提高糯高粱干物质和氮素积累、转运及利用效率的适宜密度和施氮量

高杰; 李青风; 汪灿; 张国兵; 周棱波; 赵强; 张春兰; 邵明波; 彭秋

doi:10.11674/zwyf.2022207

提高糯高粱干物质和氮素积累、转运及利用效率的适宜密度和施氮量

Optimum plant density and nitrogen level for the efficient accumulationand transportation of dry matter and nitrogen in waxy sorghum

摘要

摘要:
目的种植密度和施氮水平影响着作物的干物质和氮素积累转运及利用效率。研究糯高粱的适宜密度和氮肥水平组合，为贵州高粱绿色高效发展提供技术支撑。
方法以贵州糯高粱品种红缨子为研究对象，2017和2018年在贵州省仁怀市开展裂区设计的田间试验。主区为密度，设置低(9×10⁴株/hm²)、中(11.25×10⁴株/hm²)、高(13.5×10⁴株/hm²) 3个水平；副区为氮肥用量，设施N 0、120、240、360 kg/hm² 4个施氮水平，分别代表不施氮和低、中、高氮水平。在开花期和成熟期，取样测定糯高粱不同部位干物质积累量和氮含量，成熟期测产。
结果糯高粱产量在中密度和中等氮水平下达到最大，分别为4805和4768 kg/hm²。中、高密度处理较低密度处理的平均单位面积有效穗数分别增加了24.93%和51.13%；施氮处理较N₀处理增产主要是单位面积有效穗数、千粒重、穗长的同步提高。种植密度和施氮量的增加可显著提高糯高粱的干物质(氮素)积累总量、转运量、转运率及贡献率；糯高粱的氮肥利用率、表观回收率、农学效率、偏生产力及氮素生理效率在中高密度下增加显著，同一密度下随施氮量增加逐级递减。种植密度(D)、氮肥水平(N)与产量(Y)之间的关系为Y=2169.72D+7.14N–94.52D²–0.016N ²+0.059DN–8198.737，达到最高产量7720.92 kg/hm²的种植密度和施氮量分别为11.53×10⁴ 株/hm²和 234.29 kg/hm²。
结论适宜的种植密度和氮肥水平可显著提高贵州糯高粱的产量，促进干物质、氮素的积累和转运，氮肥利用效率的提高。在本试验条件下，糯高粱的适宜种植密度为11.53×10⁴株/hm²、适宜施氮量为234 kg/hm²。

Abstract:
Objectives Planting density and nitrogen application level affect the efficient accumulation and transportation of dry matter and nitrogen. Here, we studied the optimum plant density and nitrogen levels of waxy sorghum to provide technical support for Guizhou’s green and efficient sorghum industry.
Methods Field experiments were conducted in Huairen City of Guizhou Province in 2017 and 2018; the waxy sorghum cultivar ‘Hongyingzi’ was used as test material. We used a split-plot design for the experiment, with low, medium and high planting densities: 9×10⁴ plants/hm², 11.25×10⁴ plants/hm², and 13.5×10⁴ plants/hm² assigned to the main plot, and four N application rates: 0, 120, 240 and 360 kg/hm² were allotted to the subplot. Plant samples were collected at the anthesis and maturing stages to determine biomass and N content. Yield and yield components were investigated at harvest.
Results The yield of waxy sorghum reached the maximum under medium plant density (4805 kg/hm²) and N application rate (4768 kg/hm²). The effective panicles per unit area were increased by 24.93% and 51.13% in the medium and high planting densities than in low density. N application increased the effective panicle number per unit area, 1000-grain weight, and panicle length. The total dry matter (nitrogen) accumulation, ratio, and its proportional contribution to translocation in the grain of waxy sorghum (P<0.05) increased with increasing planting density and nitrogen application. Nitrogen recovery efficiency, apparent recovery rate, agricultural efficiency, partial productivity, and nitrogen physiological efficiency of waxy sorghum were (P<0.05) higher at medium and high density than under low density. However, these parameters decreased with increasing N application. The relationship among planting density (D), N rate (N) and yield (Y) was Y=2169.72D+7.14N–94.52D²–0.016N²+0.059DN–8198.737. The maximum yield reached 7720.92 kg/hm² when the planting density and N application rate were 11.53×10⁴ plants/hm² and 234.29 kg/hm², respectively.
Conclusions The optimum planting density and N application rate can promote dry matter, nitrogen accumulation and translocation, and improve nitrogen use efficiency and waxy sorghum yield. Under the test conditions, the optimal density and N application rate were 11.53×10⁴ plants/hm² and 234 kg/hm².

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