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[1]毛洪霞.不同水分处理对滴灌大豆干物质积累及生理参数的影响[J].大豆科学,2009,28(02):247-250.[doi:10.11861/j.issn.1000-9841.2009.02.0247]
　MAO Hong-xia.Effect of Different Drip Irrigation Treatments on Dry Matter Accumulation and Physiological Parameters in Soybean[J].Soybean Science,2009,28(02):247-250.[doi:10.11861/j.issn.1000-9841.2009.02.0247]

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不同水分处理对滴灌大豆干物质积累及生理参数的影响

《大豆科学》[ISSN:1000-9841/CN:23-1227/S] 卷: 第28卷期数: 2009年02期页码: 247-250 栏目: 出版日期: 2009-04-25

Title:: Effect of Different Drip Irrigation Treatments on Dry Matter Accumulation and Physiological Parameters in Soybean

文章编号:: 1000-9841(2009)02-0247-04

作者:: 毛洪霞; 新疆天业集团公司，新疆石河子 832011

Author(s):: MAO Hong-xia; Tian-ye Group Company，Shihezi 832011，Xinjiang，China

关键词:: 滴灌; 大豆; 干物质积累; 生理参数

Keywords:: Drip irrigation; Soybean; Dry matter accumulation; Physiological parameters

分类号:: S565.1

DOI:: 10.11861/j.issn.1000-9841.2009.02.0247

文献标志码:: A

摘要:: 研究滴灌大豆的干物质积累规律。设置295 mm、345 mm、395 mm、445 mm 4个不同的灌水处理，1个沟灌处理为对照。对各处理的大豆株高、干物质积累、叶面积指数（LAI）、群体生长率（CGR）等参数进行分析。结果表明:大豆株高随灌水量的增加而增加，LAI、CGR等随灌水量的增加而增加。滴灌大豆净同化率（NAR）在鼓粒期之后，随灌水量增加而降低；滴灌比沟灌更利于大豆干物质积累，在大豆生育期内较适宜的滴灌灌溉定额为395 mm~445 mm。

Abstract:: To investigate the effect of irrigation amount on drip irrigation soybean，four irrigation treatment of 295 mm，345 mm，395 mm and 445 mm were used with furrow irrigation as comparison，and the growth traits of plant height(PH)，leaf area index(LAI)，crop growth rate(CGR)and net assimilation rate(NAR)were determined.PH，LAI and CGR increased with the increasing of irrigation amount.After seed filling，NAR decreased with increaseing of irrigation amount.Results suggest drip irrigation is beneficial for dry matter accumulation than furrow irrigation，and the suitable irrigation amount is between 395 mm and 445 mm during whole growth stage.

参考文献/References:

[1]Dawood S A，Hamad S N.A comparison of drip and furrow irrigation systems performances[C]∥Drip/Trickle Irrigation in Action，Proceedings of the Third International Drip/Trickle Irrigation Congress，18-21 November 1985，Fresno，CA.

[2]杨鹏辉，李贵全，郭丽，等.干旱协迫对不同抗旱大豆品种花荚期质膜透性的影响[J].干旱地区农业研究，2003，21（3）：127-129.(Yang P H，Li G Q，Guo L，et.al.Effect of drought stress on plasma membrane permeality of soybean varieties during flowering poding stage[J].Agricultural Research In The Arid Areas,2003，21（3）：127-129.)

[3]徐淑琴，宋军，吴砚.大豆需水规律及喷灌模式探讨[J].节水灌溉，2003（3）：23-25.(Xu S Q，Song J，Wu Y，Discussion on water requirement law and sprinkle irrigation module of soybean[J].Water Saving Irrigation，2003（3）:23-25.)

[4]赵宏伟，李秋祝，魏永霞.不同生育时期干旱对大豆主要生理参数及产量的影响[J].大豆科学，2006，25（3）：329-332.(Zhao H W，Li Q Z，Wei Y X.Effect of drought at different growth stages on main physiological parameters and yield on soybean\[J\].Soybean Science，2006，25（3）：329-332.)

[5]谢甫绨，董钻.不同生育期干旱对大豆生长和产量的影响[J].沈阳农业大学学报，1994，25（1）：13-16.(Xie P T，Dong Z.Effect of drought at different growth stages on growth and yield on soybean[J].Journal of Shenyang Agricultural University,1994，25（1）：13-16.

[6]Sort N V.Effect of water logging on soybean critical growth stages[J].Jorunal of Soil and Crops,1995，5(2):141-144.

[7]王培武，李治远，礒田昭弘，等.新疆大豆生产及生态的研究 I开花期缺水和遮光处理对大豆干物质生产及株型的影响[J].作物学报，1995，21（2）：396-403.(Wang P W，Li Z Y，Akihiro Isoda，et al.The study of soybean ecotypes and production in XinjiangⅠ.The effects of shading and moisture stress on flowering and dry matter production in soybean ecotypes[J].Acra Agronomica Sinica，1995，21(2):396-403.)

[8]Watson D J.The physiological basis of variation in yield[J].Advance in Agronomy,1952，(4):101-145.

[9]刘丽君，祖伟，张瑞忠.大豆窄行平播密植条件下的干物质积累规律[J].东北农业大学学报，2000，31（1）：26-31.（Liu l J，Zu W，Zhang R Z.Dry matter accumulation of soybean under the condition of warrow row solid seeding［J］.Jourmal of Northeast Agricultural University，2000，31(1):26-31）

[10]徐世昌，戴俊英，沈秀瑛.水分胁迫对玉米光合性能及产量的影响[J].作物学报,1995，21（3）：356-363.(Xu S C，Dai J Y，Shen J Y.Effects of water stress on photosynthetic charateristics and yield of maize[J].Acra Agronoimca Sinica，1995，21(3):356-363.)

[11]李远明，刘丽君，祖伟，等.不同基因型大豆品种干物质积累与产量形成的关系[J].东北农业大学学报，1999，30（4）：324-328.(Li Y M，Liu L J，Zu W，et al.The relationship between dry matter accumulation and yield among different genotypes of soybean[J].Journal of Northeast Agricultural University，30(4):324-328.)

[12]王荣栋，尹经章.作物栽培学[M].北京：高等教育出版社，2005:191-195.（Wang R D，Yin J Z.Crop cultivation science[M].Beijing：Higher Education Press，2005:191-195.）

[13]孙贵荒，刘晓丽，董丽杰，等.高产大豆干物质积累与产量关系的研究[J].大豆科学，2002，21（3）：199-202.(Sun G H，Liu X L，Dong L J，et.al.Studies on the relationship between yield and dry matter accumulation in high yield potential soybean[J].Soybean Science，2002，21（3）:199-202.)

[14傅寿仲，朱耕如.江苏油料科学［M］.南京：江苏科学技术出版社，1995：296-299.(Fu S Z，Zhu G R.Jiangsu oil crop science[M].Nanjing：Jiangsu Science and Technology Press，1995:296-299.)

[15]郑重，马富裕，白萍.膜下滴灌不同水肥条件下棉花群体冠层结构分析[J].西北农业学报，2001，10（1）：84-87.(Zheng Z，Ma F Y，Bai P.Analysis of cotton canopy structure with treatments of different water and fertilizers under mulch drip irrigation[J].Acta Agriculture Boreali-occidentalis Sinica,2001，10（1）:84-87.)

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备注/Memo

作者简介：〖毛洪霞(1976-)，女，农艺师，现主要从事节水农业相关研究。E-mail：hongxia_mao@yahoo.com.cn。

更新日期/Last Update: 2014-10-03