Journal article

Publication year: 2013

Pages: 266-275

Journal: Journal of Biotechnology

Volume number: 164

Issue number: 2

ISSN: 0168-1656

eISSN: 1873-4863

DOI Link: https://doi.org/10.1016/j.jbiotec.2012.11.013

Publisher: Elsevier

Abstract: 

Water shortage necessitated South Indian sago factory owners, extracting starch out of cassava tubers, to install biogas plants where a starch utilizing microbial community multiplies and reduces the biological oxygen demand (BOD) of the waste waters by presently about 30%. The purification efficiency of sago factory waste waters, rich in solid particles and having wide C/N ratios, around 250, through unstirred biogas plants needs to be improved. Our approach was to apply instead of animal slurry nitrate (NO3-) and nitrous oxide (N2O) as external N-sources anticipating a better N-distribution in the unstirred biogas plants.

Estimated cell numbers, bacterial community changes, on the basis of 16S rRNA gene clone libraries and changing CO2-, CH4-, N2O releases due to the presence of nitrate or N2O suggest that acid tolerant Lactobacillus spp. dominate the biogas plant inflows (pH 3.5). They were very less or not found in the outflows (pH 7.3). Assumingly, the phyla Bacteroidetes (Prevotella spp.), Proteobacteria (Rhizobium spp., Defluvibacter sp.), Firmicutes (Megasphaera spp., Dialister spp., Clostridium spp.) and Synergistetes (Thermanaerovibrio spp.), not-detectable in the biogas plant inflows, replaced them. Anaerobes, about 400 cells ml(-1) in the inflows, increased to about 10(6) cells ml(-1) in the outflows. The methane formation, as confirmed by the incubation experiments, suggests that methanogens must have been present among the anaerobes. In the biogas plant in- and outflows also about 300 cells ml(-1) denitrifying bacteria and up to 10(4) cfu fungi were found.

Despite the low number of denitrifying bacteria nitrate added to the biogas plant in- and outflows was widely consumed and added N2O decreased considerably. Thus, wide C/N ratios substrates like sago factory waste waters keep the N2O emissions low by using N2O either as electron acceptor or by incorporating it into the growing biomass what needs to be confirmed. The biogas plant inflow samples have emitted tentatively more CO2 and the outflow samples released more CH4. (C) 2012 Elsevier B.V. All rights reserved.

Harvard Citation style: Rajendran, R., Soora, M., Dananjeyan, B., Ratering, S., Krishnamurthy, K. and Benckiser, G. (2013) Microbial community diversity of organically rich cassava sago factory waste waters and their ability to use nitrate and N₂O added as external N-sources for enhancing biomethanation and the purification efficiency, Journal of Biotechnology, 164(2), pp. 266-275. https://doi.org/10.1016/j.jbiotec.2012.11.013

APA Citation style: Rajendran, R., Soora, M., Dananjeyan, B., Ratering, S., Krishnamurthy, K., & Benckiser, G. (2013). Microbial community diversity of organically rich cassava sago factory waste waters and their ability to use nitrate and N₂O added as external N-sources for enhancing biomethanation and the purification efficiency. Journal of Biotechnology. 164(2), 266-275. https://doi.org/10.1016/j.jbiotec.2012.11.013