John Senko
John Senko
Verified email at - Homepage
Cited by
Cited by
In situ bioreduction of technetium and uranium in a nitrate-contaminated aquifer
JD Istok, JM Senko, LR Krumholz, D Watson, MA Bogle, A Peacock, ...
Environmental Science & Technology 38 (2), 468-475, 2004
In-Situ Evidence for Uranium Immobilization and Remobilization
JM Senko, JD Istok, JM Suflita, LR Krumholz
Environmental science & technology 36 (7), 1491-1496, 2002
Bacterial diversity and sulfur cycling in a mesophilic sulfide-rich spring
MS Elshahed, JM Senko, FZ Najar, SM Kenton, BA Roe, TA Dewers, ...
Applied and Environmental Microbiology 69 (9), 5609-5621, 2003
Role for Fe (III) minerals in nitrate-dependent microbial U (IV) oxidation
JM Senko, Y Mohamed, TA Dewers, LR Krumholz
Environmental science & technology 39 (8), 2529-2536, 2005
Characterization of uraninite nanoparticles produced by Shewanella oneidensis MR-1
WD Burgos, JT McDonough, JM Senko, G Zhang, AC Dohnalkova, ...
Geochimica et Cosmochimica Acta 72 (20), 4901-4915, 2008
The effect of U (VI) bioreduction kinetics on subsequent reoxidation of biogenic U (IV)
JM Senko, SD Kelly, AC Dohnalkova, JT McDonough, KM Kemner, ...
Geochimica et Cosmochimica Acta 71 (19), 4644-4654, 2007
Characterization of Fe (II) oxidizing bacterial activities and communities at two acidic Appalachian coalmine drainage-impacted sites
JM Senko, P Wanjugi, M Lucas, MA Bruns, WD Burgos
The ISME journal 2 (11), 1134-1145, 2008
Effect of oxidation rate and Fe (II) state on microbial nitrate-dependent Fe (III) mineral formation
JM Senko, TA Dewers, LR Krumholz
Applied and Environmental Microbiology 71 (11), 7172-7177, 2005
Barite deposition resulting from phototrophic sulfide-oxidizing bacterial activity
JM Senko, BS Campbell, JR Henriksen, MS Elshahed, TA Dewers, ...
Geochimica et Cosmochimica Acta 68 (4), 773-780, 2004
Metal reduction at low pH by a Desulfosporosinus species: implications for the biological treatment of acidic mine drainage
JM Senko, G Zhang, JT McDonough, MA Bruns, WD Burgos
Geomicrobiology Journal 26 (2), 71-82, 2009
Geochemical controls on microbial nitrate-dependent U (IV) oxidation
JM Senko, JM Suflita, LR Krumholz
Geomicrobiology Journal 22 (7-8), 371-378, 2005
A procedure for quantitation of total oxidized uranium for bioremediation studies
DA Elias, JM Senko, LR Krumholz
Journal of Microbiological Methods 53 (3), 343-353, 2003
Long-term survival of Desulfovibrio vulgaris on carbon steel and associated pitting corrosion
Y Chen, Q Tang, JM Senko, G Cheng, BZ Newby, H Castaneda, LK Ju
Corrosion science 90, 89-100, 2015
Microbial reduction of iron (III)-rich nontronite and uranium (VI)
G Zhang, JM Senko, SD Kelly, H Tan, KM Kemner, WD Burgos
Geochimica et Cosmochimica Acta 73 (12), 3523-3538, 2009
A heme-C-containing enzyme complex that exhibits nitrate and nitrite reductase activity from the dissimilatory iron-reducing bacterium Geobacter metallireducens
FM Murillo, T Gugliuzza, J Senko, P Basu, JF Stolz
Archives of microbiology 172 (5), 313-320, 1999
Response of soil-associated microbial communities to intrusion of coal mine-derived acid mine drainage
JS Brantner, JM Senko
Environmental science & technology 48 (15), 8556-8563, 2014
Microbial reduction of chlorite and uranium followed by air oxidation
G Zhang, WD Burgos, JM Senko, ME Bishop, H Dong, MI Boyanov, ...
Chemical Geology 283 (3-4), 242-250, 2011
Iron transformations induced by an acid-tolerant Desulfosporosinus species
D Bertel, J Peck, TJ Quick, JM Senko
Applied and environmental microbiology 78 (1), 81-88, 2012
Microbial reducibility of Fe (III) phases associated with the genesis of iron ore caves in the Iron Quadrangle, Minas Gerais, Brazil
CW Parker, JA Wolf, AS Auler, HA Barton, JM Senko
Minerals 3 (4), 395-411, 2013
Soil humic acid decreases biological uranium (VI) reduction by Shewanella putrefaciens CN32
WD Burgos, JM Senko, BA Dempsey, EE Roden, JJ Stone, KM Kemner, ...
Environmental engineering science 24 (6), 755-761, 2007
The system can't perform the operation now. Try again later.
Articles 1–20