Effects of salt stress on soil enzyme activities and rhizosphere microbial structure in salt-tolerant and -sensitive soybean
文献类型: 外文期刊
第一作者: Han, Dongwei
作者: Han, Dongwei;Zhang, Di;Wang, Zhen;Zhu, Zhijia;Sun, Haoyue;Wang, Lianxia;Qu, Zhongcheng;Yuan, Ming;Han, Dezhi;Lu, Wencheng;Ren, Honglei
作者机构:
期刊名称:SCIENTIFIC REPORTS ( 影响因子:4.6; 五年影响因子:4.9 )
ISSN: 2045-2322
年卷期: 2023 年 13 卷 1 期
页码:
收录情况: SCI
摘要: Salt is recognized as one of the most major factors that limits soybean yield in acidic soils. Soil enzyme activity and bacterial community have a critical function in improving the tolerance to soybean. Our aim was to assess the activities of soil enzyme, the structure of bacteria and their potential functions for salt resistance between Salt-tolerant (Salt-T) and -sensitive (Salt-S) soybean genotypes when subject to salt stress. Plant biomass, soil physicochemical properties, soil catalase, urease, sucrase, amylase, and acid phosphatase activities, and rhizosphere microbial characteristics were investigated in Salt-T and Salt-S soybean genotypes under salt stress with a pot experiment. Salt stress significantly decreased the soil enzyme activities and changed the rhizosphere microbial structure in a genotype-dependent manner. In addition, 46 ASVs which were enriched in the Salt-T geotype under the salt stress, such as ASV19 (Alicyclobacillus), ASV132 (Tumebacillus), ASV1760 (Mycobacterium) and ASV1357 (Bacillus), which may enhance the tolerance to soybean under salt stress. Moreover, the network structure of Salt-T soybean was simplified by salt stress, which may result in soil bacterial communities being susceptible to external factors. Salt stress altered the strength of soil enzyme activities and the assembly of microbial structure in Salt-T and Salt-S soybean genotypes. Na+, NO3--N, NH4+-N and Olsen-P were the most important driving factors in the structure of bacterial community in both genotypes. Salt-T genotypes enriched several microorganisms that contributed to enhance salt tolerance in soybeans, such as Alicyclobacillus, Tumebacillus, and Bacillus. Nevertheless, the simplified network structure of salt-T genotype due to salt stress may render its bacterial community structure unstable and susceptible.
分类号:
- 相关文献
作者其他论文 更多>>
-
A dual-response fluorescent probe to reveal the role of ferroptosis in drug-induced liver injury
作者:Liu, Jianfei;Li, Changyi;Sun, Junmin;Ye, Yong;Zhao, Yufen;Zhang, Di;Yang, Xiaopeng
关键词:Fluorescent probe; HNO; Viscosity; Ferroptosis; DILI
-
CpG adjuvant enhances humoral and cellular immunity against OVA in different degrees in BALB/c, C57BL/6J, and C57BL/6N mice
作者:Chu, Yuanyuan;He, Yuheng;Li, Huanrong;Chu, Yuanyuan;Zhai, Wenzhu;Huang, Ying;Tao, Chunhao;Pang, Zhongbao;Wang, Zhen;Jia, Hong;Zhang, Dekun
关键词:Humoral immunity; Cellular immunity; pUC18-CpG; BALB/c mice; C57BL/6J mice; C57BL/6N mice
-
Graph-based mitochondrial genomes of three foundation species in the Saccharum genus
作者:Li, Sicheng;Wang, Zhen;Yang, Xiping;Li, Sicheng;Wang, Zhen;Yang, Xiping;Jing, Yanfen;Duan, Weixing
关键词:Saccharum; Mitochondrial genome; Repeat-mediated recombination; Phylogenetic
-
Measurement of Fitness and Predatory Ability of Four Predatory Mite Species in Tibetan Plateau under Laboratory Conditions
作者:Xiang, Dong;Wang, Zhen;Zhang, Huanhuan;Xu, Long;Wang, Yunchao;Yang, Kun
关键词:fitness; predatory mites; biological control; spider mite; Tibetan Plateau
-
Increasing Planting Density and Optimizing Irrigation to Improve Maize Yield and Water-Use Efficiency in Northeast China
作者:Shen, Dongping;Zhou, Linli;Fang, Liang;Wang, Zhen;Li, Shaokun;Shen, Dongping;Wang, Keru;Zhou, Linli;Fang, Liang;Wang, Zhen;Fu, Jiale;Zhang, Tingting;Liang, Zhongyu;Xie, Ruizhi;Ming, Bo;Hou, Peng;Xue, Jun;Zhang, Guoqiang;Li, Jianmin;Kang, Xiaojun
关键词:spring maize; varieties; planting density; irrigation; yield; water-use efficiency
-
Preventive effect of Cleome spinosa against cucumber Fusarium wilt and improvement on cucumber growth and physiology
作者:Zhang, Xingzhe;Meng, Xianghai;Wang, Baicheng;Yang, Bing;Zhang, Xingzhe;Liu, Dong;Zhang, Yanju;Jiao, Xiaodan;Wang, Zhen;Li, Jiwen;Sa, Rina;Zou, Chunlei
关键词:Cucumber; Fusarium wilt; Cleome spinosa; Disease resistance; ATPase
-
A root cap-localized NAC transcription factor controls root halotropic response to salt stress in Arabidopsis
作者:Zheng, Lulu;Wang, Zhen;Wang, Daoyuan;Jia, Letian;Xie, Yuanming;Xuan, Wei;Zheng, Lulu;Beeckman, Tom;Zheng, Lulu;Beeckman, Tom;Hu, Yongfeng;Yang, Tianzhao;Luo, Long;Han, Yi;Qi, Weicong;Lv, Yuanda
关键词:
