Shen Xiao-Jun, Zhang Ji-Yang, Sun Jing-Sheng, Gao Yang, Li Ming-Si, Liu Hao, Yang Gui-Sen
Farmland Irrigation Research Institute, Chinese Academy of Agricultural Sciences/ Key Laboratory of Crop Water Use and Regulation, Ministry of Agriculture, Xinxiang 453002, Henan, China.
College of Water Conservancy and Architectural Engineering, Shihezi University, Shihezi 832000, Xinjiang, China.
Ying Yong Sheng Tai Xue Bao. 2013 Nov;24(11):3153-61.
A field experiment with two irrigation cycles and two irrigating water quotas at squaring stage and blossoming-boll forming stage was conducted in Urumqi of Xinjiang Autonomous Region, Northwest China in 2008-2009, aimed to explore the high-efficient irrigation index of cotton drip irrigation under film mulching. The effects of different water treatments on the seed yield, water consumption, and water use efficiency (WUE) of cotton were analyzed. In all treatments, there was a high correlation between the cotton water use and the evaporation from pan installed above the plant canopy. In high-yield cotton field (including the treatment T4 which had 10 days and 7 days of irrigation cycle with 30.0 mm and 37.5 mm of irrigating water quota at squaring stage and blossoming-boll forming stage, respectively in 2008, and the treatment T1 having 7 days of irrigation cycle with 22.5 mm and 37.5 mm of irrigating water quota at squaring stage and blossoming-boll forming stage, respectively in 2009), the pan-crop coefficient (Kp) at seedling stage, squaring stage, blossoming-boll forming stage, and boll opening stage was 0.29-0.30, 0.52-0.53, 0.74-0.88, and 0.19-0.20, respectively. As compared with the other treatments, T4 had the highest seed cotton yield (5060 kg x hm(-2)) and the highest WUE (1.00 kg x m(-3)) in 2008, whereas T1 had the highest seed cotton yield (4467 kg x hm(-2)) and the highest WUE (0.99 kg x m(-3)) in 2009. The averaged cumulative pan evaporation in 7 days and 10 days at squaring stage was 40-50 mm and 60-70 mm, respectively, and that in 7 days at blossoming-boll forming stage was 40-50 mm. It was suggested that in Xinjiang cotton area, irrigating 45 mm water for seedling emergence, no irrigation both at seedling stage and at boll opening stage, and irrigation was started when the pan evaporation reached 45-65 mm and 45 mm at squaring stage and blossoming-boll stage, respectively, the irrigating water quota could be determined by multiplying cumulative pan evaporation with Kp (the Ko was taken as 0.5, 0.75, 0.85, and 0.75 at squaring stage, early blossoming, full-blossoming, and late blossoming stage, respectively), which could be the high efficient irrigation index to obtain high yield and WUE in drip irrigation cotton field and to save irrigation water resources.
2008 - 2009年在中国西北新疆维吾尔自治区乌鲁木齐市进行了一项田间试验,在棉花的现蕾期和开花结铃期设置了两个灌溉周期和两种灌溉水量定额,旨在探索膜下滴灌棉花的高效灌溉指标。分析了不同水分处理对棉花籽棉产量、耗水量和水分利用效率(WUE)的影响。在所有处理中,棉花耗水量与植株冠层上方安装的蒸发皿蒸发量之间存在高度相关性。在高产棉田(包括2008年处理T4,现蕾期和开花结铃期灌溉周期分别为10天和7天,灌溉水量定额分别为30.0毫米和37.5毫米;以及2009年处理T1,现蕾期和开花结铃期灌溉周期为7天,灌溉水量定额分别为22.5毫米和37.5毫米)中,苗期、现蕾期、开花结铃期和吐絮期的蒸发皿作物系数(Kp)分别为0.29 - 0.30、0.52 - 0.53、0.74 - 0.88和0.19 - 0.20。与其他处理相比,2008年T4的籽棉产量最高(5060千克·公顷⁻²),水分利用效率最高(1.00千克·米⁻³);2009年T1的籽棉产量最高(4467千克·公顷⁻²),水分利用效率最高(0.99千克·米⁻³)。现蕾期7天和10天的平均累计蒸发皿蒸发量分别为40 - 50毫米和60 - 70毫米,开花结铃期7天的平均累计蒸发皿蒸发量为40 - 50毫米。建议在新疆棉区,出苗期灌溉45毫米水,苗期和吐絮期不灌溉,现蕾期和开花期当蒸发皿蒸发量分别达到45 - 65毫米和45毫米时开始灌溉,灌溉水量定额可通过累计蒸发皿蒸发量乘以Kp来确定(现蕾期、初花期、盛花期和终花期的Ko分别取0.5、0.75、0.85和0.75),这可能是滴灌棉田获得高产和高水分利用效率以及节约灌溉水资源的高效灌溉指标。
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