大豆固氮能力和产量对施氮量的响应
- Title:
- Response of the Ability of N2 Fixation and Yield to Nitrogen Application Rate in Soybean
- Keywords:
- Nitrogen fertilizer; Nodule; Nitrogen fixation; Yield
- 文献标志码:
- A
- 摘要:
- ?为量化不同生育时期氮肥施用量与大豆共生固氮能力和产量的关系,探索既不抑制大豆共生固氮能力,又能提高大豆产量的氮肥施用量,以黑农35为材料,采用盆栽试验,通过在V2、R1、R3和R5期施用不同量的氮肥,测定不同生育时期根瘤数量、干重和固氮酶活性及成熟期的产量,研究氮肥施用时期和施用量对大豆根瘤共生固氮能力和产量的影响。不同生育时期处理的大豆根瘤干重、数量和固氮酶活性大小在R6期均表现为V2>R5>R3>R1,且不同生育时期氮肥施用量与大豆根瘤干重、数量和固氮酶活性间均具有显著的线性负相关关系。不同生育时期处理的干物质积累量和产量在R6期均表现为R1>R3>V2>R5。V2、R1和R3期不同氮肥施用量处理,均显著地促进大豆生物量和产量的增加,而R5期不同氮肥施用量处理与CK处理间的生物量和产量差异不显著。不同生育时期处理均以施氮量225 kg〖DK1〗·hm-2的生物量和产量最高。R1期是决定大豆固氮能力和产量高低的关键生育时期,不同生育时期对氮肥施用量的要求存在差异。
- Abstract:
- ?In order to quantify the relationship between the nitrogen application rate and the ability of nitrogen fixation,and find the critical threshold of nitrogen application rate at different growth stage which could improve soybean yield and had no adverse effect on N2 fixation ability.Pot experiment were conducted taking Heinong 35 as test material,total fertilizer N were applied at vegetative stage(V2),early bloom(R1),early pod(R3)and grain fill(R5),respectively,with five application rates(0,75 150,225,300 and 375 kg·ha-1),and the nodule number,biomass,nitrogenase activity and yield were determined.Nitrogen applied at different growth stage remarkably decreased nodule number,biomass and nitrogenase activity at R6 with an order of V2>R5>R3>R1.There were significantly negative linear correlations between nodule number,biomass and nitrogenase activity and the nitrogen application rate.Moreover,the trends of dry matter accumulation and yield were expressed as an order of R1>R3>V2>R5,among which nitrogen applied at V2,R1and R3 had significant promoting effect.At each stage,the nitrogen application rate of 225 kg·ha-1 had the highest dry matter accumulation and yield.There was different threshold of nitrogen application rate at different growth stage,and R1 was the crucial stage to determine the ability of nitrogen fixation and yield.
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[1]张立军,陈艳秋,宋书宏.豆科作物调控共生固氮响应干旱胁迫机制研究进展[J].大豆科学,2013,32(05):694.[doi:10.11861/j.issn.1000-9841.2013.05.0694]
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ZHANG Li-jun,SUN Xu-gang,WANG Chang-ling,et al.Regulation Effect of Water and Fertilizer on Growth and Yield in Soybean under Pot Experiment Condition[J].Soybean Science,2014,33(06):398.[doi:10.11861/j.issn.1000-9841.2014.03.0398]
[4]寸植贤,周志刚,何霞红,等.氮、磷肥用量对大豆结瘤和生长的调节[J].大豆科学,2014,33(02):215.[doi:10.11861/j.issn.1000-9841.2014.02.0215]
CUN Zhixian,ZHOU Zhigang,HE Xiahong,et al.Regulation of Nitrogen and Phosphorus Fertilizer Dosage on Nodulation and Growth of Soybean[J].Soybean Science,2014,33(06):215.[doi:10.11861/j.issn.1000-9841.2014.02.0215]
[5]申晓慧.不同氮肥施用量对大豆根际土壤微生物数量及产量的影响[J].大豆科学,2014,33(02):284.[doi:10.11861/j.issn.1000-9841.2014.02.0284]
SHEN Xiao-hui.Effect of Nitrogen Amount on Rhizosphere Soil Microorganisms and Yield of Soybean[J].Soybean Science,2014,33(06):284.[doi:10.11861/j.issn.1000-9841.2014.02.0284]
[6]李彦生,杜明,刘晓冰,等.氮素用量对菜用大豆生殖生长期根系及鲜荚产量的影响[J].大豆科学,2012,31(01):47.[doi:10.3969/j.issn.1000-9841.2012.01.011]
LI Yan-sheng,DU Ming,LIU Xiao-bing,et al.Effects of Different Nitrogen Dosage on Root Morphology During Reproductive Stages and Fresh Pod Yield in Vegetable Soybean[J].Soybean Science,2012,31(06):47.[doi:10.3969/j.issn.1000-9841.2012.01.011]
[7]张晓春,陈 红,黄世龙,等.春大豆氮肥施用与大豆品种组合优选研究[J].大豆科学,2012,31(02):255.[doi:10.3969/j.issn.1000-9841.2012.02.019]
ZHANG Xiao-chun,CHEN Hong,HUANG Shi-long,et al.Optimal Combination of Nitrogen Fertilizer and Spring Soybean Varieties in Chongqing[J].Soybean Science,2012,31(06):255.[doi:10.3969/j.issn.1000-9841.2012.02.019]
[8]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(02):229.[doi:10.11861/j.issn.1000-9841.2011.02.0229]
YAN Chun-juan,WANG Wen-bin,SUN Xu-gang,et al.Effect of Water-Fertilizer Interaction on Physiological Characteristics,Nitrogen Fixation and Yield of Soybean[J].Soybean Science,2011,30(06):229.[doi:10.11861/j.issn.1000-9841.2011.02.0229]
[9]乔云发,韩晓增.长期定量施肥对大豆根系形态和根瘤性状的影响[J].大豆科学,2011,30(01):119.[doi:10.11861/j.issn.1000-9841.2011.01.0119]
QIAO Yun-fa,HAN Xiao-zeng.Effects of Long-term Fertilization on Root Phenotype and Nodulation of Soybean[J].Soybean Science,2011,30(06):119.[doi:10.11861/j.issn.1000-9841.2011.01.0119]
[10]于晓波,向达兵,杨文钰,等.结瘤性状不同基因型大豆对接种花生根瘤菌Spr2-9的响应[J].大豆科学,2010,29(01):41.[doi:10.11861/j.issn.1000-9841.2010.01.0041]
YU Xiao-bo,XIANG Da-bing,YANG Wen-yu,et al.Response of Soybean Genotypes with Different Nodulation Traits to Peanut Rhizobia Spr2-9 Inoculation[J].Soybean Science,2010,29(06):41.[doi:10.11861/j.issn.1000-9841.2010.01.0041]
备注/Memo
?国家自然科学基金(41201246);国家重点基础研究发展计划“973计划”(2011CB100506)。