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dissimilatory sulfate reduction
Known as:
dissimilatory sulphate reduction
The reduction of sulfate to hydrogen sulfide, which acts as a terminal electron acceptor. Sulfate is activated to adenosine-phosphosulfate (APS…
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National Institutes of Health
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Papers overview
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2016
2016
Sulfate reduction and inorganic carbon assimilation in acidic thermal springs of the Kamchatka peninsula
E. N. Frolov
,
A. Merkel
,
N. Pimenov
,
A. Khvashchevskaya
,
E. Bonch‐Osmolovskaya
,
N. Chernykh
Microbiology
2016
Corpus ID: 14954555
Thermoacidophilic sulfate reduction, which remains a poorly studied process, was investigated in the present work. Radioisotope…
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2016
2016
Influence of commercial (Fluka) naphthenic acids on acid volatile sulfide (AVS) production and divalent metal precipitation.
A. McQueen
,
Ciera M. Kinley
,
J. Rodgers
,
Vanessa Friesen
,
Jordyn Bergsveinson
,
M. Haakensen
Ecotoxicology and Environmental Safety
2016
Corpus ID: 207198258
2012
2012
Humic substance-mediated Fe(III) reduction by a fermenting Bacillus strain from the alkaline gut of a humus-feeding scarab beetle larva.
S. Hobbie
,
Xiangzhen Li
,
M. Basen
,
U. Stingl
,
A. Brune
Systematic and Applied Microbiology
2012
Corpus ID: 34444612
2009
2009
Managing pore-water quality in mine tailings by inducing microbial sulfate reduction.
M. Lindsay
,
D. Blowes
,
Peter D. Condon
,
C. Ptacek
Environmental Science and Technology
2009
Corpus ID: 20789768
A field-scale experiment was conducted to evaluate the potential for inducing microbial sulfate reduction as a passive in situ…
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2007
2007
CHAPTER 1 Energy metabolism and phylogenetic diversity of sulphate-reducing bacteria
R. Thauer
,
E. Stackebrandt
,
W. Hamilton
2007
Corpus ID: 23179952
Sulphate-reducing bacteria (SRB) are those prokaryotic microorganisms, both bacteria and archaea, that can use sulphate as the…
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2006
2006
ATP-sulphurylase: An enzymatic marker for biological sulphate reduction?
O. Oyekola
,
B. Pletschke
2006
Corpus ID: 56244222
2004
2004
In situ measurement of Fe(III) reduction activity of Geobacter pelophilus by simultaneous in situ RT-PCR and XPS analysis.
A. Neal
,
Lani K Clough
,
T. D. Perkins
,
B. Little
,
T. Magnuson
FEMS Microbiology Ecology
2004
Corpus ID: 22053091
2002
2002
THE EFFECT OF SOME ESSENTIAL ENVIRONMENTAL FACTORS ON THE MICROBIAL DISSIMILATORY SULPHATE REDUCTION
S. Bratcova
,
S. Groudev
,
P. Georgiev
2002
Corpus ID: 98415335
The effect of some heavy metals (manganese, iron, uranium) and arsenic on microbial dissimilatory sulphate reduction was studied…
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2000
2000
Constructed wetlands for treatment of mine tailings at Tara Mines, Ireland
A. O’Sullivan
,
D. Murray
,
M. Otte
2000
Corpus ID: 59373410
Natural and constructed wetlands can filter pollutants from water. Recently this property has been exploited in utilising…
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1999
1999
Upgrading the efficiency of dissimilatory sulfate reduction by Desulfovibrio desulfuricans via adjustment of the COD/SO4 ratio
K. Kosińska
,
T. Miśkiewicz
Biotechnology Letters
1999
Corpus ID: 37942293
The potential for upgrading the microbiological reduction of sulfates and for decreasing the organic pollution levels in…
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