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作 者:屈佳伟 高聚林[1] 王志刚[1] 于晓芳[1] 胡树平[1] 孙继颖[1]
出 处:《玉米科学》2016年第2期72-78,共7页Journal of Maize Sciences
基 金:国家粮食丰产科技工程(2011BAD16B13;2012BAD04B04;2013BAD07B04;2011BAD16B14);国家自然科学基金项目(31260300);国家玉米产业技术体系(CARS-02-63)
摘 要:在4个硝酸盐浓度下进行2个玉米品种盆栽砂培试验,研究玉米根系特征的基因型差异对硝酸盐浓度的响应及与氮素吸收效率的关系。结果表明,氮高效品种郑单958在硝酸盐浓度为0.08、0.8、4.0 mmol/L时,根重、根幅、根长、根表面积、根体积、分枝数、分形维数、根系活力均显著高于氮低效玉米品种内单314。各根系形态指标随硝酸盐浓度的增加逐渐增加,当硝酸盐浓度从4.0 mmol/L增加至8.0 mmol/L时,不同基因型品种间差异不显著。在低氮胁迫条件下,玉米主要通过增加细根比例、增加根表面积吸收更多的氮素;在氮素供应充足条件下,通过增加根系平均直径,形成高密的分枝系统吸收氮素。进一步通径分析表明,根长与根体积对氮吸收效率直接影响最大,是氮吸收效率差异的主要原因。Two maize hybrids cultivated in pots experiment to reveal genotype differences in root characteris-tics by maize for the response of nitrate concentration and its relations to nitrogen uptake efficiency at four nitratelevels. The result showed that ZD958, a N efficient variety significantly higher than ND314, a N inefficient varietyin root dry weight, root extent, root length, root surface, root volume, NO. of branches, fractal dimension and root vi-gour at three nitrate concentrations(0.08, 0.8, 4.0 mmol/L). Each index of root morphology gradually increased withthe increase of nitrate concentration, when nitrate concentrate from 4.0 mmol/L increased to 8.0 mmol/L, the differ-ence was not significant. Under the condition of nitrogen supply, maize in order to uptake more nitrogen by increas-ing root mean diameter and forming density branches system. Path analysis showed that root length and root volumehad the largest influence on nitrogen uptake efficiency. Thus, Nitrogen efficient varieties of total root length, root vol-ume was significantly higher than that of nitrogen inefficient varieties, that was a major cause of nitrogen uptake effi-ciency differences.
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