 82% higher than the optimized end-stage K c ( K c-opt-end ) and the FAO recommended end-stage K c ( K c-FAO-end ). The difference between K c-local , K c-opt and K c-FAO was attributed to the variations of climate condition, cultivated variety and field management. K c-local determined by the soil water balance method in the present study fully considered the regional conditions including weather, species and management practices, which can be adopted to guide the irrigation management in this region. This study provided credible cotton periodic K c in the arid and semiarid regions of northwest China. A second-order polynomial relationship between cotton K c and t/T (the days after emergence/the days of total cotton growth period) was established, which can provide a reference for the determination of local cotton K c and irrigation management. • Water use and crop coefficient of drip-irrigated cotton under various irrigation amounts were explored. • The average locally developed crop coefficient was 0.38, 1.30 and 1.09 at initial, mid-season and end-season stage. • Second-order polynomial relationship exsited between crop coefficient and days after emergence/total growing days.
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