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[1]金晓梅,Синеговская В Т,赵念力.根瘤菌、微肥和作物生长调节剂对大豆氮磷钾积累和产量的影响[J].大豆科学,2009,28(04):751-754.[doi:10.11861/j.issn.1000-9841.2009.04.0751]
　JIN Xiao-mei,S inegovskaya.Influence of Rhizobium，Trace Fertilizer and Crop Growth Regulators on Nitrogen，Phosphorous，Potassium Accumulation and Yield of Soybean[J].Soybean Science,2009,28(04):751-754.[doi:10.11861/j.issn.1000-9841.2009.04.0751]

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根瘤菌、微肥和作物生长调节剂对大豆氮磷钾积累和产量的影响

《大豆科学》[ISSN:1000-9841/CN:23-1227/S] 卷: 第28卷期数: 2009年04期页码: 751-754 栏目: 出版日期: 2009-08-25

Title:: Influence of Rhizobium，Trace Fertilizer and Crop Growth Regulators on Nitrogen，Phosphorous，Potassium Accumulation and Yield of Soybean

文章编号:: 1000-9841(2009)04-0751-04

作者:: 金晓梅¹; Синеговская В Т²; 赵念力³; ¹黑龙江省水利科学研究院 150080，黑龙江哈尔滨 150080；?
²俄罗斯全俄大豆研究所，阿穆尔州布拉格维申斯克 675005；
³黑龙江省农业科学院，黑龙江哈尔滨 150086

Author(s):: JIN Xiao-mei¹; S inegovskaya; Heilongjiang Provincial Hydraulic Research Institute，Harbin 150080，Heilongjiang，China；
Soybean Institute of the Whole Russia，Bupagevishensik of Amup State，675005，Russia；
³Heilongjiang Academy of Agricultural Sciences，Harbin 150086，Heilongjiang，China

关键词:: 大豆; 根瘤菌; 生长调节剂; 肥料

Keywords:: Soybean; Rhizobium; Plant growth regulator; FertilizerV T²; ZHAO Nian-li^3?

分类号:: S565.1

DOI:: 10.11861/j.issn.1000-9841.2009.04.0751

文献标志码:: A

摘要:: 采用根瘤菌、植物生长调节剂、单一及复合肥料应用试验，研究其增产效果，寻找最佳增产方案。在全俄大豆研究所的2年试验结果表明：在大豆整个生长过程中，不同处理N、P₂O₅和K₂O的积累量与地上部干物重呈极显著线性相关，大豆对N、 P₂O₅和K₂O吸收比例为8.34∶1.00∶3.42；各处理产量均比对照（CK）明显增加，增幅达12%～25%。表现最佳的处理为混合制剂(钼酸铵、根瘤菌、生长调节剂)，其干物质积累比CK提高55.4%，产量增加25%。

Abstract:: Different fertilizer treatments，including seed coated with ammonium molybdate(T1)，rhizobium(T2)，plant growth regulator(T3)，mixture of ammonium molybdate，rhizobium and plant growth regulator(T4) as well as starter fertilizer of N 17 kgha^-1and P₂O₅60 kgha^-1(T5) were conducted at the whole Russia Soybean Institute experimental station for two years，and their effects on the dynamic accumulation of nitrogen，phosphorous，potassium and final seed yield were determined.Under different treatment，the accumulation of N，P₂O₅and K₂O showed positive linear correlation with above-ground biomass，and the ratio of absorbed elements was 8.34 N∶1.00 P₂O₅∶3.42K₂O.All treatments increased seed yield from 12% to 25% compared with CK.T4 treatment had the best effect，under which dry matter increased 55.4%，yield increased 25%.

参考文献/References:

[1]林稚兰，黄秀梨.现代微生物学与实验技术[M].北京:科学出版社，2000：52-60.(Lin Z L，Huang X L.Modern mcrobiology and exprimental technics[M].Beijing：Science Press，2000：52-60.)

[2]陈文新.豆科植物根瘤菌-固氮体系在西部大可法中的作用[J].草地学报，2004，12(1):1-2.( Chen W X.The role of legumes-root nodule bacteria nitrogen fixing system in development of west area of China[J].Acta Agrectir Sinica，2004，12(1):1-2.)

[3]伊尔曼克夫Е.И.用腐殖化物质对作物的几种处理方法是农业生态系统获得高产稳产的生态协调因子［J］.俄罗斯农业科学院通报，2003，(4):7-10.(Ермаков Е И.Некорневая обработка растений гуминовыми ваществами，как экологически гармоничкая карректировка продуктивности и устойчвости агроэкосистем[текст]/Е.И.Ермаков.А.И.Попов//Вестник Рос.акад.с-х.Наук.2003，(4):7-11.)

[4]贝贡С А.大豆根瘤菌菌株的分离方法及效果［M］.使用手册，布拉格维申斯克，2005，70.(Бегун С.А.Способы приемы изучения и отбора эффективных штаммов клубенковых бактерий сои[текст]/С.А.Бегун В.А.Тильба//Методические рекоменд-ации.-благовещенск，2005.-70с.)

[5]玻瑟巴诺夫Г С.土壤及气候条件决定豆科作物的固氮作用［J］.科学杂志1985：75-78.(Посыпанов Г.С.Азотфиксация бобовых культур и зависимость от почвенно-климатических условии[Текст]/Г.С.Посыпанов//Минеральный и биологиче-ский азот в земледелии СССР.-М.:Наука.1985，75-78.)

[6]丁洪，李生秀.磷素营养与大豆生长和共生固氮的关系[J].西北农业大学学报，1998，26(5)：67-70.(Ding H，Li S X.The relation of phosphoaous nutrition to growth and symbiotic nitrogen fixation of soybean curtivars[J].Journal of Northwest Agricurtural University，1998，26(5):67-70.)

[7]王立刚，刘克礼，高聚林，等.大豆对磷素吸收规律的研究[J].大豆科学，2007，26(1):30-35.(Wang L G，Liu K L，Gao J L，et al.Study on the law of phosphorous absorption in soybean[J].Soybean Science，2007，26(1):30-35.)

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备注/Memo

基金项目：全俄农业科学院重点攻关项目(01.02.006 07621)。

作者简介：金晓梅(1963-), 女，在读博士，主要从事大豆根瘤菌和生物肥料研究。E-mail：zhaonl513@163.com。

通讯作者：赵念力，副研究员，博士。E-mail：zhaonl513@163.com。

更新日期/Last Update: 2014-09-24