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Regulation Effect of Water and Fertilizer on Growth and Yield in Soybean under Pot Experiment Condition(PDF)

《大豆科学》[ISSN:1000-9841/CN:23-1227/S]

Issue:
2014年03期
Page:
398-403
Research Field:
Publishing date:

Info

Title:
Regulation Effect of Water and Fertilizer on Growth and Yield in Soybean under Pot Experiment Condition
Author(s):
ZHANG Li-junSUN Xu-gangWANG Chang-lingYAN Chun-juanWANG Wen-binSONG Shu-hong
Crop Institute of Liaoning Academy of Agricultural Sciences,Shenyang 110161,China
Keywords:
SoybeanWater and fertilizer controllingRoot noduleYield
PACS:
S565.1
DOI:
10.11861/j.issn.1000-9841.2014.03.0398
Abstract:
The weighing method was used to regulate the water in branch stage of soybean in the condition of pot planting to understand the effect of different water condition(drought stress,normal water and waterlogging)and fertilizer treatment(nofertilizer and fertilizer)on the growth and yield of soybean.The result showed that the leaf area,dry weight of root,stem and leaf under the condition of W2F1 treatment(normal water and fertilizer),were higher than other treatments.The plant high,nodule number and nodule weight were higher under the condition of W3F1(waterlogging and fertilizer)than other treatments,W1F0(drought stress and no fertilizer)had the most of nodule weight than other treatments.The pod number per plant,100seed weight and yield under the condition of W2F1 were more than other treatments,although that W3F1 had the most number of pod per plant.The W1F0(drought stress and no fertilizer)had the least yield.Therefore,suitable water and fertilizer could promote the growth of soybean.Although the fertilizer could inhibit the nodulation,then the high yield could get.If drought stress happened in branch stage,could inhibit the drought matter accumulation and nodule development.Fertilizer could not invert the lost of drought stress.Waterlogging and fertilizer treatment was good for the increasing of leaf area,nodule weight and seed number per plant,no better for drought matter accumulation,100seed weight and yield.

References:


[1]王海艺,韩烈保,黄明勇.干旱条件下水肥耦合作用机理和效应[J].中国农学通报,2006,22(6):124-128.(Wang H Y,Han L B,Huang M Y.Mechanism and effect of water and fertilizer coupling under drought stresses[J].Chinese Agricultural Science Bulletin,2006,22(6):124-128.)

[2]张秋英,刘晓冰,金剑,.水肥耦合对大豆光合特性及产量品质的影响[J].干旱地区农业研究,200 3,21(1):83-84,94-95.(Zhang Q Y,Liu X B,Jin J,et al.Influence of water and fertilizer coupling on photosynthetic characters and yield & quality of soybean[J].Agricultural Research in the Arid Areas,2003,21(1):83-84,94-95.)

[3]姜妍,刘燕,刘伟,等.不同施肥处理对滴灌大豆干物质积累及产量与效益的影响[J].作物杂志,2011(5):61-64.(Jiang Y,Liu Y,Liu W,et al.Effects of different fertilization treatments on dry matter accumulation,yield and benefit of soybean under drip irrigation[J].Crops,2011(5):61-64.) [4]李伏生,陆申年.灌溉施肥的研究和应用[J.植物营养与肥料学报,20006(2):233-240.(Li F S,Lu S N.Study on the fertigation and its asslication[J].Plant Nutrition and Fertilizer Science,20006(2):233-240.)

[5]毛洪霞.滴灌大豆需水规律及灌溉制度研究[J.干旱地区农业研究,200927(5):112-117.(Mao H X.Research on soybean water requirement and schedule of drip irrigationJ.Agricultural Research in the Arid Areas,200927(5):112-117.)

[6]乔云发,韩晓增,苗淑杰,等.黑土区水肥耦合对大豆产量的影响[J].大豆通报,2007(1)25-27.(Qiao Y F,Han X Z,Miao S J,et al.Effects of water and fertilizer coupling on yield of soybean at black soil areaJ.Soybean Bulletin,2007(1):25-27.)

[7]张丽华,赵洪祥,谭国波,.水肥耦合对大豆光合特性及产量的影响[J].大豆科学,201029(2)268-271.(Zhang L H,Zhao H X,Tan G B,et al.Influence of water and fertiizer coupling on photosynthetic characters and yield of soybean[J].Soybean Science,201029(2):268-271.)

[8]董钻,谢甫绨 .大豆氮磷钾吸收动态及模式的研究[J].作物学报,199622(1)89-95.(Dong Z,Xie F T.Studies on dynamics and models of N,P,K absorption in soybeans[J].Acta Agronomica Sinica,1996,22(1):89-95.)

[9]许忠仁,张贤泽,杜维广,等.大豆生理与生理育种[M].哈尔滨:黑龙江科学技术出版社,1989.(Xu Z RZhang X Z,Du W G,et a1.Soybean physiology physiology breeding[M].HarbinHeilongjiang Science Technology Press,1989.)

[10]Rhine M D,Stevens G,Shannon G,et al.Yield and nutritional responses to waterlogging of soybean cultivars[J].Irrigation Science,2010,28:135-142.

[11]Wright J A,Shirmohammadi A,Magette W L,et al.Water table management practice effects on water quality[J].Transactions of the ASAE,1992,35823-830.

[12]Nathanson K,Lawn R J,de Jabrun P L M,et al.Growth,nodulation and nitrogen accumulation by soybean in saturated soil culture[J].Field Crops Research,1984,8:73-92.

[13]Ashraf M A,Ahmad M S A,Ashraf M,et al.Alleviation of waterlogging stress in upland cotton(Gossypium hirsutum L.)by exogenous application of potassium in soil and as a foliar spray[J].Crop and Pasture Science,2011,62:25-38.

[14]Matsuo N,Takahashi M,Nakano H,et al.Growth and yield responses of two soybean cultivars grown under controlled groundwater level in southwestern Japan[J].Plant Production Science,2013,16:84-94.

[15]闫春娟,王文斌,孙旭刚,等.水肥互作对大豆生理特性、根瘤固氮及产量的影响[J].大豆科学,2011,30(2)229-232.(Yan C J,Wang W B,Sun X G,et al.Effect of waterfertilizer interaction on physiological characteristics,nitrogen fixation and yield of soybean[J].Soybean Science,2011,30(2):229-232.)

[16]Rosolem C A,Nakagawa J.Residual and annual potassic fertilization for soybeans[J].Nutrient Cycling in Agroecosystems,2001,59:143-149.

[17]Flavio H,Gutiérrezboem,Grant W T.Phosphorus nutrition and water deficits in fieldgrown soybeans[J].Plant and Soil,1999,207:87-96.

[18]Liu X B,Jin J,Herbert S J,et al.Yield components,dry matter,LAI and LAD of soybeans in Northeast China[J].Field Crops Research,2005,93:85-93.

[19]Shou H X,Zhu D H,Chen C X,et al.The initial study of responses and physiological indexes for drought resistance in eight soybean varieties under drought condition[J].Acta Agriciculturae Zhejiangensis,1991,6:278-281.

[20]Serraj R,Sinclair T R,Purcell L C.Symbiotic N2 fixation response to drought[J].Journal of Experimental Botany,1999,50:143-155.


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Last Update: 2014-08-01