Accumulation of late-applied nitrogen and root dynamics during grain filling in irrigated spring wheat.

Herrera J. M.; Delgado J. A.; Dillon M.; Barbarick K. A.; McMaster G. S.

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Accumulation of late-applied nitrogen and root dynamics during grain filling in irrigated spring wheat.

机译：灌溉春小麦灌浆过程中后期施用的氮素和根系动态累积。

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The objective of this study was to investigate the root growth and nitrogen (N) accumulation of spring wheat during grain filling under split N management. Two spring wheat genotypes were grown in a field with sandy loam soils at three levels of N fertilization (18, 21, and 24 g N m-2). Variations in N availability across soil depth were performed in additional experiments under controlled conditions in a greenhouse. The accumulations of total and late-applied N at maturity were 13% and 41% greater, respectively, for the genotype that had longer root length (+57%) and root-to-shoot ratio (+43%). The accumulation of 15N in the greenhouse study was 53% greater with 15N applied at a depth of 0.15 m than at a depth of 0.35 m. These results indicate that the genotype that accumulated more N was characterized by greater proliferation and maintenance of roots where N availability was greater.

机译：这项研究的目的是调查在分裂氮管理下灌浆过程中春小麦的根系生长和氮（N）积累。在含沙壤土的三个氮肥水平下（18、21和24 g N m -2 ）种植了两种春小麦基因型。在温室中受控条件下的其他实验中，氮素有效性随土壤深度的变化。对于具有更长根长（+ 57％）和根茎比（+ 43％）的基因型，成熟期总氮和后期氮的积累分别增加13％和41％。在温室研究中， 15 N的累积量在0.15 m深度处比在0.35 m深度处增加了53％。这些结果表明，积累更多氮素的基因型的特征是氮的有效性更高的根的增殖和维持能力更高。

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《Communications in Soil Science and Plant Analysis》 |2011年第19期|共15页
作者
Herrera J. M.; Delgado J. A.; Dillon M.; Barbarick K. A.; McMaster G. S.;
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正文语种 eng
中图分类农业科学;
关键词
Genotypes; grain filling; labeled nitrogen; nitrogen uptake; root growth; spring wheat;

机译：基因型;籽粒充实;氮素标记;氮素吸收;根系生长;春小麦;

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1. Accumulation of late-applied nitrogen and root dynamics during grain filling in irrigated spring wheat. [J] . Herrera J. M., Delgado J. A., Dillon M., Communications in Soil Science and Plant Analysis . 2011,第16a19期

机译：灌溉春小麦灌浆过程中后期施用的氮素和根系动态累积。
2. Effect of nitrogen topdressing at anthesis and the association of flag-leaf nitrogen with grain protein concentration in irrigated spring wheat. [J] . Sexton P J, Bohle M G, Simmons R B, Journal of Plant Nutrition . 2006,第6期

机译：春小麦追花期追氮及旗叶氮与籽粒蛋白质含量的关系。
3. Drip irrigation incorporating water conservation measures: Effects on soil water–nitrogen utilization, root traits and grain production of spring maize in semi-arid areas [J] . WU Yang, BIAN Shao-feng, LIU Zhi-ming, 农业科学学报（英文版） . 2021,第012期

机译：Drip irrigation incorporating water conservation measures: Effects on soil water–nitrogen utilization, root traits and grain production of spring maize in semi-arid areas
4. Research on the Influence of Irrigation Amount on Dynamic Changes and Accumulation of Soil Nitric Nitrogen under Film Hole Irrigation [C] . Fengtai Guo, Tao Tao, Dongjuan Cheng, ICEEP 2012 . 2012

机译：灌溉量对薄膜灌水下土壤硝氮动态变化和积累的影响研究
5. Influence of heat stress on grain yield, grain quality, and protein composition of spring wheat. [D] . Castro Derenyi, Marina. 2006

机译：热胁迫对春小麦籽粒产量，品质和蛋白质组成的影响。
6. Effect of osmo priming on sucrose metabolism in spring maize during the period of grain filling under limited irrigation conditions [O] . Misha Kawatra, Kamaljit Kaur, Gurjit Kaur 2019

机译：液体灌注对春玉米蔗糖代谢的影响在灌注条件下籽粒灌浆期间
7. Grain Filling Mechanisms in Spring Wheat. V. Evaluation of varietal differences in plant growth and assimilate accumulation with grain filling phases. [O] . Tadashi TAKAHASHI, Kouji NAGAO, Hiroshi ITAGAKI, 1996

机译：春小麦籽粒灌装机制。 V.植物生长差异的评价，籽粒灌浆阶段的植物生长差异。

Accumulation of late-applied nitrogen and root dynamics during grain filling in irrigated spring wheat.

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