| 氮肥运筹对苗期受渍夏玉米干物质和氮素积累与转运的影响 |
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| 引用本文: | 武文明,陈洪俭,王世济,魏凤珍,李金才.氮肥运筹对苗期受渍夏玉米干物质和氮素积累与转运的影响[J].作物学报,2015,41(8):1246-1256. |
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| 作者姓名: | 武文明 陈洪俭 王世济 魏凤珍 李金才 |
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| 作者单位: | 1安徽省农业科学院烟草研究所 / 玉米研究中心,安徽合肥230031;2安徽农业大学农学院,安徽合肥230036 |
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| 基金项目: | 本研究由国家公益性行业(农业)科研专项(201203079, 201203100),安徽省农业科学院院长青年创新基金项目(14B0944),国家科技支撑计划项目(2012BAD20B02)和江苏省现代作物生产协同创新中心项目资助。 |
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| 摘 要: | 以玉米品种郑单958为试验材料,研究不同氮肥运筹方式氮肥全部基施(N1)、基肥70%+拔节肥30%(N2)、基肥50%+拔节肥50%(N3)和基肥30%+拔节肥50%+大喇叭口肥20%(N4)]对苗期受渍夏玉米叶面积指数(LAI)、干物质积累、氮素吸收积累及产量的影响,以期为苗期受渍夏玉米合理施肥提供理论依据。结果表明,苗期渍水7 d降低夏玉米产量,降幅达24.2%~25.7%,氮肥后移能够减轻苗期渍害对产量的影响。玉米产量与穗粒数的相关性大于与千粒重的相关性;吐丝期最大LAI和收获指数与产量存在极显著相关性,但粒叶比与产量间无显著相关性。苗期渍水7 d降低群体LAI,氮肥后移能增大穗位层和穗上层叶片的LAI以弥补穗下层LAI降低导致的群体LAI下降,且弥补的效应大于渍害导致穗下层LAI降低的效应,进而使得苗期渍水7 d下氮肥后移的群体LAI较氮肥前移增大。苗期渍水7 d显著降低吐丝后干物质积累量,渍水使营养器官干物质积累转运量增大;氮肥前移处理使营养器官干物质向籽粒的转运量增大,但不利于吐丝后籽粒干物质积累,氮肥后移处理则显著提高了吐丝后籽粒干物质积累量及其对籽粒产量的贡献率。苗期渍水7 d使夏玉米各器官氮素积累量下降,吐丝后营养器官贮藏氮素向籽粒的转运量和吐丝后籽粒氮素积累量低于对照,表明苗期渍水7 d处理不利于籽粒中氮素的积累。氮肥后移能够提高成熟期籽粒及营养器官氮素积累量。渍水7 d处理使氮素吸收效率和偏生产力显著低于对照,随着氮肥后移,氮素吸收效率提高0.9%~18.2%、偏生产力提高1.0%~17.5%。
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| 关 键 词: | 夏玉米 渍水 氮肥后移 叶面积指数 干物质 氮素吸收 |
| 收稿时间: | 2015-03-04 |
Effects of Nitrogen Fertilization Application Regime on Dry Matter,Nitrogen Accumulation and Transportation in Summer Maize under Waterlogging at the Seedling Stage |
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| WU Wen-Ming,CHEN Hong-Jian,WANG Shi-Ji,WEI Feng-Zhen,LI Jin Cai.Effects of Nitrogen Fertilization Application Regime on Dry Matter,Nitrogen Accumulation and Transportation in Summer Maize under Waterlogging at the Seedling Stage[J].Acta Agronomica Sinica,2015,41(8):1246-1256. |
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| Authors: | WU Wen-Ming CHEN Hong-Jian WANG Shi-Ji WEI Feng-Zhen LI Jin Cai |
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| Institution: | 1.Tobacco Research Institute, Anhui Academy of Agricultural Sciences, Hefei 230031, China;2.College of Agronomy, Anhui Agricultural University, Hefei 230036, China |
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| Abstract: | Field experiments were carried out from 2011 to 2012 to clarify the leaf area index, dry matter accumulation, nitrogen assimilation, nitrogen use efficiency and grain yield under waterlogging at the seedling stage in summer maize cultivar “Zhengdan958”. Under both waterlogging and control (normal watering) conditions, we implemented four treatments with total N amount of 240 kg ha-1 in all treatments and different N application ratios at land preparation, jointing, and big trumpet stages (10:0:0 for N1, 7:3:0 for N2, 5:5:0 for N3, and 3:5:2 for N4). The results showed that waterlogging stress in the seedling stage significantly decreased grain yield by 24.2%–25.7%, postponement of nitrogen application was able to alleviate the effect of waterlogging on grain yield. The grain yield was affected more by kernel number per ear than by 1000-kernel weight, and grain yield was positively correlated to the maximum LAI at silking stage and harvest index, while not to grain-leaf ratio. Waterlogging stress in the seedling stage significantly decreased leaf area index (LAI), especially LAI of under-ear layer. Postponed nitrogen application increased the LAI of ear layer and above-ear layer to compensate the LAI decrease of under-ear layer, and the compensation effect was higher than the decrease effect of waterlogging stress, which resulted in higher LAI compared to the nitrogen application in advance. Waterlogging stress in the seedling stage significantly decreased dry matter accumulation, and increased the transportation amount after silking stage. Postponed nitrogen application enhanced the accumulation of dry matter and laid the foundation for increasing grain yield. Waterlogging stress in the seedling stage also significantly decreased nitrogen accumulation of different organs, and decreased nitrogen translocation from vegetative organs to the grain, and nitrogen accumulation amount after silking stage. Compared with nitrogen applied in advance, postponed nitrogen application significantly increased the nitrogen content of different organs, and nitrogen accumulation amount after silking stage. Waterlogging stress decreased nitrogen uptake efficiency and partial factor productivity from applied nitrogen, postponed nitrogen application increased the nitrogen uptake efficiency by 0.9% to 18.2%, and partial factor productivity from applied nitrogen by 1.0% to 17.5%. |
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