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… Expand

National Institutes of Health

Papers overview

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Highly Cited

2012

Highly Cited

2012

Zero-valent sulphur is a key intermediate in marine methane oxidation

J. Milucka, T. Ferdelman, +7 authors M. Kuypers
Nature
2012

Corpus ID: 32356495

Emissions of methane, a potent greenhouse gas, from marine sediments are controlled by anaerobic oxidation of methane coupled… Expand

Highly Cited

2011

Highly Cited

2011

Revisiting the dissimilatory sulfate reduction pathway.

A. Bradley, W. D. Leavitt, D. Johnston
Geobiology
2011

Corpus ID: 205627777

Sulfur isotopes in the geological record integrate a combination of biological and diagenetic influences, but a key control on… Expand

Highly Cited

2005

Highly Cited

2005

A revised isotope fractionation model for dissimilatory sulfate reduction in sulfate reducing bacteria

B. Brunner, S. Bernasconi
2005

Corpus ID: 32917560

Abstract Sulfur isotope fractionation during dissimilatory sulfate reduction has been conceptually described by the widely… Expand

Review

2004

Review

2004

Dissimilatory Fe(III) and Mn(IV) reduction.

D. Lovley, D. Holmes, K. Nevin
Advances in microbial physiology
2004

Corpus ID: 24701713

Dissimilatory Fe(III) and Mn(IV) reduction has an important influence on the geochemistry of modern environments, and Fe(III… Expand

Highly Cited

2003

Highly Cited

2003

Rhodoferax ferrireducens sp. nov., a psychrotolerant, facultatively anaerobic bacterium that oxidizes acetate with the reduction of Fe(III).

K. Finneran, Claudia V Johnsen, D. Lovley
International journal of systematic and…
2003

Corpus ID: 23293316

To further investigate the diversity of micro-organisms capable of conserving energy to support growth from dissimilatory Fe(III… Expand

Highly Cited

2002

Highly Cited

2002

Mechanisms for Accessing Insoluble Fe(III) Oxide during Dissimilatory Fe(III) Reduction by Geothrix fermentans

K. Nevin, D. Lovley
Applied and Environmental Microbiology
2002

Corpus ID: 2291329

ABSTRACT Mechanisms for Fe(III) oxide reduction were investigated in Geothrix fermentans, a dissimilatory Fe(III)-reducing… Expand

Highly Cited

2000

Highly Cited

2000

Dissimilatory Fe(III) and Mn(IV)-reducing Prokaryotes

D. Lovley
2000

Corpus ID: 6534438

Dissimilatory Fe(III) reduction is the process in which microorganisms transfer electrons to external ferric iron [Fe(III… Expand

Highly Cited

1996

Highly Cited

1996

Isolation of Geobacter species from diverse sedimentary environments.

J. Coates, E. Phillips, D. J. Lonergan, H. Jenter, D. Lovley
Applied and environmental microbiology
1996

Corpus ID: 39248278

In an attempt to better understand the microorganisms responsible for Fe(III) reduction in sedimentary environments, Fe(III… Expand

Highly Cited

1992

Highly Cited

1992

Comparison of fermentation reactions in different regions of the human colon.

G. Macfarlane, G. Gibson, J. Cummings
The Journal of applied bacteriology
1992

Corpus ID: 34266353

Colonic contents were obtained from two human sudden-death victims within 3 h of death. One of the subjects (1) was methanogenic… Expand

Highly Cited

1988

Highly Cited

1988

Novel mode of microbial energy metabolism: organic carbon oxidation coupled to dissimilatory reduction of iron or manganese.

D. Lovley, E. Phillips
Applied and environmental microbiology
1988

Corpus ID: 7567617

A dissimilatory Fe(III)- and Mn(IV)-reducing microorganism was isolated from freshwater sediments of the Potomac River, Maryland… Expand