Use of Marine Waste Extract as a Nitrogen Source for Biological Sulfate Reduction: Development of a Suitable Alternative

Marine wastes extract (MWE), prepared from marine organic wastes, was used to develop an alternative nitrogen source for sulfate-reducing bacteria (SRB) in environments like acid mine drainage that are acidic in nature and contain high levels of sulfate and dissolved metals. The MWE contains 13.95 g...

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Published inMine water and the environment Vol. 33; no. 4; pp. 362 - 371
Main Authors Dev, Subhabrata, Bhattacharya, Jayanta
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.12.2014
Springer Nature B.V
Subjects
Acid mine drainage
Ammonium chloride
Bacteria
Bioremediation
Calcium
Carbon-nitrogen ratio
Cobalt
Copper
Culture media
Earth and Environmental Science
Earth Sciences
Ecotoxicology
Geology
Growth media
Hydrogeology
Industrial Pollution Prevention
Iron
Magnesium
Manganese
Marine pollution
Metals
Micronutrients
Microorganisms
Mine drainage
Mineral Resources
Nickel
Nitrogen
Nitrogen sources
Organic wastes
Sulfate reduction
Sulfate-reducing bacteria
Sulfates
Sulphate reduction
Technical Article
Waste materials
Wastewater
Wastewater treatment
Water pollution
Water Quality/Water Pollution
Zinc
Germany
India
Sulfide
Sulfate reducing bacteria (SRB)
MSRB
Growth media
SRB population
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Abstract Marine wastes extract (MWE), prepared from marine organic wastes, was used to develop an alternative nitrogen source for sulfate-reducing bacteria (SRB) in environments like acid mine drainage that are acidic in nature and contain high levels of sulfate and dissolved metals. The MWE contains 13.95 g L −1 of nitrogen, and other micronutrients like K, Na, P, S, Ca, Fe, Mg, Mn, Zn, Co, Cu and Ni, and has a C/N ratio of 0.107. A modified SRB medium (MSRB) was developed by replacing the commercial nitrogen source of standard SRB growth medium with MWE. MSRB was compared with modified Postgate B, Postgate B, and Widdel and Pfennig media, which contained bactopeptone and NH 4 Cl, as nitrogen sources. Results showed that the growth media could support a total microbial population of 2.8 × 10 12 –6.2 × 10 12 cells mL −1 with 96, 80, 92.5, and 65 % SRB in MSRB, Postgate B, modified Postgate B, and Widdel and Pfennig media, respectively. The sulfate reduction efficiency was 97, 87, 72, and 68 % at reduction rates of 12.41, 11.10, 4.35, and 8.8 mg L −1  h −1 , respectively, for the same media. We conclude that MWE could be a cost-effective substitute for commercially available nitrogen sources for SRB for large-scale treatment of sulfate-rich wastewater.
AbstractList Marine wastes extract (MWE), prepared from marine organic wastes, was used to develop an alternative nitrogen source for sulfate-reducing bacteria (SRB) in environments like acid mine drainage that are acidic in nature and contain high levels of sulfate and dissolved metals. The MWE contains 13.95 g L−1 of nitrogen, and other micronutrients like K, Na, P, S, Ca, Fe, Mg, Mn, Zn, Co, Cu and Ni, and has a C/N ratio of 0.107. A modified SRB medium (MSRB) was developed by replacing the commercial nitrogen source of standard SRB growth medium with MWE. MSRB was compared with modified Postgate B, Postgate B, and Widdel and Pfennig media, which contained bactopeptone and NH4Cl, as nitrogen sources. Results showed that the growth media could support a total microbial population of 2.8 × 1012–6.2 × 1012 cells mL−1 with 96, 80, 92.5, and 65 % SRB in MSRB, Postgate B, modified Postgate B, and Widdel and Pfennig media, respectively. The sulfate reduction efficiency was 97, 87, 72, and 68 % at reduction rates of 12.41, 11.10, 4.35, and 8.8 mg L−1 h−1, respectively, for the same media. We conclude that MWE could be a cost-effective substitute for commercially available nitrogen sources for SRB for large-scale treatment of sulfate-rich wastewater.
