Root growth and spatial distribution characteristics for seedlings raised in substrate and transplanted cotton
文献类型: 外文期刊
第一作者: Xiaoyu Zhi
作者: Xiaoyu Zhi;Han, Yingchun;Li, Yabing;Yingchun Han;Yabing Li;Guoping Wang;Lu Feng;Beifang Yang;Zhengyi Fan;Yaping Lei;Wenli Du;Shuchun Mao
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: 2017 年 12 卷 12 期
页码:
收录情况: SCI
摘要: In this study, transplanting cotton seedlings grown in artificial substrate is considered due to recent increased interest in cotton planting labor saving approaches. The nursery methods used for growing cotton seedlings affect root growth. However, the underlying functional responses of root growth to variations in cotton seedling transplanting methods are poorly understood. We assessed the responses of cotton (Gossypium hirsutum L.) roots to different planting methods by conducting cotton field experiments in 2012 and 2013. A one-factor random block design was used with three replications and three different cotton planting patterns (substrate seedling transplanted cotton (SSTC), soil-cube seedling transplanted cotton (ScSTC) and directly sown cotton (DSC). The distributions and variances of the root area density (RAD) and root length density (RLD) at different cotton growing stages and several yield components were determined. Overall, the following results were observed: 1) The RAD and RLD were greatest near the plants (a horizontal distance of 0 cm) but were lower at W20 and W40 cm in the absence of film mulching than at E20 and E40 cm with film mulching. 2) The roots were confined to shallow depths (20 +/- 40 cm), and the root depths of SSTC and DSC were greater than the root depths of ScSTC. 3) Strong root growth was observed in the SSTC at the cotton flowering and boll setting stages. In addition, early onset root growth occurred in the ScSTC, and vigorous root growth occurred throughout all cotton growth stages in DSC. 4) The SSTC plants had more lateral roots with higher root biomass (RB) than the ScSTC, which resulted in higher cotton yields. However, the early onset root growth in the ScSTC resulted in greater pre-frost seed cotton (PFSC) yields. These results can be used to infer how cotton roots are distributed in soils and capture nutrients.
分类号:
- 相关文献
作者其他论文 更多>>
-
Soil water movement may regulate soil water consumption and improve cotton yields under different cotton cropping systems
作者:Wu, Fengqi;Guo, Simeng;Huang, Weibin;Wang, Zhanbiao;Feng, Lu;Li, Yabing;Han, Yingchun;Wang, Zhanbiao;Feng, Lu;Wang, Guoping;Li, Xiaofei;Lei, Yaping;Zhi, Xiaoyu;Xiong, Shiwu;Jiao, Yahui;Xin, Minghua;Yang, Beifang;Li, Yabing;Wu, Fengqi;Wu, Fengqi;Guo, Simeng;Li, Yabing;Huang, Weibin;Wang, Zhanbiao
关键词:Cotton; Yield; Soil water movement; Soil water consumption; Planting system
-
Quantifying physiological contributions to yield loss in response to planting date in short-season cotton under a cotton-wheat double-cropping system
作者:Guo, Simeng;Wu, Fengqi;Jia, Yaoyu;Li, Yabing;Feng, Lu;Han, Yingchun;Wang, Guoping;Chen, Jiale;Li, Xiaofei;Du, Wenli;Li, Yabing;Feng, Lu
关键词:Planting date; Physiological contributions; Yield loss; Short-season cotton
-
Increased overyielding probability and yield stability from a 5-year cotton-based intercropping
作者:Tang, Yurui;Qiu, Yurong;Li, Xin;Qin, Haoyue;Wang, Jian;Han, Yingchun;Feng, Lu;Wang, Guoping;Yang, Beifang;Lei, Yaping;Xiong, Shiwu;Zhi, Xiaoyu;Du, Wenli;Xin, Minghua;Li, Yabing;Li, Xiao-Fei;Zhang, Shijie;Feng, Lu;Li, Yabing;Qin, Haoyue;Li, Yabing;Li, Xiao-Fei;Qiu, Yurong
关键词:Complementarity; Diversity effects; Yield gain; Yield asynchrony; Yield loss
-
Research on intercropping from 1995 to 2021: a worldwide bibliographic review
作者:Tang, Yurui;Qiu, Yurong;Li, Yabing;Li, Xiao-Fei;Qiu, Yurong;Li, Yabing;Li, Xiao-Fei;Xu, Huasen
关键词:Bibliometrics; Species mixture; Global evolution; Research hotspots; Future prospects
-
Enhanced Cotton Yield and Fiber Quality by Optimizing Irrigation Amount and Frequency in Arid Areas of Northwest China
作者:Jia, Yaoyu;Su, Tianle;Li, Yabing;Feng, Lu;Jia, Yaoyu;Yang, Beifang;Han, Yingchun;Wang, Guoping;Su, Tianle;Li, Xiaofei;Lei, Yaping;Zhi, Xiaoyu;Xiong, Shiwu;Xin, Minghua;Li, Yabing;Feng, Lu
关键词:irrigation amount; irrigation frequency; boll distribution; within-boll yield components; fiber quality
-
Rational optimization of irrigation regimes for drip-irrigated cotton fields without mulch can alleviate the problem of residual film contamination in arid zones
作者:Li, Zhipeng;Ma, Yunzhen;Han, Yingchun;Lei, Yaping;Xiong, Shiwu;Feng, Lu;Wang, Guoping;Li, Xiaofei;Wang, Zhanbiao;Zhi, Xiaoyu;Jiao, Yahui;Xin, Minghua;Li, Yabing;Yang, Beifang;Li, Zhipeng;Zhang, Fenghua;Feng, Lu;Wang, Zhanbiao;Li, Yabing;Wan, Sumei;Chen, Guodong;Mao, Tingyong
关键词:Drip irrigation without mulching; Soil water distribution and consumption; Irrigation regime; Biomass; Yield
-
Changes in within-boll yield components explain cotton yield and quality variation across planting dates under a double cropping system of cotton-wheat
作者:Guo, Simeng;Wu, Fengqi;Li, Yabing;Feng, Lu;Liu, Taijie;Han, Yingchun;Wang, Guoping;Du, Wenli;Li, Yabing;Feng, Lu
关键词:Planting date; Short-season cotton; Within-boll yield components; Yield; Fiber quality
