Halotolerant rhizobacterial consortium confers salt tolerance to maize under naturally salt-affected soil
文献类型: 外文期刊
第一作者: Shabaan, Muhammad
作者: Shabaan, Muhammad;Asghar, Hafiz Naeem;Zahir, Zahir Ahmad;Parveen, Rashida;Faiza;Sardar, Muhammad Fahad;Ali, Qasim
作者机构:
期刊名称:SOIL SCIENCE SOCIETY OF AMERICA JOURNAL ( 影响因子:2.932; 五年影响因子:3.564 )
ISSN: 0361-5995
年卷期: 2022 年 86 卷 5 期
页码:
收录情况: SCI
摘要: Halotolerant rhizobacteria, which are able to withstand higher concentrations of salts, are useful for conferring salinity tolerance to agricultural crops and improving soil fertility through their different activities. Among their various mechanisms, the improvement in soil enzyme activities they bring about through production of extracellular enzymes is crucial. Soil enzymes are responsible for supplying nutrients to plants under stressed conditions. In the current study, halotolerant plant growth-promoting rhizobacteria (Bacillus and Acinetobacter) species were examined individually and in combination to compare the efficiency with which they improve soil enzyme activities under naturally salt-affected soil conditions. The microbial consortium caused a significant increase in the soil urease (1.15-fold), dehydrogenase (14%), acid phosphatase (78%), and alkaline phosphatase (52%) activities, which led to a significant increase in shoot N (42%), grain N (98%), straw P (40%), and grain P (44%) in comparison with the uninoculated control. In addition, application of the microbial consortium to maize (Zea mays L.) seeds led to considerable improvements in plant height (70%), cob length (67%), grain yield (69%), stomatal conductance (17%), water-use efficiency (96%), photosynthetic rate (22%), cob weight (1.63-fold), and transpiration rate (1.2-fold). Moreover, consortium inoculation resulted in a significant reduction in leaf Na+ (38%) content, as evidenced by reduced antioxidant activities (i.e., catalase [59%], superoxide dismutase [37%], glutathione reductase [45%], ascorbate peroxidase [19%], and malondialdehyde [53%]) after consortium application. In conclusion, the rhizobacterial consortium alleviated the negative impacts of salinity on maize growth by improving the soil enzyme activities and nutrient acquisition under salinity stress.
分类号:
- 相关文献
作者其他论文 更多>>
-
Impact of soil moisture regimes on greenhouse gas emissions, soil microbial biomass, and enzymatic activity in long-term fertilized paddy soil
作者:Shah, Asad;Huang, Jing;Han, Tianfu;Tadesse, Kiya Adare;Daba, Nano Alemu;Zhang, Huimin;Huang, Jing;Zhang, Huimin;Khan, Muhammad Numan;Khan, Sajeela;Ullah, Sami;Sardar, Muhammad Fahad;Fahad, Shah;Fahad, Shah
关键词:Greenhouse gas emissions; Microbial biomass stoichiometry; Soil enzymes; Moisture content; Long-term fertilization
-
Electrokinetic technology enhanced the control of antibiotic resistance and the quality of swine manure composting
作者:Li, Binxu;Sardar, Muhammad Fahad;Zhang, Xu;Ye, Jing;Tian, Yunlong;Song, Tingting;Wang, Xuerong;Zhu, Changxiong;Li, Hongna;Song, Tingting;Li, Hongna
关键词:Electrokinetic; Antibiotic resistance; Efficient and safe composting; Swine manure
-
Unveiling the frontiers of potato disease research through bibliometric analysis
作者:Weng, Ling;Tang, Zhurui;Ai, Keyu;Liang, Shurui;Lyv, Dianqiu;Weng, Ling;Tang, Zhurui;Lyv, Dianqiu;Weng, Ling;Tang, Zhurui;Lyv, Dianqiu;Weng, Ling;Tang, Zhurui;Lyv, Dianqiu;Sardar, Muhammad Fahad;Yu, Ying;Alkahtani, Jawaher
关键词:potato; disease; control strategies; bibliometrics; biocontrol
-
Soil nitrogen dynamics in natural forest ecosystem: a review
作者:Sardar, Muhammad Fahad;Li, Yanli;Sardar, Muhammad Fahad;Younas, Fazila;Farooqi, Zia Ur Rahman
关键词:forest ecosystem; bamboo invasion; nitrogen cycling; broadleaf forests; soil properties
-
Simultaneous reductions in antibiotic, antibiotic resistance genes and nitrogen loss during bioaugmentation tylosin fermentation dregs co-composting
作者:Zhang, Bo;Qu, Jianhua;Zhang, Jingdan;Liu, Jie;Tao, Yue;Zhang, Ying;Guo, Zhen;Sardar, Muhammad Fahad;Dai, Xiaohu;Liu, Huiling
关键词:Antibiotic fermentation dregs; Co-composting; Ammonia nitrogen removal; Nitrogen transformation; Nitrogen loss; ARGs
-
Dynamics of a Bacterial Community in the Anode and Cathode of Microbial Fuel Cells under Sulfadiazine Pressure
作者:Yang, Zhenzhen;Li, Hongna;Sardar, Muhammad Fahad;Song, Tingting;Zhu, Changxiong;Li, Na;Zhu, Hong;Xing, Xuan
关键词:air-cathode microbial fuel cell; sulfadiazine; anodic bacteria; cathodic bacteria; synergistic interaction
-
Salt-Tolerant PGPR Confer Salt Tolerance to Maize Through Enhanced Soil Biological Health, Enzymatic Activities, Nutrient Uptake and Antioxidant Defense
作者:Shabaan, Muhammad;Asghar, Hafiz Naeem;Zahir, Zahir Ahmad;Zhang, Xiu;Sardar, Muhammad Fahad;Li, Hongna
关键词:rhizobacteria; maize; salinity stress; enzymes; nutrient acquisition
