文献类型: 外文期刊
第一作者: Zhang, Lingling
作者: Zhang, Lingling;Cao, Hongxin;Feng, Hao
作者机构:
关键词: Winter wheat; APSIM; Yield gaps; Climatic zones
期刊名称:INTERNATIONAL JOURNAL OF PLANT PRODUCTION ( 影响因子:2.609; 五年影响因子:2.168 )
ISSN: 1735-6814
年卷期: 2022 年 16 卷 1 期
页码:
收录情况: SCI
摘要: The Loess Plateau is among the major winter wheat (Triticum aestivum L.) production areas of China. However, wheat production is uncertain across the Loess Plateau, and its potential for yield improvement remains unknown. In the present study, we divided winter wheat growing areas on the Loess Plateau into four climatic zones: arid (zone I), semi-arid (zone II), semi-humid (zone III), and humid (zone IV). Then, we used the validated Agricultural Production Systems Simulator (APSIM) to model Y-p (potential yield) and attainable yield (water-limited yield, Y-w; nitrogen-limited yield, Y-n) of winter wheat on the Loess Plateau from 1961 to 2016. The simulated means for weighted Y-p, Y-w, and Y-n were 8.87, 6.49, and 5.42 t ha(-1), respectively. Y-a reached only 57% of Y-p, which represents the amount of room available for yield improvement. Across the Loess Plateau, the yield gap caused by water limited (YGw) and nitrogen restricted (YGn) were 27% and 39% of potential wheat production. The difference between YGw (3.54 t ha(-1)) and YGn (3.87 t ha(-1)) was not significant in the semi-arid climate (zone II), due to low precipitation rates. Compared with irrigation, nitrogen deficiency was the key factor causing the winter wheat yield gap. However, the yield gap caused by nitrogen restriction varies regionally. Irrigation in arid (zone I) was more important than in the other climates, whereas these climate regions required nitrogen more pressing. Areas with a large potential for increased winter wheat yield on the Loess Plateau were mainly distributed in the semi-arid climate (zone II).
分类号:
- 相关文献
作者其他论文 更多>>
-
Enhancing practicality of deep learning for crop disease identification under field conditions: insights from model evaluation and crop-specific approaches
作者:Zhao, Gang;Feng, Hao;Yu, Qiang;Tian, Qi;Yao, Linjia;Zhao, Gang;Yan, Changqing;Qu, Junjie;Yin, Ling;Feng, Hao;Yao, Ning
关键词:crop diseases; agricultural application; deep learning; disease identification
-
Innate Immune Evasion of PRRSV nsp11 through Degradation of the HDAC2 by Its Endoribonuclease Activity
作者:Zhang, He;Chen, Jianxing;Pan, Yu;Ma, Wenjie;Feng, Hao;Chen, Hongyan;Wang, Yue;Xia, Changyou;Yu, Changqing;Xie, Jinxin
关键词:PRRSV; HDAC2; nsp11; antagonize; endoribonuclease
-
Improving pulmonary infection diagnosis with metagenomic next- generation sequencing of bronchoalveolar lavage fluid
作者:Long, Ying;Feng, Hao;Long, Ying;Xia, Xianzhu;Zhao, Pingsen;Long, Ying;Xia, Xianzhu;Zhao, Pingsen;Long, Ying;Zhao, Pingsen;Long, Ying;Zhao, Pingsen;Long, Ying;Zhao, Pingsen;Xia, Xianzhu
关键词:BALF; diagnostic and therapeutic applications; etiologic diagnosis; mNGS; pulmonary infection
-
Optimizing biochar application rates for improved soil chemical environments in cotton and sugarbeet fields under trickle irrigation with plastic mulch
作者:Qi, Xingyun;Li, Yi;Shi, Penghui;Wang, Shibin;Wang, Xiaofang;Liang, Jiaping;Wu, Shufang;Yang, Guang;Hou, Zhenan;Sun, Benhua;Tian, Xiaohong;Siddique, Kadambot H. M.;Siddique, Kadambot H. M.;Feng, Hao;Yu, Qiang;Xie, Xiangwen
关键词:Saline-alkali land; Soil chemical environment; Biochar; Cotton; Sugarbeet
-
Antifungal activity and mechanism of chitosan against Fusarium solani caused ginger soft rot during postharvest storage
作者:Zhang, Lingling;Yang, Ying;Zhu, Yongxing;Hu, Haijun;Jia, Qie;Sun, Chong;Liu, Yiqing;Sun, Chong;Liu, Yiqing;Zhu, Xuedong
关键词:Chitosan; Antifungal; Fusarium solani; Ginger; Postharvest
-
Pretrained Deep Learning Networks and Multispectral Imagery Enhance Maize LCC, FVC, and Maturity Estimation
作者:Hu, Jingyu;Feng, Hao;Shen, Jianing;Wang, Jian;Guo, Wei;Qiao, Hongbo;Yue, Jibo;Wang, Qilei;Liu, Yang;Liu, Yang;Feng, Haikuan;Yang, Hao;Niu, Qinglin;Niu, Qinglin
关键词:unmanned aerial vehicle; crop leaf chlorophyll content; fractional vegetation cover; maturity; deep learning; ensemble learning; maize
-
Dehydrin CaDHN2 Enhances Drought Tolerance by Affecting Ascorbic Acid Synthesis under Drought in Peppers
作者:Li, Xin;Liu, Sha;Cui, Junjun;Liu, Jiannan;Wang, Lihu;Feng, Hao;Shi, Mingyu;Zhao, Jielong
关键词:CaDHN2; drought tolerance; ascorbic acid; pepper
