Accuracy of root modelling and its impact on simulated wheat yield and carbon cycling in soil
文献类型: 外文期刊
作者: Zhao, Zhigan 1 ; Wang, Enli 2 ; Xue, Lihua 1 ; Wu, Yongcheng 1 ; Zang, Hecang 1 ; Qin, Xin 1 ; Zhang, Jingting 1 ; Wang, 1 ;
作者机构: 1.China Agr Univ, Dept Agron & Biotechnol, Beijing 100193, Peoples R China
2.CSIRO Land & Water, CSIRO Sustainable Agr Flagship, Canberra, ACT 2601, Australia
3.Xinjiang Acad Agr Sci, Grain Crops Res Inst, Urumqi 830091, Peoples R China
4.Henan Acad Agri cultural Sci, Agr Econ & Informat Res Ctr, Zhengzhou 450002, Peoples R China
5.Hebei Acad Agr & Forestry Sci, Shijiazhuang 050031, Peoples R China
关键词: Root biomass;Rooting depth;Winter wheat;North China Plain;APSIM
期刊名称:FIELD CROPS RESEARCH ( 影响因子:5.224; 五年影响因子:6.19 )
ISSN:
年卷期:
页码:
收录情况: SCI
摘要: Accurate modelling of root biomass and root distribution of crop plants has become increasingly important in order to address issues related to carbon sequestration in soil and resource use efficiency of crops under different environmental and management conditions. However, the performance of crop models for simulating crop root system has been rarely tested in many environments due to lack of detailed data on roots. In this paper, we present detailed measurement data on root biomass and distribution in 0-200 cm soil profile at key developmental stages of wheat crop at Wuqiao in the North China Plain, and compare them with the root dynamics simulated by the agricultural systems model APSIM. The objectives are to test the model performance for simulating root biomass and distribution, and to investigate the potential impact of errors in root modelling on simulated wheat yield and soil carbon change. Compared to the measurements at the study site, APSIM version 7.5 underestimated the rooting front advance and final rooting depth of winter wheat, but overestimated the root biomass and root-shoot ratio at maturity by 100-200%. Modifications to root growth parameters in the model led to improved simulations of root depth and biomass dynamics. The modifications had little impact on simulated shoot biomass and grain yield under conditions of sufficient nitrogen supply, but led to higher simulated grain yield when nitrogen was deficient. They also resulted in reduction in simulated soil organic carbon in the top (0-20 cm) soil layer by 0.02%. A meta-analysis combining wheat root and shoot data from literature indicated that the APSIM model simulated a much tighter root-shoot relationship than that observed in the data, and that both versions of the model simulated the root-shoot relationships within the measured range. The relationship simulated from the original model better matched the data points from dry climate and dryland conditions. While the modified model based on Wuqiao data simulated a relationship better matching the data points from wet climate and irrigated conditions.
- 相关文献
作者其他论文 更多>>
-
Automatic grading evaluation of winter wheat lodging based on deep learning
作者:Zang, Hecang;Su, Xinqi;Li, Guoqiang;Zhang, Jie;Zheng, Guoqing;Zang, Hecang;Li, Guoqiang;Zhang, Jie;Zheng, Guoqing;Su, Xinqi;Shen, Hualei;Wang, Yanjing;Hu, Weiguo
关键词:UAV image; winter wheat; deep learning; lodging degree; lodging area
-
Assessing Changes in Climatic Suitability for Sesame Cultivation in China (1978-2019) Based on Fuzzy Mathematics
作者:Wang, Xue;Huang, Ming;Li, Youjun;Wang, Xue;Zhang, Jiantao;Zhang, Jie;Zang, Hecang;Hu, Feng;Li, Guoqiang;Zhang, Jiantao;Zhang, Jie;Zang, Hecang;Hu, Feng;Li, Guoqiang;Gao, Tongmei
关键词:sesame (Sesamum indicum L.); climate indicators; climatic suitability; climate change
-
SE-SWIN UNET FOR IMAGE SEGMENTATION OF MAJOR MAIZE FOLIAR DISEASES
作者:Yang, Yujie;Wang, Congsheng;Yang, Yujie;Wang, Congsheng;Zhao, Qing;Li, Guoqiang;Zang, Hecang;Zhao, Qing;Li, Guoqiang;Zang, Hecang
关键词:maize leaf diseases; image segmentation; Swin-Unet; Swin transformer; SENet
-
The Yield and Quality Formation of Wheat Induced by Exogenous Strigolactones in Drought Condition
作者:Wang, Yanjing;Wang, Yanjing;Zang, Hecang;Fang, Baoting;Yue, Junqin;Du, Simeng;Jin, Haiyang;Yang, Cheng;Zhang, Deqi;Wang, Hanfang;Shao, Yunhui;Li, XiangDong
关键词:Wheat; Drought; Strigolactones; Yield and Quality
-
Alternative Furrow Irrigation Combined with Topdressing Nitrogen at Jointing Help Yield Formation and Water Use of Winter Wheat under No-Till Ridge Furrow Planting System in Semi-Humid Drought-Prone Areas of China
作者:Wu, Jinzhi;Guan, Haoyue;Li, Youjun;Fu, Guozhan;Huang, Ming;Wang, Zhimin;Li, Guoqiang;Li, Guoqiang
关键词:semi-humid drought-prone areas; winter wheat; alternative furrow irrigation; topdressing N; grain yield; WUE
-
Segmentation of wheat farmland with improved U-Net on drone images
作者:Liu, Guoqi;Bai, Lu;Zhao, Manqi;Liu, Guoqi;Zang, Hecang;Zheng, Guoqing
关键词:farmland segmentation; drone images; global attention; interaction mechanism
-
Detection method of wheat spike improved YOLOv5s based on the attention mechanism
作者:Zang, Hecang;Zhou, Meng;Chen, Dandan;Zhao, Qing;Zhang, Jie;Li, Guoqiang;Zheng, Guoqing;Zang, Hecang;Zhou, Meng;Chen, Dandan;Zhao, Qing;Zhang, Jie;Li, Guoqiang;Zheng, Guoqing;Wang, Yanjing;Ru, Linyuan
关键词:wheat; spike number detection; attention mechanism; deep learning; YOLOv5s
