Poly-gamma-glutamic acid improves the drought resistance of maize seedlings by adjusting the soil moisture and microbial community structure
文献类型: 外文期刊
作者: Yin, Aiming 1 ; Jia, Yanping 2 ; Qiu, Tianlei 1 ; Gao, Min 1 ; Cheng, Shoutao 1 ; Wang, Xuming 1 ; Sun, Yanmei 1 ;
作者机构: 1.Beijing Acad Agr & Forestry Sci, Beijing Agrobiotechnol Res Ctr, Beijing 100097, Peoples R China
2.Northeast Elect Power Univ, Sch Chem Engn, Jilin 132012, Jilin, Peoples R China
关键词: Poly-gamma-glutamic acid; Maize seedling; Drought resistance; Soil microbial community
期刊名称:APPLIED SOIL ECOLOGY ( 影响因子:4.046; 五年影响因子:4.884 )
ISSN: 0929-1393
年卷期: 2018 年 129 卷
页码:
收录情况: SCI
摘要: Drought is an important factor affecting crop yield, and consequently, much research attention is being paid to enhancing the drought tolerance of plants for improving crop production. A new type of biological super-absorbent polymer, poly-gamma-glutamic acid (gamma-PGA), has important water-saving applications in agriculture. In this study, two Bacillus subtilis strains, P1 and Y2, were used to produce gamma-PGA, and the effects of gamma-PGA fermentation broth on maize seedling growth, soil physico-chemical properties, and microbial community structure were analyzed. The results showed that gamma-PGA fermentation broth significantly increased maize seedling biomass, soil water content, and bacterial and fungal biomass. Bacteria such as Lysobacter, Spingomonas and Haliangium of Proteobacteria; Actinomadura and Lamia of Actinobacteria; and unidentified Acidobacteria of Acidobacteria as well as fungi such as Talaromyces and Fusarium of Ascomycota and Rhizopus of Zygomycota were dominant in the rhizosphere soil of maize. Compared to the watering treatment, the gamma-PGA fermentation broth treatment remarkably increased the relative abundance of plant growth-promoting bacteria such as Bacillus, Pseudomonas, and Burkholderia. In summary, the gamma-PGA fermentation broth produced by B. subtilis P1 and Y2 could improve the drought resistance of maize seedlings by adjusting the soil moisture and microbial community structure.
- 相关文献
作者其他论文 更多>>
-
Risk assessment of Bacillus cereus in lettuce grown in open-field and greenhouse farming systems in China: A comparative study
作者:Qu, Yang;Zhou, Changyan;Suo, Yujuan;Yu, Shenghao;Gu, Haotian;Wang, Wen;Wang, Wenbo;He, Zhaoying;Shan, Hong;Gao, Min;Zhao, Xin;Wei, Chao;Tao, Tingting;Zhao, Guanghua
关键词:Diarrheal syndrome food poisoning; ready-to-eat vegetable; greenhouse; microbial risk assessment
-
Livestock wastes from family-operated farms are potential important sources of potentially toxic elements, antibiotics, and estrogens in rural areas in North China
作者:Li, Yang;Li, Xinyu;Ma, Xupu;Ma, Zhihong;Ping, Hua;Li, Cheng;Qiu, Tianlei;Fu, Xincheng;Li, Cheng
关键词:Family-operated farms; Potentially toxic elements (PTEs); Antibiotics; Estrogens; Seasonal variation; Risk assessment
-
Particle-size stratification of airborne antibiotic resistant genes, mobile genetic elements, and bacterial pathogens within layer and broiler farms in Beijing, China
作者:Bai, Yuqiao;Guo, Yajie;Qiu, Tianlei;Xin, Huibo;Yu, Aoyuan;Wang, Xuming;Gao, Min;Bai, Yuqiao;Sun, Xingbin
关键词:Particle size distribution; Antimicrobial resistance; Airborne transmission; Particulate attachment of microbes; Chicken farms
-
Sustainable on-farm strategy for the disposal of antibiotic fermentation residue: Co-benefits for resource recovery and resistance mitigation
作者:Zhou, Jieya;Hou, Lian;Zhou, Jieya;Wu, Hao;Shi, Lihu;Tian, Shulei;Wang, Xuming;Shen, Yunpeng;Hou, Lian
关键词:Antibiotic resistance; Bio-organic fertilizers; Antibiotic resistance genes; Mobile genetic elements
-
Aerosolization behavior of antimicrobial resistance in animal farms: a field study from feces to fine particulate matter
作者:Xin, Huibo;Qiu, Tianlei;Guo, Yajie;Gao, Haoze;Gao, Min;Xin, Huibo;Zhang, Liqiu
关键词:animal farms; fine particulate matter; antibiotic resistance; human pathogenic bacteria; aerosolization behavior
-
Does increasing the organic fertilizer application rate always boost the antibiotic resistance level in agricultural soils?
作者:Guo, Yajie;Qiu, Tianlei;Gao, Min;Gao, Haoze;Wang, Xuming;Ru, Shuhua;Wang, Xuming
关键词:Agricultural soil; Antibiotic resistance gene; Organic fertilizer; Fertilization rate; Bacterial diversity; Bacterial abundance
-
Fate of antibiotic resistance genes in cultivation substrate and its association with bacterial communities throughout commercial production of Agaricus bisporus
作者:Song, Shuang;Han, Meilin;Wang, Xuming;Wang, Shouxian;Qin, Wentao;Liu, Yu;Sun, Xiaohong;Qin, Wentao;Liu, Yu;Zhang, Yuduo;Liu, Yu;Sun, Xiaohong
关键词:Antibiotic resistance gene; Pasteurization; Agaricus bisporus; Mycelium proliferation; Bacterial community
