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Novel Microbial System Developed from Low-Level Radioactive Waste Treatment Plant for Environmental Sustenance

In: Management of Hazardous Wastes

Author

Listed:
  • Shaon Ray Chaudhuri
  • Ajoy Krishna Saha
  • Shiv Shankar Singh
  • Maitreyi Banerjee
  • Rajib Nath
  • Sourav Ghosh
  • Anindita Chakraborty
  • Mathummal Sudarshan
  • Kamlesh Jangid
  • Arpita Banerjee
  • Madhurima Ghosh
  • Madhusmita Mishra
  • Amrita Saha
  • U Jayakrishnan
  • Srimoyee Banerjee
  • Jaweria Sharmin
  • Ashoke Ranjan Thakur

Abstract

A packed bed bioreactor efficiently treated low-level radioactive waste for years with a retention time of 24 h using acetate as the sole carbon source. However, there was generation of dead biomass. This bioreactor biomass was used to develop a bacterial consortium, which could perform the function within 4 h while simultaneously accumulating nitrate and phosphate. The dead mass was negligible. Serial dilution technique was used to isolate the world's first pure culture of a nitrate accumulating strain from this consortium. This isolate could simultaneously accumulate nitrate and phosphate from solution. Its ability to form biofilm helped develop a packed bed bioreactor system for waste water treatment, which could optimally remove 94.46% nitrate within 11 h in batch mode while 8 h in continuous mode from waste water starting from 275 ppm of nitrate. The conventional approach revealed the strain to be a member of genus Bacillus but showed distinct differences with the type strains. Further insilico analysis of the draft genome and the putative protein sequences using the bioinformatics tools revealed the strain to be a novel variant of genus Bacillus. The sequestered nitrate and phosphate within the cell were visualized through electron microscopy and explained the reason behind the ability of the isolate to accumulate 1.12 mg of phosphate and 1.3 gm of nitrate per gram of wet weight. Transcriptome analysis proposed the mechanism behind the accumulation of nitrate and phosphate in case of this novel bacterial isolate (MCC 0008). The strain with the sequestered nutrients work as biofertilizer for yield enhancement in case of mung bean while maintaining soil fertility post-cultivation.

Suggested Citation

  • Shaon Ray Chaudhuri & Ajoy Krishna Saha & Shiv Shankar Singh & Maitreyi Banerjee & Rajib Nath & Sourav Ghosh & Anindita Chakraborty & Mathummal Sudarshan & Kamlesh Jangid & Arpita Banerjee & Madhurima, 2016. "Novel Microbial System Developed from Low-Level Radioactive Waste Treatment Plant for Environmental Sustenance," Chapters, in: Hosam M. Saleh & Rehab O. Abdel Rahman (ed.), Management of Hazardous Wastes, IntechOpen.
  • Handle: RePEc:ito:pchaps:103725
    DOI: 10.5772/63323
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    File URL: https://www.intechopen.com/chapters/51138
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    More about this item

    Keywords

    nitrate accumulation; packed bed biofilm reactor; Bacillus sp MCC 0008; insilico analysis; transcriptome analysis; radioactive effluent;
    All these keywords.

    JEL classification:

    • Q53 - Agricultural and Natural Resource Economics; Environmental and Ecological Economics - - Environmental Economics - - - Air Pollution; Water Pollution; Noise; Hazardous Waste; Solid Waste; Recycling

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