Improving winter wheat grain yield and water-/nitrogen-use efficiency by optimizing the micro-sprinkling irrigation amount and nitrogen application rate
文献类型: 外文期刊
第一作者: Li Jin-peng
作者: Li Jin-peng;Zhang Zhen;Yao Chun-sheng;Liu Yang;Wang Zhi-min;Zhang Ying-hua;Li Jin-peng;Fang Bao-ting
作者机构:
关键词: micro-sprinkling irrigation; winter wheat; grain yield; water and nitrogen utilization
期刊名称:JOURNAL OF INTEGRATIVE AGRICULTURE ( 影响因子:2.848; 五年影响因子:2.979 )
ISSN: 2095-3119
年卷期: 2021 年 20 卷 2 期
页码:
收录情况: SCI
摘要: Available irrigation resources are becoming increasingly scarce in the North China Plain (NCP), and nitrogen-use efficiency of crop production is also relatively low. Thus, it is imperative to improve the water-use efficiency (WUE) and nitrogen fertilizer productivity on the NCP. Here, we conducted a two-year field experiment to explore the effects of different irrigation amounts (S60, 60 mm; S90, 90 mm; S120, 120 mm; S150, 150 mm) and nitrogen application rates (150, 195 and 240 kg ha(-1); denoted as N1, N2 and N3, respectively) under micro-sprinkling with water and nitrogen combined on the grain yield (GY), yield components, leaf area index (LAI), flag leaf chlorophyll content, dry matter accumulation (DM), WUE, and nitrogen partial factor productivity (NPFP). The results indicated that the GY and NPFP increased significantly with increasing irrigation amount, but there was no significant difference between S120 and S150; WUE significantly increased first but then decreased with increasing irrigation and S120 achieved the highest WUE. The increase in nitrogen was beneficial to improving the GY and WUE in S60 and S90, while the excessive nitrogen application (N3) significantly reduced the GY and WUE in S120 and S150 compared with those in the N2 treatment. The NPFP significantly decreased with increasing nitrogen rate under the same irrigation treatments. The synchronous increase in spike number (SN) and 1 000-grain weight (TWG) was the main reason for the large increase in GY by micro-sprinkling with increasing irrigation, and the differences in SN and TGW between S120 and S150 were small. Under S60 and S90, the TGW increased with increasing nitrogen application, which enhanced the GY, while N2 achieved the highest TWG in S120 and S150. At the filling stage, the LAI increased with increasing irrigation, and greater amounts of irrigation significantly increased the chlorophyll content in the flag leaf, which was instrumental in increasing DM after anthesis and increasing the TGW. Micro-sprinkling with increased amounts of irrigation or excessive nitrogen application decreased the WUE mainly due to the increase in total water consumption (ET) and the small increase or decrease in GY. Moreover, the increase in irrigation increased the total nitrogen accumulation or contents (TNC) of plants at maturity and reduced the residual nitrate-nitrogen in the soil (SNC), which was conducive to the increase in NPFP, but there was no significant difference in TNC between S120 and S150. Under the same irrigation treatments, an increase in nitrogen application significantly increased the residual SNC and decreased the NPFP. Overall, micro-sprinkling with 120 mm of irrigation and a total nitrogen application of 195 kg ha(-1) can lead to increases in GY, WUE and NPFP on the NCP.
分类号:
- 相关文献
作者其他论文 更多>>
-
Estimation of Potato Plant Nitrogen Content Based on UAV Hyperspectral Imaging
作者:Fan Yi-guang;Feng Hai-kuan;Liu Yang;Long Hui-ling;Yang Gui-jun;Feng Hai-kuan;Fan Yi-guang;Feng Hai-kuan;Liu Yang;Long Hui-ling;Yang Gui-jun;Liu Yang;Fan Yi-guang;Qian Jian-guo
关键词:UAV; Potato; Hyperspectral; Image features; Plant nitrogen content
-
Estimation of Nitrogen Content in Potato Plants Based on Spectral Spatial Characteristics
作者:Fan Yi-guang;Feng Hai-kuan;Liu Yang;Bian Ming-bo;Zhao Yu;Yang Gui-jun;Feng Hai-kuan;Fan Yi-guang;Feng Hai-kuan;Liu Yang;Bian Ming-bo;Zhao Yu;Yang Gui-jun;Liu Yang;Fan Yi-guang;Qian Jian-guo
关键词:Unmanned aerial vehicle; Potato; Plantnitrogen content; Vegetation indices; High frequency information
-
Effect of silane coating surface treatment on friction and wear properties of carbon fiber/PI composites
作者:Liu Yang;Li Bin;Dong Yuncheng;Wang Shiguo;Liu Yang;He Yichuan;He Yichuan
关键词:mechanical; PI; CF; friction; SEM
-
Estimation of Potato Plant Nitrogen Content Using UAV Multi-Source Sensor Information
作者:Fan Yi-guang;Feng Hai-kuan;Liu Yang;Bian Ming-bo;Zhao Yu;Yang Gui-jun;Feng Hai-kuan;Fan Yi-guang;Feng Hai-kuan;Liu Yang;Bian Ming-bo;Zhao Yu;Yang Gui-jun;Liu Yang;Fan Yi-guang;Qian Jian-guo
关键词:Plant nitrogen content; UAV; Multi-source sensor; Green edge; Plant height; Coverage
-
Estimation of Potato Above Ground Biomass Based on UAV Multispectral Images
作者:Liu Yang;Sun Qian;Feng Hai-kuan;Wang Jiao-jiao;Yang Gui-jun;Liu Yang;Huang Jue;Feng Hai-kuan;Liu Yang;Sun Qian;Feng Hai-kuan;Wang Jiao-jiao;Yang Gui-jun
关键词:Potato; Multispectral; Plant height; Vegetation indices; High frequency information; Above ground biomass
-
Estimation of Potato Above Ground Biomass Based on Hyperspectral Images of UAV
作者:Liu Yang;Feng Hai-kuan;Sun Qian;Wang Jiao-jiao;Yang Gui-jun;Zhang Han;Feng Hai-kuan;Liu Yang;Huang Jue;Liu Yang;Feng Hai-kuan;Sun Qian;Wang Jiao-jiao;Yang Gui-jun
关键词:Potato; UAV; Imaging hyperspectral; Random frog; Gaussian process regression; Above-ground biomass
-
The Risk of Wheat Blast in Rice-Wheat Co-Planting Regions in China: MoO Strains of Pyricularia oryzae Cause Typical Symptom and Host Reaction on Both Wheat Leaves and Spikes
作者:Wang Shizhen;Wang Jiaoyu;Zhang Zhen;Hao Zhongna;Zhu Xueming;Chai Rongyao;Qiu Haiping;Wang Yanli;Lin Fucheng;Sun Guochang
关键词:interaction of wheat and MoO; Pyricularia oryzae; resistance; wheat blast
