Selenium-Mediated Shaping of Citrus Rhizobiome for Promotion in Root Growth and Soil Phosphorus Activation
文献类型: 外文期刊
第一作者: Tang, Yanni
作者: Tang, Yanni;Zhou, Yingjie;Wang, Pengwei;Hu, Chengxiao;Zhao, Xiaohu;Ge, Liqiang;Lou, Wei;Yan, Xiang;Li, Shiqian;Wang, Xu;Zhao, Xiaohu
作者机构:
关键词: soil phosphorus; root growth; root exudates; rhizosphere microbiome; selenium; citrus
期刊名称:JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY ( 影响因子:5.7; 五年影响因子:6.0 )
ISSN: 0021-8561
年卷期: 2024 年 72 卷 30 期
页码:
收录情况: SCI
摘要: Selenium (Se) has been widely reported to affect plant growth, nutrient cycling, and the rhizobiome. However, how Se shapes the rhizobiome and interacts with plants remains largely elusive. Pot and hydroponic experiments were employed to elucidate the regulatory mechanism of Se in the citrus rhizobiome. Compared to the control, soil Se application significantly increased the root biomass (34.7%) and markedly reduced rhizosphere HCl-P, H2O-P, NaHCO3-IP, and residual-P of citrus, which were related to the variation of citrus rhizobiome. Se primarily enriched Proteobacteria and Actinobacteria as well as the phosphorus (P) functional genes phod and pqqc. Further study revealed that Se altered the metabolite profile of root exudate, particularly enhancing the abundance of L-cyclopentylglycine, cycloleucine, L-proline, L-pipecolic acid, and inositol, which played a key role in reshaping the citrus rhizobiome. These metabolites could serve as both nutrient sources and signaling molecules, thus supporting the growth or chemotaxis of the functional microbes. These bacterial taxa have the potential to solubilize P or stimulate plant growth. These findings provide a novel mechanistic understanding of the intriguing interactions between Se, root exudate, and rhizosphere microbiomes, and demonstrate the potential for utilizing Se to regulate rhizobiome function and enhance soil P utilization in citrus cultivation.
分类号:
- 相关文献
作者其他论文 更多>>
-
A synthetic antibiotic class with a deeply-optimized design for overcoming bacterial resistance
作者:Feng, Jin;Peng, Dapeng;Wang, Xu;Feng, Jin;Weng, Defeng;Wang, Xu;Zheng, Youle;Ma, Wanqing;Weng, Defeng;Peng, Dapeng;Wang, Xu;Xu, Yindi;Wang, Zhifang
关键词:
-
Nitrogen addition alters aboveground C:N:P stoichiometry of plants but not for belowground in an Inner Mongolia grassland
作者:Wang, Ziqi;An, Yixin;Li, Ying;Yu, Qiang;Wang, Jie;Wang, Xu;Wu, Honghui;Yang, Tian;Zhang, Yunlong;Bian, Jianlin;Ren, Haiyan;Lkhagva, Ariuntsetseg
关键词:nitrogen deposition; C:N:P stoichiometry; grassland ecosystem; community level; belowground
-
Phased gap-free genome assembly of octoploid cultivated strawberry illustrates the genetic and epigenetic divergence among subgenomes
作者:Song, Yanhong;Liu, Lifeng;Li, Gang;Zhao, Xia;Zhou, Houcheng;Peng, Yanling;Wang, Xu;Cao, Shuo;Zhou, Yongfeng;Muyle, Aline;Zhou, Yongfeng
关键词:
-
pOsHAK1:OsSUT1 Promotes Sugar Transport and Enhances Drought Tolerance in Rice
作者:Chen, Guang;Lian, Wenli;Geng, Anjing;Wang, Yihan;Liu, Minghao;Zhang, Yue;Wang, Xu;Chen, Guang;Lian, Wenli;Geng, Anjing;Wang, Yihan;Liu, Minghao;Zhang, Yue;Wang, Xu;Chen, Guang;Lian, Wenli;Geng, Anjing;Wang, Yihan;Liu, Minghao;Zhang, Yue;Wang, Xu
关键词:rice; drought tolerance; sugar transport; inducible promoter
-
AflaILVB/G/I and AflaILVD are involved in mycelial production, aflatoxin biosynthesis, and fungal virulence in Aspergillus flavus
作者:Zhao, Yarong;Huang, Chulan;Zeng, Rui;Chen, Peirong;Xu, Kaihang;Huang, Xiaomei;Wang, Xu;Zhao, Yarong;Huang, Chulan;Zeng, Rui;Chen, Peirong;Xu, Kaihang;Huang, Xiaomei;Wang, Xu;Zhao, Yarong;Huang, Chulan;Zeng, Rui;Chen, Peirong;Xu, Kaihang;Huang, Xiaomei;Wang, Xu
关键词:Aspergillus flavus; aflatoxin biosynthesis; branched-chain amino acids; AflaILVB/G/I; AflaILVD; fungal secondary metabolites
-
Spatiotemporal patterns and driving factors of gross primary productivity over the Mongolian Plateau steppe in the past 20 years
作者:Ding, Lei;Shi, Zhou;Chang, Jinfeng;Li, Zhenwang;Li, Zhenwang;Ding, Lei;Wang, Xu;Shen, Beibei;Shao, Changliang;Xiao, Liujun;Dong, Gang;Yu, Lu;Yu, Lu;Nandintsetseg, Banzragch;Nandintsetseg, Banzragch
关键词:Gross primary productivity; Mongolian Plateau; Grassland; Climatic factors; Human activity
-
Research on Salt Drainage Efficiency and Anti-Siltation Effect of Subsurface Drainage Pipes with Different Filter Materials
作者:Wang, Xu;Shen, Jingli;Fan, Liqin;Zhang, Yonghong;Wang, Xu;Shen, Jingli;Fan, Liqin;Zhang, Yonghong
关键词:subsurface pipe drainage; salinity; filter material; drainage rate; salt discharge rate; leaching desalination rate
