Raised Bed Planting Pattern Improves Root Growth and Nitrogen use Efficiency of Post-Rice Wheat
文献类型: 外文期刊
作者: Du, Xiangbei 1 ; Jin, Wenjun 1 ; Chen, Xiaofei 1 ; Kong, Lingcong 1 ; Wu, Wenge 2 ; Xi, Min 2 ;
作者机构: 1.Anhui Acad Agr Sci, Crop Res Inst, Hefei 230031, Anhui, Peoples R China
2.Anhui Acad Agr Sci, Rice Res Inst, Hefei 230031, Anhui, Peoples R China
关键词: Post-rice Wheat; Raised Bed Planting; Soil Physical Properties; Root Morphology; Nitrogen Use Efficiency
期刊名称:JOURNAL OF SOIL SCIENCE AND PLANT NUTRITION ( 影响因子:3.9; 五年影响因子:3.9 )
ISSN: 0718-9508
年卷期: 2024 年
页码:
收录情况: SCI
摘要: PurposeConventional puddling (rice season) and flat planting (wheat season) deteriorate soil properties and induce high mechanical impedance of roots, while increasing nitrogen (N) loss, affecting the normal development of plants and decreasing the yield of post-rice wheat on the Yangtze River Plain, China. Raised bed planting (RBP) may effectively increase wheat productivity. However, how RBP regulates soil properties, root growth and N use efficiency (NUE) is poorly understood.MethodsWe conducted a two-year (2021/22-2022/23) field experiment to evaluate the effects of flat planting (FP) and RBP with or without fertilization on the soil physical properties and nutrient status, root traits and NUE of post-rice wheat.ResultsCompared with the FP pattern, the results demonstrated that the RBP pattern generally decreased the soil penetration resistance and soil bulk density at depths of 0-20 cm. Decreased soil penetration resistance and soil bulk density promoted superior root growth, resulting in a significantly greater root mass density, root surface area, root length, specific root surface area, specific root length, root and shoot biomass, and root to shoot ratio. Moreover, the RBP effectively improved the nitrate N (NO3--N) concentration in the 0-20 cm soil layer, reduced NO3--N leaching and infiltration, and enhanced the soil nutrient status. The improved root absorption capacity and increased soil N source contributed to increased N accumulation and NUE under the RBP pattern.ConclusionsOur results suggest that the key factors that limits post-rice wheat cultivation are soil compaction and waterlogging. This findings suggest that the RBP pattern may be the optimal agricultural practice for sustainable post-rice wheat production in the Yangtze River region, China.
- 相关文献
作者其他论文 更多>>
-
High sugarcane yield and large reduction in reactive nitrogen loss can be achieved by lowering nitrogen input
作者:Yang, Linsheng;Xi, Min;Wu, Wenge;Yang, Linsheng;Zhou, Yifang;Meng, Bo;Zhan, Jian;Deng, Yan;Lakshmanan, Prakash;Chen, Xinping;Lakshmanan, Prakash;Lakshmanan, Prakash;Zhang, Fusuo
关键词:N leaching; Ammonia loss; N2O emissions; N balance; Sugarcane
-
Energy use and carbon footprint in response to the transition from indica rice to japonica rice cropping systems in China
作者:Xi, Min;Xu, Youzun;Zhou, Yongjin;Tu, Debao;Li, Zhong;Sun, Xueyuan;Wu, Chenyang;Wu, Wenge
关键词:Rice cropping system; Energy use efficiency; Carbon footprint; Economic benefits
-
BIOMASS COMPOSTING COMBINED WITH A BIOLOGICAL NITRIFICATION INHIBITOR INFLUENCES GREENHOUSE GAS EMISSION AND MICROBIAL COMMUNITY IN RICE PADDY
作者:Mayassi, Clevie thertully balongana;Qiao, Cece;Wang, Yachun;Huang, Xingghen;Min, Hongzhi;Zou, Yuning;Ren, Lantian;Wu, Wenge;Hao, Bing;Wu, Wenge
关键词:Biomass composting; Greenhouse Gas Emission; Microbial community; Rice paddy
-
Carbon footprint research and mitigation strategies for rice-cropping systems in China: a review
作者:Ji, Yalan;Wu, Wenge;Zou, Huawen;Ji, Yalan;Zhou, Yongjin;Li, Zhong;Feng, Kaixuan;Sun, Xueyuan;Xu, Youzun;Wu, Wenge
关键词:rice-cropping system; carbon footprint; greenhouse gas emissions; emission reduction; China
-
Dual purpose ratooned rice improves agri-food production with reduced environmental cost
作者:Qi, Deqiang;Fu, Mingfang;Shi, Xiaofei;Zhang, Jing;Zhao, Quanzhi;Peng, Ting;Liu, Ke;Harrison, Matthew Tom;Liu, Xiangchen;de Voil, Peter;Zhang, Yunbo;Radanielson, Ando;Wu, Wenge;Chen, Jingrui;Jiang, Yu;Zhao, Quanzhi
关键词:Ratoon rice; Crop productivity; Energy use efficiency; Greenhouse gas emissions; Sustainability
-
Drought stress reduces the photosynthetic source of subtending leaves and the transit sink function of podshells, leading to reduced seed weight in soybean plants
作者:Du, Xiangbei;Chen, Xiaofei;Jin, Wenjun;Huang, Zhiping;Kong, Lingcong;Zhang, Xinyue
关键词:subtending leaf; podshell; seed; photoassimilate; soybean
-
Raised bed planting promotes grain number per spike in wheat grown after rice by improving spike differentiation and enhancing photosynthetic capacity
作者:Du, Xiang-bei;Wei, Zhi;Chen, Xiao-fei;Kong, Ling-cong;Xi, Min;Wu, Wen-ge
关键词:grain number; floret development; photosynthetic capacity; wheat grown after rice
