滴灌条件下不同氮磷耦合对叶用枸杞产量及其构成的影响

康超; 杨柳; 王昊; 南雄雄; 王蓉; 孙权

引用本文:	康超,杨柳,王昊,等.滴灌条件下不同氮磷耦合对叶用枸杞产量及其构成的影响[J].灌溉排水学报,2018,37(11):26-30.
	KANG Chao,YANG Liu,WANG Hao,et al.滴灌条件下不同氮磷耦合对叶用枸杞产量及其构成的影响[J].灌溉排水学报,2018,37(11):26-30.

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滴灌条件下不同氮磷耦合对叶用枸杞产量及其构成的影响
康超，杨柳，王昊，南雄雄，王蓉，孙权
1.宁夏大学农学院，银川 750021； 2.国家林业局枸杞工程技术研究中心，银川 750004；3.宁夏吴忠国家农业科技园区管理委员会，宁夏吴忠 751100

摘要:

【目的】探讨滴灌条件下适宜叶用枸杞水肥一体化生产的氮磷质量浓度。【方法】以5 a生枸杞“宁杞9号”为试验材料，在钾素质量浓度统一为40 mg/L的基础上，采用二因素三水平随机区组试验设计，氮素质量浓度设40、60、80 mg/L共3个水平，分别记为N1、N2、N3，磷素质量浓度设10、20、30 mg/L共3个水平，分别记为P1、P2、P3，研究了不同氮磷耦合对叶用枸杞产量、产量构成要素、产投比的影响。【结果】不同氮素质量浓度对叶用枸杞芽数与鲜质量的影响不明显，不同磷素质量浓度对叶用枸杞芽数与鲜质量的影响明显，在P3水平下，叶用枸杞芽数与鲜质量均显著提高。不同氮磷组合对叶用枸杞产量、肥料经济效益影响明显，产投比最高的组合是N1P1，其产量为14 220 kg/hm2，产投比高达38.33，在N2P3组合下叶用枸杞产量最高（16 095 kg/hm2），产投比处于中间水平，但其净收益最高。【结论】钾素质量浓度为40 mg/L时，全生育期叶用枸杞灌溉肥液以N2P3为宜，能使叶用枸杞获得高产，并且节约肥料成本，增加经济收益。

关键词: 氮磷耦合；叶用枸杞；产量；构成

DOI：10.13522/j.cnki.ggps.2017.0674

分类号:

基金项目:

Effects of the Ratio of Nitrogen and Phosphorus Concentrations in Drip Fertigation on Yield and Yield Components of Chinese Wolfberry

KANG Chao, YANG Liu, WANG Hao, NAN Xiongxiong, WANG Rong, SUN Quan

1.College of Agronomy, Ningxia University, Yinchuan 750021, China; 2. Research Center of Chinese Wolfberry Engineering Technology, State Forestry Administration, Yinchuan 750004, China; 3. Ningxia Wuzhong National Agricultural Science and Technology Park Management Committee, Wuzhong 751100, China

Abstract:

【Objective】 Rationally coupling different fertilizers in fertigation can improve nutrient use efficacy and food quality. This paper aimed to experimentally study the optimal ratio of nitrogen and phosphorus when they were used together with irrigation to fertilize Chinese wolfberry. 【Method】 The experiments were conducted in field with the Chinese wolfberry “Ningqi 9” as the model plant. A two-factor and three-level randomized block design was designed based on a uniform potassium concentration of 40 mg/L. We considered three nitrogen concentrations: 40 mg/L (N1), 60 mg/L (N2) and 80 mg/L (N3), and three phosphorus concentrations: 10 mg/L (P1), 20 mg/L (P2) and 30 mg/L (P3). In all treatments, we measured the yield , the yield components, as well as the return of the investment in fertilizers. 【Method】 The effects of nitrogen concentration on the number and fresh weight of the wolfberry were not noticeable, as opposed to the P concentration. All treatments with P3 significantly increased the number and fresh weight of the wolfberry. Different N∶P ratios had significant effect on the yield of the wolfberry and economic return of the fertilizers. The best N∶P ratio was N1-P1, with a yield of 14 220 kg/hm2 and input : output ratio of 38.33. N2-P3 gave the highest yield, reaching 16 095 kg/hm2, with a moderate input-output ratio but highest economic return. 【Conclusion】 When the potassium concentration was 40 mg/L, the suitable nutrient solution used in fertigation was N2-P3 for the wolfberry, reducing fertilizer costs and increasing investment return.

Key words: nitrogen and phosphorus coupling; leaf utilization wolfberry; yield; components