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W T Sloan

Explore the profile of W T Sloan including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 9
Citations 134
Followers 0
Related Specialties
Environmental Health
Biochemistry
Microbiology
Top 10 Co-Authors
T P Curtis
V R Phoenix
B Ramanan
W M Holmes
B Cheaib
H Haynes
S J Smith
J Dolfing
J C Baptista
M R Brown
Published In
Appl Environ Microbiol
Science
Environ Sci Technol
Bioprocess Biosyst Eng
Water Sci Technol
Affiliations
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Recent Articles
1.
Neutral Processes Dominate Microbial Community Assembly in Atlantic Salmon,
Heys C, Cheaib B, Busetti A, Kazlauskaite R, Maier L, Sloan W, et al.
Appl Environ Microbiol . 2020 Feb; 86(8). PMID: 32033945
In recent years, a wealth of studies has examined the relationships between a host and its microbiome across diverse taxa. Many studies characterize the host microbiome without considering the ecological...
2.
Coupled virus - bacteria interactions and ecosystem function in an engineered microbial system
Brown M, Baptista J, Lunn M, Swan D, Smith S, Davenport R, et al.
Water Res . 2019 Jan; 152:264-273. PMID: 30682570
Viruses are thought to control bacterial abundance, affect community composition and influence ecosystem function in natural environments. Yet their dynamics have seldom been studied in engineered systems, or indeed in...
3.
Turbulence accelerates the growth of drinking water biofilms
Tsagkari E, Sloan W
Bioprocess Biosyst Eng . 2018 Feb; 41(6):757-770. PMID: 29428998
Biofilms are found at the inner surfaces of drinking water pipes and, therefore, it is essential to understand biofilm processes to control their formation. Hydrodynamics play a crucial role in...
4.
Temperature, inocula and substrate: Contrasting electroactive consortia, diversity and performance in microbial fuel cells
Heidrich E, Dolfing J, Wade M, Sloan W, Quince C, Curtis T
Bioelectrochemistry . 2017 Sep; 119:43-50. PMID: 28910698
The factors that affect microbial community assembly and its effects on the performance of bioelectrochemical systems are poorly understood. Sixteen microbial fuel cell (MFC) reactors were set up to test...
5.
Quantifying the tensile strength of microbial mats grown over noncohesive sediments
Vignaga E, Haynes H, Sloan W
Biotechnol Bioeng . 2011 Dec; 109(5):1155-64. PMID: 22170239
Biofilms in marine and fluvial environments can comprise strong bacterial and diatom mats covering large areas of the bed and act to bind sediments. In this case the bed material...
6.
Investigation of nanoparticle transport inside coarse-grained geological media using magnetic resonance imaging
Ramanan B, Holmes W, Sloan W, Phoenix V
Environ Sci Technol . 2011 Nov; 46(1):360-6. PMID: 22091923
Quantifying nanoparticle (NP) transport inside saturated porous geological media is imperative for understanding their fate in a range of natural and engineered water systems. While most studies focus upon finer...
7.
Application of paramagnetically tagged molecules for magnetic resonance imaging of biofilm mass transport processes
Ramanan B, Holmes W, Sloan W, Phoenix V
Appl Environ Microbiol . 2010 May; 76(12):4027-36. PMID: 20435773
Molecules become readily visible by magnetic resonance imaging (MRI) when labeled with a paramagnetic tag. Consequently, MRI can be used to image their transport through porous media. In this study,...
8.
Towards the design of diversity: stochastic models for community assembly in wastewater treatment plants
Curtis T, Sloan W
Water Sci Technol . 2006 Aug; 54(1):227-36. PMID: 16898156
We believe that the engineering of wastewater treatment systems would be improved if we could predict and manipulate the composition, that is, the diversity of such systems. This ability would...
9.
Microbiology. Exploring microbial diversity--a vast below
Curtis T, Sloan W
Science . 2005 Aug; 309(5739):1331-3. PMID: 16123290
No abstract available.