• Title of article

    Promotion of Wheat Growth under Salt Stress by Halotolerant Bacteria Containing ACC deaminase

  • Author/Authors

    Pourbabaei، A. A. نويسنده Faculty of Agricultural Engineering and Technology,Department of Soil Science,University of Tehran,Karaj,Iran , , Bahmani، E. نويسنده Faculty of Agricultural Engineering and Technology,Department of Soil Science,University of Tehran,Karaj,Iran , , Alikhani، H. A. نويسنده Faculty of Agricultural Engineering and Technology,Department of Soil Science,University of Tehran,Karaj,Iran , , Emami، S. نويسنده Faculty of Agricultural Engineering and Technology,Department of Soil Science,University of Tehran,Karaj,Iran ,

  • Issue Information
    دوماهنامه با شماره پیاپی سال 2016
  • Pages
    10
  • From page
    855
  • To page
    864
  • Abstract
    Salinity is a major abiotic stress that reduces crop productivity in arid and semiarid soils. About 25% of the countrys arable land is affected by different levels of salt. A considerable part of this land is under wheat cultivation each year as the countrys most important crop. ACC deaminase producing bacteria increase plant resistance to stress condition by reducing stress ethylene in a variety of environmental stresses such as salinity. In this study, 167 halotolerant bacterial strains were isolated from the saline habitats and screened for growth at different NaCl concentrations. These halotolerant bacterial strains were then tested for 1 AminoCyclopropane-1-Carboxylic acid (ACC) deaminase activity. Among six isolates of halotolerant bacteria containing ACC deaminase, the K78 strain produced the highest level of this enzyme. Phylogenetic analysis of the 16S rRNA gene sequence of this bacterium indicated that this strain belonged to Bacillus mojavensis. Inoculation of Bacillus mojavensis to salt stressed wheat plants produced an increase in root and shoot weight, chlorophyll content, and nutrient uptake in comparison with the uninoculated soils. In summary, this study indicates that the use of ACC deaminaseproducing halotolerant bacteria mitigates salinity stress effects on growth of wheat plants by reducing saltstressinduced ethylene production.
  • Keywords
    Ethylene production , root growth , Salinity , abiotic stress , Bacillus
  • Journal title
    Journal of Agricultural Science and Technology (JAST)
  • Serial Year
    2016
  • Journal title
    Journal of Agricultural Science and Technology (JAST)
  • Record number

    2397896