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雨养烟叶种植田无机氮淋溶特征
引用本文:刘青丽,邹焱,李志宏,蒋雨洲,朱经伟,石俊雄,陈曦,张云贵.雨养烟叶种植田无机氮淋溶特征[J].农业工程学报,2020,36(7):141-148.
作者姓名:刘青丽  邹焱  李志宏  蒋雨洲  朱经伟  石俊雄  陈曦  张云贵
作者单位:中国农业科学院农业资源与农业区划研究所/烟草行业生态环境与烟叶质量重点实验室,北京 100081;贵州省烟草科学研究院,贵阳 550081
基金项目:国家烟草专卖局重点项目(110201402015);中国烟草总公司贵州公司科技项目(201802)
摘    要:为了解烤烟种植下土壤氮淋溶与大田作物差异,评价烟田常规养分管理,探寻烟田无机氮淋溶的阻控策略。以贵州龙岗长期定位试验为平台,于2015—2017年开展常规管理下烟田氮素淋失及其影响因素研究。试验设5个处理:不施肥(CK)、化肥(NPK)、化肥+厩肥(NPK+M)、化肥+连作(NPK+L)、化肥+生物有机肥(NPK+BM)。结果表明,烟田全年无机氮淋溶量为3.62~6.08 kg/hm^2,氮肥净淋溶率为0.09%~3.29%。无机氮的淋溶损失主要发生在烤烟生长季,尤其是5—6月,其占总淋溶量的40.33%~65.86%。烟田淋溶液中氮素形态主要是有机态,无机氮的比例平均仅为29.83%,缓苗期和旺长期(5—6月)淋溶液中无机氮比例高于烤烟成熟期(7—8月),前者无机氮比例平均33.00%,后者其平均为26.67%。降雨是影响烟田淋溶损失的主要因素,无机氮淋溶量与月降雨量呈非线性相关。施用化肥导致无机氮淋溶显著升高,有机肥配施化肥降低了土壤溶液淋溶,降低了氮肥淋溶损失。与烤烟玉米轮作处理相比,烤烟连作处理显著降低了土壤水淋溶,使氮肥净淋溶率降低59.57%。综上,目前烤烟常规管理下,雨养农业区烟田无机氮淋溶强度不高,受降雨影响大,应注重有机无机配施降低无机氮淋溶,在养分管理中考虑如何降低有机氮淋溶,以提高氮素养分供应量。

关 键 词:氮素  淋溶  化肥  有机肥  轮作  雨养区  氮形态
收稿时间:2019/11/1 0:00:00
修稿时间:2020/2/10 0:00:00

Characteristics of inorganic nitrogen leaching from tobacco fields in rain-fed areas
Liu Qingli,Zou Yan,Li Zhihong,Jiang Yuzhou,Zhu Jingwei,Shi Junxiong,Chen Xi and Zhang Yungui.Characteristics of inorganic nitrogen leaching from tobacco fields in rain-fed areas[J].Transactions of the Chinese Society of Agricultural Engineering,2020,36(7):141-148.
Authors:Liu Qingli  Zou Yan  Li Zhihong  Jiang Yuzhou  Zhu Jingwei  Shi Junxiong  Chen Xi and Zhang Yungui
Institution:1.Institute of Agricultural Resource and Regional Planning, Chinese Academy of Agricultural Sciences/Key Laboratory of Ecological Environment and Tobacco Quality in Tobacco Industry, Beijing 100081, China;,2.Guizhou Academy of Tobacco Science, Guiyang 550081, China,1.Institute of Agricultural Resource and Regional Planning, Chinese Academy of Agricultural Sciences/Key Laboratory of Ecological Environment and Tobacco Quality in Tobacco Industry, Beijing 100081, China;,1.Institute of Agricultural Resource and Regional Planning, Chinese Academy of Agricultural Sciences/Key Laboratory of Ecological Environment and Tobacco Quality in Tobacco Industry, Beijing 100081, China;,2.Guizhou Academy of Tobacco Science, Guiyang 550081, China,2.Guizhou Academy of Tobacco Science, Guiyang 550081, China,1.Institute of Agricultural Resource and Regional Planning, Chinese Academy of Agricultural Sciences/Key Laboratory of Ecological Environment and Tobacco Quality in Tobacco Industry, Beijing 100081, China; and 1.Institute of Agricultural Resource and Regional Planning, Chinese Academy of Agricultural Sciences/Key Laboratory of Ecological Environment and Tobacco Quality in Tobacco Industry, Beijing 100081, China;
Abstract:The main purpose of this study was to analyze the characteristics of nitrogen leaching from tobacco fields in order to understand the differences of nitrogen leaching from farmlands and tobacco fields.A long-term positioning experiment was conducted in Kaiyang county,Guizhou province of China(107°06′40″E,26°52′24″N).In this area,the soil texture is silt loam.The mean rainfall is 1129.9-1205.9 mm.Two cropping system were included.One was rotation(tobacco-winter fallow-maize)and the other one was continuous cropping(tobacco-winter fallow-tobacco).Four treatments with rotation cropping system were set up:no fertilizer(CK),chemical fertilizer(NPK),chemical fertilizer with manure(NPK+M),chemical fertilizer with bio-organic fertilizer(NPK+BM).One treatment with continuous cropping was also set up:chemical fertilizer with continuous cropping(NPK+L).The experiments were carried out in the fields from 2015 to 2017.In 2015,the leaching barrels were buried into the soils at 90-cm depth in the fields for monitoring leaching solution from the soils.The leaching solution was collected each a month for determination of inorganic N and total N.The organic N,net N leaching rate and apparent N leaching rate were calculated.The results showed that the annual leaching amount of inorganic nitrogen was 3.62-6.08 kg/hm^2,and the net leaching rate was 0.09%-3.29%.The leaching loss of inorganic nitrogen mainly occurred during the growing season of tobacco fields,especially in May to June,which accounts for 40.33%-65.86%of the total leaching amount.The nitrogen in leaching solution were mainly in organic form.During the growing season of tobacco,the inorganic nitrogen accounted for 27.82%-33.39%of the total leaching nitrogen,and organic nitrogen accounted for 66.61%-72.18%of the total leaching nitrogen.Rainfall was a main factor affecting the nitrogen leaching from tobacco fields,and the monthly leaching amount of inorganic nitrogen was nonlinearly related to the monthly rainfall.Application of chemical fertilizer resulted in a significant increase of leaching inorganic nitrogen.Organic fertilizer combined with chemical fertilizer decreased the leaching amount of soil solution.The amounts of soil leaching solution in chemical fertilizer+manure and chemical fertilizer+bio-organic fertilizer treatment were lower than that in chemical fertilizer treatment.Bio-manure combined with chemical fertilizer significantly reduced leaching of inorganic nitrogen,and its inorganic nitrogen leaching amount was decreased by 39.44%compared with chemical fertilizer treatment.Compared with the treatment of rotation,the continuous cropping treatment significantly reduced soil water leaching and reduced the net leaching rate of nitrogen fertilizer by 59.57%(P<0.05).To sum up,under the current conventional management of flue-cured tobacco,the leaching intensity of inorganic nitrogen in the tobacco field in the rainfed agricultural area is not high.The results could provide valuable information for formulating suitable strategies of fertilization management in tobacco fields.
Keywords:nitrogen  leaching  fertilizers  manure  rotation  rain-fed areas  nitrogen forms
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