Determining the effects of nitrogen rate on cotton root growth and distribution with soil cores and minirhizotrons
文献类型: 外文期刊
第一作者: Jing Chen;;Liantao Liu;;Zhanbiao Wang
作者: Jing Chen;Liantao Liu;Zhanbiao Wang;Li, Cundong;Hongchun Sun;Yongjiang Zhang;Zhanyuan Lu;Cundong Li
作者机构:
期刊名称:PLOS ONE ( 影响因子:3.24; 五年影响因子:3.788 )
ISSN: 1932-6203
年卷期: 2018 年 13 卷 5 期
页码:
收录情况: SCI
摘要: Cotton root growth can be affected by different nitrogen fertilizer rates. The objective of the present study was to quantify the effects of nitrogen fertilization rate on cotton root growth and distribution using minirhizotron and soil coring methods. A secondary objective was to evaluate the minirhizotron method as a tool for determining nitrogen application rates using the root distribution as an index. This study was conducted on a Bt cotton cultivar (Jimian 958) under four nitrogen fertilization rates, i.e., 0, 120, 240 and 480 kg ha(-1) (control, low, moderate and high levels, respectively), in the Yellow River basin of China from 2013-2015. The sampling process, details of each method as well as the root morphology and root distribution were measured. The operational processes, time and labor needed for the soil core method were all greater than those for the minirhizotron method. The total root length density and the length density in most soil layers, especially in the upper soil layers, first increased but then decreased as nitrogen fertilization increased, and the same trend was observed for both methods. Compared with N0, the total root length density under moderate nitrogen fertilization by the soil coring method increased by more than 94.82%, in 2014 and 61.11% in 2015; while by the minirhizotron method the corresponding values were 28.24% in 2014 and 57.47%, in 2015. Most roots were distributed in the shallow soil layers (0-60 cm) in each method. However, the root distribution with the soil coring method (>73.11%) was greater than that with the minirhizotron method (>47.07%). The correlations between the root morphology indexes of shallow soil depth measured using the two methods were generally significant, with correlative coefficients greater than 0.334. We concluded that the minirhizotron method could be used for cotton root analysis and most cotton roots distributed in upper soil layers (0-60 cm). In addition, a moderate nitrogen rate (240 kg ha(-1)) could increase root growth, especially in the shallow soil layers. The differences observed with the minirhizotron method were clearer than those observed with the soil coring method.
分类号:
- 相关文献
作者其他论文 更多>>
-
Evaluation of drought-tolerant varieties based on root system architecture in cotton (Gossypium hirsutum L.)
作者:Guo, Congcong;Zhu, Lingxiao;Sun, Hongchun;Zhang, Yongjiang;Zhang, Ke;Bai, Zhiying;Li, Anchang;Liu, Liantao;Li, Cundong;Han, Qiucheng;Wang, Shijie;Zhu, Jijie
关键词:Drought; Cotton; Principal component analysis; Root traits; Drought tolerance index
-
Optimizing root system architecture to improve cotton drought tolerance and minimize yield loss during mild drought stress
作者:Guo, Congcong;Bao, Xiaoyuan;Sun, Hongchun;Zhu, Lingxiao;Zhang, Yongjiang;Zhang, Ke;Bai, Zhiying;Liu, Xiaoqing;Li, Anchang;Dong, Hezhong;Liu, Liantao;Li, Cundong;Dong, Hezhong;Zhan, Lijie;Zhu, Jijie
关键词:Root system architecture; Drought stress; Cotton; Drought tolerance; Yield
-
Managing interspecific competition to enhance productivity through selection of soybean varieties and sowing dates in a cotton-soybean intercropping system
作者:Lv, Qingqing;Ding, Kedong;He, Ning;Li, Cundong;Chi, Baojie;Zhang, Yongjiang;Dong, Hezhong;Lv, Qingqing;Dai, Jianlong;Ding, Kedong;Li, Zhenhuai;Zhang, Dongmei;Xu, Shizhen;Dong, Hezhong;Chi, Baojie;Dong, Hezhong
关键词:Interspecific competition; Niche differentiation; Canopy photosynthesis; Root morphology; Land equivalent ratio
-
The crucial role of lateral root angle in enhancing drought resilience in cotton
作者:Guo, Congcong;Bao, Xiaoyuan;Sun, Hongchun;Zhu, Lingxiao;Zhang, Yongjiang;Zhang, Ke;Bai, Zhiying;Li, Anchang;Liu, Liantao;Li, Cundong;Chen, Jing;Zhang, Jianhong;Zhang, Haina
关键词:drought; lateral root angle; stomata; canopy temperature; cotton
-
Relay intercropping cover crop combined with reduced nitrogen application improves subsequent cotton agronomic traits while maintaining yield and quality
作者:Guo, Xiaoyan;Wang, Guoping;Li, Cundong;Zhang, Yongjiang;Wang, Zhanbiao;Guo, Xiaoyan;Zhang, Zhenggui;Sun, Guilan;Xiong, Shiwu;Han, Yingchun;Wang, Guoping;Li, Yabing;Wang, Zhanbiao;Li, Yabing;Wang, Zhanbiao;Wang, Zhanbiao;Zhang, Yongjiang;Wang, Zhanbiao;Li, Yabing
关键词:
-
Response of in situ root phenotypes to potassium stress in cotton
作者:Tian, Heyang;Sun, Hongchun;Zhu, Lingxiao;Zhang, Ke;Zhang, Yongjiang;Liu, Xiaoqing;Bai, Zhiying;Li, Anchang;Liu, Liantao;Li, Cundong;Zhu, Jijie;Zhu, Jijie;Tian, Liwen
关键词:Potassium stress; Root architecture; Cotton; Root phenotype
-
Morphological and Physiological Mechanisms of Melatonin on Delaying Drought-Induced Leaf Senescence in Cotton
作者:Yang, Kai;Sun, Hongchun;Liu, Mengxing;Zhu, Lingxiao;Zhang, Ke;Zhang, Yongjiang;Li, Anchang;Liu, Xiaoqing;Bai, Zhiying;Liu, Liantao;Li, Cundong;Zhang, Haina;Zhu, Jijie
关键词:melatonin; leaf senescence; cotton; drought; photosynthesis; antioxidant; gene expression
