Effects of methodical nitrogen-water distribution management on water and nitrogen use efficiency of rice

Q3 Agricultural and Biological Sciences
Ming-jin Jiang, Xiangping Guo, Yan He, Tian-Rong Yan, Yong-Jian Sun, Tengfei Lyu, Changchun Guo, Rong Hu, Yu Li, Na Li, Zhiyuan Yang, Jun Ma, Peng Ma
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Abstract

China Abstract: This study included three split-plot designed experiments. Experiments 1 and 2 were conducted in two fields with varied soil fertility and consistent treatment. Two rice varieties (Dexiang 4103, high NUE; Yixiang 3724, low NUE) were set as main plot. The sub-plot contained six nitrogen-water management modes (farmer’s usual management, FU; nitrogen-water coupling management, NWC; methodical nitrogen-water distribution management, MNWD; and their respective nitrogen-free controls). The main plot of Exp.3 was two high NUE varieties (Dexiang 4103, Fyou 498) and two low NUE varieties (Yixiang 3724, Chuanyou 6203); FU, NWC, and MNWD assembled the sub-plot. MNWD adopted the method of increasing frequency and re-ducing quantity, thus the nitrogen application rate was reduced by 20% compared with NWC and FU, the irrigation water amount was reduced by 20% to 25% compared with NWC, and smoothly and its ear bearing tiller percentage was higher. Compared with NWC and FU, the photo assimilation before anthesis MNWD had less, dry matter transportation before anthesis and high accumulation of assimilate after anthesis. The grain yield of MNWD was similar to that of NWC, while 8.77%–14.18% higher than that of FU. Correlation analysis showed that the dry weight of roots in 10–20 cm and 20–30 cm soil layers were significantly and positively correlated with nitrogen recovery efficiency (NRE), nitrogen agronomy efficiency (NAE), irrigation water production efficiency (IWPE) and water production efficiency (WPE). MNWD had a large amount of root system distributed in the soil layer below 10 cm, which was conducive to the improvement of water and nitrogen utilization efficiency. Compared with NWC and FU, MNWD increased NRE by 8.07%–11.99% and 20.72%–30.78%, NAE by 17.44%–27.38% and 96.47%–101.42%, IWPE by 23.34%–36.67% and 76.54%–117.38%, WPE by 8.41%–17.66% and 32.23%–65.29%, respectively.
氮水分配有序管理对水稻水和氮利用效率的影响
中国 摘要:本研究包括三个分块设计的实验。试验 1 和 2 在两块土壤肥力不同且处理一致的田块中进行。两个水稻品种(德香 4103,高氮水值;宜香 3724,低氮水值)为主小区。子小区包含六种氮水管理模式(农民常规管理模式,FU;氮水耦合管理模式,NWC;有条不紊的氮水分配管理模式,MNWD;以及各自的无氮对照)。试验 3 的主小区为两个高氮效利用率品种(德祥 4103、富友 498)和两个低氮效利用率品种(宜香 3724、川优 6203);FU、NWC 和 MNWD 组合为副小区。MNWD采用增频减量法,施氮量比NWC和FU减少20%,灌溉水量比NWC减少20%至25%,穗分蘖率较高。与NWC和FU相比,MNWD花前光同化少,花前干物质运输少,花后同化物积累多。MNWD的谷粒产量与NWC相似,但比FU高8.77%-14.18%。相关分析表明,10-20 cm 和 20-30 cm 土层的根系干重与氮素回收效率(NRE)、氮素农艺效率(NAE)、灌溉水生产效率(IWPE)和水分生产效率(WPE)显著正相关。MNWD有大量根系分布在10 cm以下的土层,有利于提高水和氮的利用效率。与NWC和FU相比,MNWD的NRE分别提高了8.07%-11.99%和20.72%-30.78%,NAE分别提高了17.44%-27.38%和96.47%-101.42%,IWPE分别提高了23.34%-36.67%和76.54%-117.38%,WPE分别提高了8.41%-17.66%和32.23%-65.29%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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