Marine wastes extract (MWE), prepared from marine organic wastes, was used to develop an alternative nitrogen source for sulfate-reducing bacteria (SRB) in environments like acid mine drainage that are acidic in nature and contain high levels of sulfate and dissolved metals. The MWE contains 13.95 g L super(-1) of nitrogen, and other micronutrients like K, Na, P, S, Ca, Fe, Mg, Mn, Zn, Co, Cu and Ni, and has a C/N ratio of 0.107. A modified SRB medium (MSRB) was developed by replacing the commercial nitrogen source of standard SRB growth medium with MWE. MSRB was compared with modified Postgate B, Postgate B, and Widdel and Pfennig media, which contained bactopeptone and NH sub(4)Cl, as nitrogen sources. Results showed that the growth media could support a total microbial population of 2.8 10 super(12)-6 .2 10 super(12) cells mL super(-1) with 96, 80, 92.5, and 65 % SRB in MSRB, Postgate B, modified Postgate B, and Widdel and Pfennig media, respectively. The sulfate reduction efficiency was 97, 87, 72, and 68 % at reduction rates of 12.41, 11.10, 4.35, and 8.8 mg L super(-1) h super(- 1), respectively, for the same media. We conclude that MWE could be a cost-effective substitute for commercially available nitrogen sources for SRB for large-scale treatment of sulfate-rich wastewater.Original Abstract: Extrakte mariner Fischereiabfaelle (MWE), hergestellt aus organischen Fischereiabfaellen, wurden genutzt, um eine alternative Stickstoffquelle fuer sulfatreduzierende Bakterien (SRB) in sauren, sulfat- und metallreichen Grubenwaessern zu entwickeln. Die MWE enthalten 13.95 g/L Stickstoff und andere Mikronaehrstoffe wie K, Na, P, S, Ca, Fe, Mg, Mn, Zn, Co, Cu und Ni. Das C/N-Verhaeltnis betraegt 0.107. Durch Substitution der kommerziellen Stickstoffquelle in Standard SRB-Naehrmedien mit MWE wurde ein modifiziertes SRB-Naehrmedium (MSRB) entwickelt. Das MSRB wurde mit modifizierten Postgate B-, Postgate B- sowie Widdel- und Pfennig-Naehrmedien verglichen. Diese Naehrmedien enthalten Bactopeptone und NH4Cl als Stickstoffquelle. Die Ergebnisse zeigen, dass die Naehrmedien eine mikrobiologische Gesamtpopulation von 2.8 x 10 super(12) bis 6.2 x 10 super(12) SRB-Zellen/mL mit 96 % in MSRB, 80 % in Postgate B, 92.5 % in modifizierten Postgate B- und 65 % in Widdel- und Pfennig-Medien aufrechterhalten. Die Effektivitaet der Sulfatreduktion betrug 97 %, 87 %, 72 % beziehungsweise 68 % bei einer Reduktionsrate von 12.41. 11.10, 4.35 beziehungsweise 8.8 mg/(L times h). Wir gehen davon aus, dass MWE ein kostenguenstiger Ersatz fuer kommerziell verfuegbare Stickstoffenquellen bei einer grostechnischen Reinigung von sulfatreichen Waessern sein kann.
Marine wastes extract (MWE), prepared from marine organic wastes, was used to develop an alternative nitrogen source for sulfate-reducing bacteria (SRB) in environments like acid mine drainage that are acidic in nature and contain high levels of sulfate and dissolved metals. The MWE contains 13.95 g L −1 of nitrogen, and other micronutrients like K, Na, P, S, Ca, Fe, Mg, Mn, Zn, Co, Cu and Ni, and has a C/N ratio of 0.107. A modified SRB medium (MSRB) was developed by replacing the commercial nitrogen source of standard SRB growth medium with MWE. MSRB was compared with modified Postgate B, Postgate B, and Widdel and Pfennig media, which contained bactopeptone and NH 4 Cl, as nitrogen sources. Results showed that the growth media could support a total microbial population of 2.8 × 10 12 –6.2 × 10 12 cells mL −1 with 96, 80, 92.5, and 65 % SRB in MSRB, Postgate B, modified Postgate B, and Widdel and Pfennig media, respectively. The sulfate reduction efficiency was 97, 87, 72, and 68 % at reduction rates of 12.41, 11.10, 4.35, and 8.8 mg L −1  h −1 , respectively, for the same media. We conclude that MWE could be a cost-effective substitute for commercially available nitrogen sources for SRB for large-scale treatment of sulfate-rich wastewater.
Author Dev, Subhabrata
Bhattacharya, Jayanta
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Keywords Sulfide
Sulfate reducing bacteria (SRB)
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Growth media
SRB population
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PublicationSubtitle Journal of the International Mine Water Association (IMWA)
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Snippet Marine wastes extract (MWE), prepared from marine organic wastes, was used to develop an alternative nitrogen source for sulfate-reducing bacteria (SRB) in...
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StartPage 362
SubjectTerms Acid mine drainage
Ammonium chloride
Bacteria
Bioremediation
Calcium
Carbon-nitrogen ratio
Cobalt
Copper
Culture media
Earth and Environmental Science
Earth Sciences
Ecotoxicology
Geology
Growth media
Hydrogeology
Industrial Pollution Prevention
Iron
Magnesium
Manganese
Marine pollution
Metals
Micronutrients
Microorganisms
Mine drainage
Mineral Resources
Nickel
Nitrogen
Nitrogen sources
Organic wastes
Sulfate reduction
Sulfate-reducing bacteria
Sulfates
Sulphate reduction
Technical Article
Waste materials
Wastewater
Wastewater treatment
Water pollution
Water Quality/Water Pollution
Zinc
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Title Use of Marine Waste Extract as a Nitrogen Source for Biological Sulfate Reduction: Development of a Suitable Alternative
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