Objective Effects of metal resistant plant growth promoting bacteria(PGPB) on corn growth and Zn accumulation were studied to provide a fundamental groundwork for mitigating the stress of heavy metal on crop growth and decreasing heavy metal uptake.

Method A pot experiment was carried out to study the effects of inoculation with two Zn resistant PGPB, Ⅱ₂R₃ and Ⅳ₈R₃ on corn plant growth and Zn uptake from Zn contaminated soils (0, 200, 400 and 800 mg·kg^-1 Zn addition).

Result and conclusion The strains Ⅱ₂R₃ and Ⅳ₈R₃ not only grew well with different concentrations of Zn, but also absorbed or accumulated much higher Zn from the growing medium. Individual inoculation of strain Ⅳ₈R₃ to the soil with 200 or 400 mg·kg^-1 Zn addition both promoted the corn growth. For the soils with 800 mg·kg^-1Zn addition, simultaneous inoculation with strains Ⅱ₂R₃ and Ⅳ₈R₃ promoted the corn growth. Individual or simultaneous inoculation with strains Ⅱ₂R₃ and Ⅳ₈R₃ to the soils at three Zn pollution levels (200, 400 and 800 mg·kg^-1 Zn addition) decreased the soil bioavailable Zn concentration. For the soil with a high Zn pollution level (800 mg·kg^-1Zn addition), the inoculation of strains Ⅱ₂R₃ orⅡ₂R₃+Ⅳ₈R₃ decreased Zn uptake and transportation in corn. However, all of three inoculation treatments had no significant effects on Zn uptake of corn when strains Ⅱ₂R₃, Ⅳ₈R₃, Ⅱ₂R₃+Ⅳ₈R₃ were inoculated to the soils with 200 or 400 mg·kg^-1 Zn addition. The results indicate that inoculation with metal resistant PGPB to high Zn-contaminated soil can promote the corn growth and inhibite the uptake and transportation of Zn in corn. Inoculation with strains Ⅱ₂R₃ or Ⅳ₈R₃ to high Zn-contaminated soils can inhibite the uptake and transportation of Zn in corn. The effects of inoculation with strains Ⅱ₂R₃ or Ⅳ₈R₃ on corn growth are related to the different levels of Zn pollution and characterization of the strains.