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[1]边秀芝,郭金瑞,阎孝贡,等.吉林中部大豆高产氮磷钾肥适宜用量研究[J].大豆科学,2009,28(06):1123-1125,1129.[doi:10.11861/j.issn.1000-9841.2009.06.1123]
　BIAN Xiu-zhi,GUO Jin-rui,YAN Xiao-gong,et al.Optimum Rate of NPK Fertilizer Application for Soybean at Central Area of[J].Soybean Science,2009,28(06):1123-1125,1129.[doi:10.11861/j.issn.1000-9841.2009.06.1123]

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吉林中部大豆高产氮磷钾肥适宜用量研究

《大豆科学》[ISSN:1000-9841/CN:23-1227/S] 卷: 第28卷期数: 2009年06期页码: 1123-1125,1129 栏目: 出版日期: 2009-12-25

Title:: Optimum Rate of NPK Fertilizer Application for Soybean at Central Area of

文章编号:: 1000-9841(2009)06-1123-03

作者:: 边秀芝; 郭金瑞; 阎孝贡; 刘剑钊; 任军; 吉林省农业科学院农业环境与资源研究中心，吉林长春 130033

Author(s):: BIAN Xiu-zhi; GUO Jin-rui; YAN Xiao-gong; LIU Jian-zhao; REN Jun; Research Center of Agricultural Environment and Resources，Jilin Academy of Agricultural Sciences，Changchun 130033，Jilin，China

关键词:: 大豆; 高产; 氮磷钾; 适宜用量

Keywords:: Soybean; High yield; NPK; Optimum rate of application

分类号:: S565.1

DOI:: 10.11861/j.issn.1000-9841.2009.06.1123

文献标志码:: A

摘要:: 研究吉林中部大豆高产氮、磷、钾肥适宜用量，为大豆高产高效施肥提供依据。2006~2007年，以吉育88为供试品种，设计了氮、磷、钾肥量级田间试验。结果表明：吉林中部大豆高产氮肥适宜用量为4567.5 kg.m^-2，磷肥（P₂O₅）适宜用量为60~90 kg.hm^-2，钾肥（K₂0）适宜用量为45~80 kg.hm^-2，氮、磷、钾肥对大豆产量的影响顺序为N＞P＞K。

Abstract:: The optimum rate of NPK fertilizer application for soybean was studied at central area of Jilin Province，in order to provide the basis for high yield and high efficient of soybean production.By making Jiyu 88 as experimental cultivar，designed the different fertilizer level on NPK in field during 2006-2007.The results showed the optimum rates of N，P，K application were 45-67.5 kg.ha^-1，60-90 kg.ha^-1，45-80 kg.ha^-1respectively.The effect order of NPK fertilizer on soybean yield was N＞P＞K.

参考文献/References:

[1]李庆逵，朱兆良，于天仁.中国农业持续发展中的肥料问题[M].南昌：江西科学出版社，1998：1-133.(Li Q K，Zhu Z L，Yu T R.The fertilezer problems of sustainable agricultural development in China[M].Nanchang：Science Press of Jiangxi[M].1998：1-133.)

[2]吕英华，秦双月.测土与施肥[M].北京:中国农业出版社，2002：284-286.(Lu Y H，Qin S Y.Soil test and fertilization[M].Beijing：China Agriculture Press，2002：284-286.)

[3]奚振邦.现代化学肥料学[M].北京：中国农业出版社，2003，133-160.(Xi Z B.Chemical fertilizer science[M].Beijing:China Agricultural Press，2003：133-160.)

[4]关连珠.土壤肥料学\[M\].北京：中国农业出版社，2001：178-219.(Guan L Z.Fertility of soil[M].Beijing：China Agriculture Press，2001：178-219.)

[5]高聚林，刘克礼，李惠智，等.大豆群体对氮、磷、钾的平衡吸收关系研究[J].大豆科学，2004，23（2）：106-110.(Gao J L，Li K L，Li H Z，et al.Study on balance absorption of dry farming soybean plants to N，P，K[J].Soybeen Science，2004，23（2）：106-110.)

[6]王超，霍爱伟，王季怀，等.不同施肥配比对大豆生长的影响[J].山西农业大学学报，2007，27（5）:22-24.(Wang C，Huo A W，Wang J H，et al.The influence of different fertilizer matching to the soybean[J].Journal of Shanxi Agricultural University,2007，27（5）:22-24.)

[7]吴明才，肖昌珍，郑普英.大豆磷素营养研究[J].中国农业科学，1999，32(3):59-65.(Wu M C.Xiao C Z，Zheng P Y.Study on the physilogical function of phosphorus to soybean[J].Scientia Agricultura Sinica，1999，32(3):59-65.)

[8]〖阎春娟，韩晓增，王树起，等.钾对大豆干物质积累、产量及品质的影响[J].大豆科学，2008，27（1）:113-117.（Yan C J，Han X Z，Wang S Q，et al.Effect of potassium fertilizer on dry matter a ccumula tion yield and quality of soybean [J].Soybean Science，2008，27(1):113-117.）

[9]韩晓增.大豆高产施肥技术的研究[J].农业系统科学与综合研究，1998，14（3）:239-240.(Han X Z.Study of high-yield fertilization technique of soybean[J].System Sciences Comprehensive Studies in Agriculture，1998，14（3）:239-240.)

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备注/Memo

基金项目：国家科技支撑计划资助项目（2006BAD521B01-2、2006BAD521B01-2-2）。

第一作者简介：边秀芝（1956-），女，研究员，研究方向为作物栽培与土壤肥料。E-mail:bianxiuzhi@sohu.com。

更新日期/Last Update: 2014-09-13