Biological treatment of nitrate-contaminated groundwater by Bacillus subtilis: The potential use of treated groundwater as agricultural irrigation water

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High levels of nitrate (NO3-) pollution in groundwater can cause potential health problems. In this study, a novel concept for groundwater treatment was designed and implemented for: i) the biological treatment of real nitrate-contaminated groundwater and ii) the use of treated groundwater to enhance plant growth. Plant growth-promoting rhizobacteria (PGPR; Bacillus subtilis) were used to investigate the effect of nitrate on bacterial growth in nitrate-contaminated groundwater. No significant effect of cations on bacterial growth was observed, whereas the presence of nitrate in the growth medium significantly increased the growth rate after 40 h-incubation. The OD600 value of high concentrations of nitrate (100 mg/L) was almost 1.4-fold smaller than that of low concentrations of nitrate (i.e., 10 mg/L) owing to its toxic effects at high concentrations. Plant growth experiments showed that the dried biomass weight of kidney beans watered with B. subtilis-treated groundwater was almost 1.7- to 2.0-fold higher than that of other treated samples, whereas germination failure was observed when plants were directly watered with nitrate-contaminated groundwater. The novel findings of this study highlight the application of B. subtilis for the aerobic denitrification of nitrate-contaminated groundwater and its potential for use in treating nitrate-contaminated groundwater for enhanced plant growth.