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Daniel B. Oerther
Researcher at Missouri University of Science and Technology
Publications - 143
Citations - 3292
Daniel B. Oerther is an academic researcher from Missouri University of Science and Technology. The author has contributed to research in topics: Activated sludge & Population. The author has an hindex of 23, co-authored 133 publications receiving 3011 citations. Previous affiliations of Daniel B. Oerther include University of Illinois at Urbana–Champaign & University of South Florida.
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Journal ArticleDOI
The oligonucleotide probe database.
TL;DR: The Oligonucleotide Probe Database (OPD) is designed and modified to include multiple probe versions and also to provide additional identifying information, and a method of standardizing the nomenclature for oligon nucleotide probes and PCR primers that is both unambiguous and informative is suggested.
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Comparative fecal metagenomics unveils unique functional capacity of the swine gut.
Regina Lamendella,Regina Lamendella,Jorge W. Santo Domingo,Shreya Ghosh,John Martinson,Daniel B. Oerther,Daniel B. Oerther +6 more
TL;DR: The results from this metagenomic survey demonstrated the presence of genes associated with resistance to antibiotics and carbohydrate metabolism suggesting that the swine gut microbiome may be shaped by husbandry practices.
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Effect of Permeate Flux and Tangential Flow on Membrane Fouling for Wastewater Treatment
TL;DR: In this paper, the effect of tangential flow and crossflow on membrane fouling was analyzed by the resistance-in-series model where the reason for flux decline was subdivided into adsorption, concentration polarization, and reversible and irreversible fouling.
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Influence of cross-flow velocity on membrane performance during filtration of biological suspension
TL;DR: In this paper, the influence of cross-flow velocity on the formation of fouling layer during microfiltration and ultrafiltration of biological suspension with 5 g/l of mixed liquor suspended solids was studied.
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Use of 16S rRNA Gene Terminal Restriction Fragment Analysis To Assess the Impact of Solids Retention Time on the Bacterial Diversity of Activated Sludge
TL;DR: Terminal restriction fragment length polymorphism analysis of 16S rRNA genes was used to investigate the reproducibility and stability in the bacterial community structure of laboratory-scale sequencing batch bioreactors and to assess the impact of solids retention time (SRT) on bacterial diversity.