Effects of side deep placement of nitrogen on rice yield and nitrogen use efficiency

Heng Huang, Heng-xin Jiang, Guangwen Liu, Jialing Yuan, Yuan Wang, Can Zhao, Wei-Ling Wang, Zhong-yang Huo, Ke Xu, Q. Dai, Hong-cheng Zhang, De-Jian Li, Guoning Liu
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引用次数: 2

Abstract

: Lateral deep fertilization is an efficient, high-quality, and safe cultivation technology of rice mechanical transplanting. In order to improve the technical system of lateral deep fertilization, we investigated the effects of different fertilization methods on rice yield and nitrogen use efficiency under the condition of lateral deep fertilization. In this study, Nanjing 9108 and Nanjing 5718, the representative varieties of quality and delicious rice of Jiangsu, were used as materials. Four different lateral deep fertilization methods were arranged, including 100% base fertilizer side deep application FM1 (fertilization method 1), 70% base fertilizer side deep application + 30% tillering fertilizer FM2 (fertilization method 2), 70% base fertilizer side deep application + 30% panicle fertilizer FM3 (fertilization method 3), and 35% base fertilizer side deep application + 35% tillering fertilizer + 30% panicle fertilizer FM4 (fertilization method 4). In addition, the conventional fertilization method and no nitrogen treatment were added. The effects of different treatments on rice yield, leaf area index, photosynthetic potential, dry matter accumulation, population growth rate, and nitrogen use efficiency were compared. The results revealed that the yield of FM3 and FM4 were higher than those of other treatments. The main reason was that the spikelet number of the population was significantly higher than that of other treatments on the basis of stable panicle number. The leaf area index and dry matter accumulation of FM3 treatment were higher in the middle and late growth stages, especially from heading to maturity stage. Nitrogen accumulation of FM3 was less before jointing stage, but nitrogen accumulation after jointing stage and the total nitrogen uptake during the whole growth period were significantly higher than those of other treatments. Moreover, the nitrogen agronomic utilization rate, nitrogen physiological utilization rate, nitrogen absorption utilization rate, and nitrogen partial productivity of FM3 were significantly higher than those of the other treatments. At the same time, compared with CFM and FM4, FM3 can reduce fertilization times by 1–2 times, save labor and cost, and is conducive to large-scale production. It is a high-yield, simple and efficient fertilization method for rice.
侧面深施氮肥对水稻产量和氮素利用效率的影响
横向深施肥是一种高效、优质、安全的水稻机械插秧栽培技术。为了完善侧深施肥技术体系,研究了侧深施肥条件下不同施肥方式对水稻产量和氮素利用效率的影响。本研究以江苏优质香米代表品种南京9108和南京5718为材料。设置了4种不同的横向深施肥方式,即100%基肥侧深施FM1(施肥方式1)、70%基肥侧深施+ 30%分蘖肥FM2(施肥方式2)、70%基肥侧深施+ 30%穗肥FM3(施肥方式3)、35%基肥侧深施+ 35%分蘖肥+ 30%穗肥FM4(施肥方式4)。采用常规施肥方法,不加氮肥处理。比较了不同处理对水稻产量、叶面积指数、光合势、干物质积累、种群生长率和氮素利用效率的影响。结果表明,FM3和FM4的产量高于其他处理。主要原因是在稳定穗数的基础上,群体的小穗数显著高于其他处理。FM3处理的叶面积指数和干物质积累量在生育中后期较高,抽穗至成熟期尤甚。拔节期前FM3氮素积累量较少,拔节期后氮素积累量和全生育期总吸氮量显著高于其他处理。FM3的氮素农艺利用率、氮素生理利用率、氮素吸收利用率和氮素偏生产力显著高于其他处理。同时,与CFM和FM4相比,FM3可减少施肥次数1-2倍,节省人工和成本,有利于规模化生产。是一种高产、简便、高效的水稻施肥方法。
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来源期刊
作物学报
作物学报 Agricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
1.70
自引率
0.00%
发文量
89
期刊介绍: The major aims of AAS are to report the progresses in the disciplines of crop breeding, crop genetics, crop cultivation, crop physiology, ecology, biochemistry, germplasm resources, grain chemistry, grain storage and processing, bio-technology and biomathematics etc. mainly in China and abroad. AAS provides regular columns for Original papers, Reviews, and Research notes. The strict peer-review procedure guarantees the academic level and raises the reputation of the journal. The readership of AAS is for crop science researchers, students of agricultural colleges and universities, and persons with similar academic level.
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