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滴灌减氮对植烟土壤无机氮变化及烟株氮积累的影响 被引量:3

Effects of Nitrogen Reduction with Drip Fertigation on Soil Inorganic Nitrogen and Nitrogen Accumulation in Tobacco
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摘要 为明确滴灌施肥条件下减量施氮对土壤无机氮变化特征、烟株氮积累规律的影响,于2016年在登封进行了田间试验,试验共设置5个处理:T0:不施氮肥;T1:常规施肥;T2:减氮15%;T3:减氮30%;T4:减氮45%。分析了0~20、20~40、40~60 cm土层无机氮含量及烟株氮积累量变化,并对0~20 cm土层无机氮含量拟合曲线及烟株氮积累拟合曲线特征值进行分析。结果表明,滴灌施肥能够显著提高栽后40、50 d时0~20 cm土层无机氮含量,显著降低栽后50 d时40~60 cm土层无机氮含量;减氮15%~30%对烟叶产量、生育期内烟株氮素积累量均无显著影响,减氮45%烟叶产量、烟株氮积累量、烟叶氮积累量分别显著下降11.52%、10.53%、10.50%;氮肥农学效率(NAE)、氮肥偏生产力(NPFP)均以T4处理最高,且随施氮量增加逐渐下降,氮肥表观利用率(ARE)以T3处理最高,氮收获指数(NHI)、氮肥生理利用率(NPE)与施氮量间无明显关系。减施氮肥土壤无机氮下降持续时间及烟株氮素快速增长时间会延长,无机氮最大下降速率及烟株最大氮积累速率降低,不利于烟株氮素快速积累。因此,综合考虑认为,在该地区条件下,滴灌施肥减氮15%~30%有利于氮肥高效应用。 In order to clarify the effects of reducing nitrogen application on soil inorganic nitrogen and nitrogen accumulation in tobacco plants under drip fertigation, a field experiment was carried out in 2016 in Dengfeng of Henan Province, which included five treatments: TO, no nitrogen fertilization; T1, conventional fertilization; T2, 15% reduction of nitrogen; T3, 30% reduction of nitrogen; T4, 45% reduction of nitrogen. Inorganic nitrogen contents in 0-20, 20-40 and 40-60 cm soils and nitrogen accumulation in tobacco plants were analyzed. The correlation was analyzed between the characteristics values of fitting curves of inorganic nitrogen in 0-20 cm soil and nitrogen accumulation in tobacco plant. The results showed that drip fertigation could significantly increase inorganic nitrogen in 0-20 cm soil in 40 and 50 days after planting and significantly reduce soil inorganic nitrogen in 40-60 cm soil in 50 days. Fifteen percent to thirty percent reduction of nitrogen had no significant effect on the yield of tobacco leaves and on the nitrogen accumulation in tobacco plants, but the yield and nitrogen accumulation in tobacco leaves and plant decreased significantly by 11.52%, 45%, 10.53% and 10.50% respectively under 45% reduction of nitrogen. Nitrogen agronomic efficiency (NAE) and nitrogen partial factor productivity (NPFP) were the highest in T4, and gradually decreased with the increase of nitrogen rate. Apparent recovery efficiency (ARE) of nitrogen fertilizer was the highest in T3. Nitrogen harvest index (NHI) and nitrogen physiological efficiency (NPE) had no obvious correlation with nitrogen rate. However, the decrease of nitrogen rate could prolong the decrease duration of inorganic nitrogen and the rapid growth stage of tobacco plants, and reduce the maximum decrease rate of inorganic nitrogen and the maximum nitrogen accumulation rate of tobacco plants, which is adverse to the rapid accumulation of nitrogen in tobacco plants. Therefore, it is considered that reducing nitrogen by 15%-30% under drip fertigation is beneficial to the efficient utilization of nitrogen fertilizer in this study region.
作者 杜飞乐 任天宝 林二阁 李京阳 胡静宜 孙溢明 刘英杰 刘国顺 DU Feile;REN Tianbao;LIN Erge;LI Jingyang;HU Jingyi;SUN Yiming;LIU Yingjie;LIU Guoshun(Tobacco Industry Tobacco Cultivation Key Laboratory/Henan Biochar Engineering Research Center, Zhengzhou 450002, China;Tobacco College of Henan Agricultural University, Zhengzhou 450002;Zhengzhou Company of Henan Tobacco Company, Zhengzhou 450001, China)
出处 《土壤》 CAS CSCD 北大核心 2018年第2期298-304,共7页 Soils
基金 国家重点研发计划课题项目(2017YFD0200808) 河南省烟草公司项目(ZYKJ201416)资助
关键词 滴灌 减氮 土壤无机氮 烟株 氮积累 Drip fertigation Reduced nitrogen Soil inorganic nitrogen Tobacco plant Nitrogen accumulation
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