Alfred B Cunningham
Overview
Explore the profile of Alfred B Cunningham including associated specialties, affiliations and a list of published articles.
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Articles
9
Citations
165
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0
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Recent Articles
1.
Schweitzer H, Smith H, Barnhart E, McKay L, Gerlach R, Cunningham A, et al.
NPJ Biofilms Microbiomes
. 2022 Feb;
8(1):7.
PMID: 35177633
Environmentally relevant metagenomes and BONCAT-FACS derived translationally active metagenomes from Powder River Basin coal seams were investigated to elucidate potential genes and functional groups involved in hydrocarbon degradation to methane...
2.
Barnhart E, Ruppert L, Hiebert R, Smith H, Schweitzer H, Clark A, et al.
Environ Sci Technol
. 2022 Feb;
56(5):3225-3233.
PMID: 35142487
Subsurface microbial (biogenic) methane production is an important part of the global carbon cycle that has resulted in natural gas accumulations in many coal beds worldwide. Laboratory studies suggest that...
3.
Phillips A, Cunningham A, Gerlach R, Hiebert R, Hwang C, Lomans B, et al.
Environ Sci Technol
. 2016 Feb;
50(7):4111-7.
PMID: 26911511
A primary environmental risk from unconventional oil and gas development or carbon sequestration is subsurface fluid leakage in the near wellbore environment. A potential solution to remediate leakage pathways is...
4.
Phillips A, Gerlach R, Lauchnor E, Mitchell A, Cunningham A, Spangler L
Biofouling
. 2013 Jun;
29(6):715-33.
PMID: 23802871
Microbially-induced calcium carbonate (CaCO3) precipitation (MICP) is a widely explored and promising technology for use in various engineering applications. In this review, CaCO3 precipitation induced via urea hydrolysis (ureolysis) is...
5.
Lauchnor E, Schultz L, Bugni S, Mitchell A, Cunningham A, Gerlach R
Environ Sci Technol
. 2013 Jan;
47(3):1557-64.
PMID: 23282003
Strontium-90 is a principal radionuclide contaminant in the subsurface at several Department of Energy sites in the Western U.S., causing a threat to groundwater quality in areas such as Hanford,...
6.
Phillips A, Lauchnor E, Eldring J, Esposito R, Mitchell A, Gerlach R, et al.
Environ Sci Technol
. 2012 Aug;
47(1):142-9.
PMID: 22913538
Mitigation strategies for sealing high permeability regions in cap rocks, such as fractures or improperly abandoned wells, are important considerations in the long term security of geologically stored carbon dioxide...
7.
Fridjonsson E, Seymour J, Schultz L, Gerlach R, Cunningham A, Codd S
J Contam Hydrol
. 2010 Aug;
120-121:79-88.
PMID: 20800317
Noninvasive measurements of hydrodynamic dispersion by nuclear magnetic resonance (NMR) are made in a model porous system before and after a biologically mediated precipitation reaction. Traditional magnetic resonance imaging (MRI)...
8.
Mitchell A, Dideriksen K, Spangler L, Cunningham A, Gerlach R
Environ Sci Technol
. 2010 Jun;
44(13):5270-6.
PMID: 20540571
The potential of microorganisms for enhancing carbon capture and storage (CCS) via mineral-trapping (where dissolved CO(2) is precipitated in carbonate minerals) and solubility trapping (as dissolved carbonate species in solution)...
9.
Komlos J, Cunningham A, Camper A, Sharp R
Biotechnol Bioeng
. 2005 Nov;
93(3):434-42.
PMID: 16315326
The long-term operation of bioremediation technologies relies on the success of the contaminant-degrading microorganism(s) to compete for available resources with microorganisms already present in an aquifer or those that may...