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Barth F Smets

Showing results (11-20 of 186) with videos related to

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International Journal of Phytoremediation|March 21, 2017
Bacteria from wheat and cucurbit plant roots metabolize PAHs and aromatic root exudates: Implications for rhizodegradationCairn S Ely, Barth F Smets
Water Research|September 27, 2003
Comparison of a type curve and a least-squared errors method to estimate biofilm kinetic parametersR Guy Riefler, Barth F Smets
Microbial Biotechnology|September 15, 2017
Microbial biotechnologies for potable water productionS Jane Fowler, Barth F Smets
Water Research|April 12, 2014
Structure, composition, and strength of nitrifying membrane-aerated biofilmsCarles Pellicer-Nàcher, Barth F Smets
Current Opinion in Biotechnology|July 10, 2003
Elucidating the microbial component of natural attenuationBarth F Smets, P H Pritchard
Current Opinion in Biotechnology|April 13, 2019
Regulation of key N<sub>2</sub>O production mechanisms during biological water treatmentCarlos Domingo-Félez, Barth F Smets
Journal of Microbiological Methods|July 6, 2010
The Pressurized Porous Surface Model: an improved tool to study bacterial behavior under a wide range of environmentally relevant matric potentialsGamze Gülez, Arnaud Dechesne, Barth F Smets
Water Research|October 5, 2007
Heterotrophic activity compromises autotrophic nitrogen removal in membrane-aerated biofilms: results of a modeling studySusanne Lackner, Akihiko Terada, Barth F Smets
Biotechnology and Bioengineering|July 23, 2008
A critical comparison of extant batch respirometric and substrate depletion assays for estimation of nitrification biokineticsKartik Chandran, Zhiqiang Hu, Barth F Smets
Journal of Microbiological Methods|January 22, 2008
An improved cell recovery method for iron oxidizing bacterial (IOB) enrichmentsRan Yu, Joerg Graf, Barth F Smets
Pageof 19

Showing results (11-20 of 186) with videos related to

Sort By:
Pageof 19
International Journal of Phytoremediation|March 21, 2017
Bacteria from wheat and cucurbit plant roots metabolize PAHs and aromatic root exudates: Implications for rhizodegradationCairn S Ely, Barth F Smets
Water Research|September 27, 2003
Comparison of a type curve and a least-squared errors method to estimate biofilm kinetic parametersR Guy Riefler, Barth F Smets
Microbial Biotechnology|September 15, 2017
Microbial biotechnologies for potable water productionS Jane Fowler, Barth F Smets
Water Research|April 12, 2014
Structure, composition, and strength of nitrifying membrane-aerated biofilmsCarles Pellicer-Nàcher, Barth F Smets
Current Opinion in Biotechnology|July 10, 2003
Elucidating the microbial component of natural attenuationBarth F Smets, P H Pritchard
Current Opinion in Biotechnology|April 13, 2019
Regulation of key N<sub>2</sub>O production mechanisms during biological water treatmentCarlos Domingo-Félez, Barth F Smets
Journal of Microbiological Methods|July 6, 2010
The Pressurized Porous Surface Model: an improved tool to study bacterial behavior under a wide range of environmentally relevant matric potentialsGamze Gülez, Arnaud Dechesne, Barth F Smets
Water Research|October 5, 2007
Heterotrophic activity compromises autotrophic nitrogen removal in membrane-aerated biofilms: results of a modeling studySusanne Lackner, Akihiko Terada, Barth F Smets
Biotechnology and Bioengineering|July 23, 2008
A critical comparison of extant batch respirometric and substrate depletion assays for estimation of nitrification biokineticsKartik Chandran, Zhiqiang Hu, Barth F Smets
Journal of Microbiological Methods|January 22, 2008
An improved cell recovery method for iron oxidizing bacterial (IOB) enrichmentsRan Yu, Joerg Graf, Barth F Smets
Pageof 19