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D B Nedwell

Showing results (1-10 of 24) with videos related to

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Antonie Van Leeuwenhoek|January 1, 1980
Serological characteristics within the genus DesulfovibrioH Abdollahi, D B Nedwell
Applied and Environmental Microbiology|June 1, 1994
Influence of changing temperature on growth rate and competition between two psychrotolerant Antarctic bacteria: competition and survival in non-steady-state temperature environmentsM Rutter, D B Nedwell
Microbial Ecology|November 16, 2013
Seasonal temperature as a factor influencing bacterial sulfate reduction in a saltmarsh sedimentH Abdollahi, D B Nedwell
Applied and Environmental Microbiology|June 1, 1994
Influence of temperature on growth rate and competition between two psychrotolerant Antarctic bacteria: low temperature diminishes affinity for substrate uptakeD B Nedwell, M Rutter
Archives of Microbiology|April 27, 1978
Hydrogen as a substrate for methanogenesis and sulphate reduction in anaerobic saltmarsh sedimentJ W Abram, D B Nedwell
Archives of Microbiology|April 27, 1978
Inhibition of methanogenesis by sulphate reducing bacteria competing for transferred hydrogenJ W Abram, D B Nedwell
Microbial Ecology|November 16, 2013
Relative influence of temperature and electron donor and electron acceptor concentrations on bacterial sulfate reduction in saltmarsh sedimentD B Nedwell, J W Abram
Microbial Ecology|November 15, 2013
Hydrogen as an electron donor for sulfate-reducing bacteria in slurries of salt marsh sedimentD B Nedwell, I M Banat
The Journal of Applied Bacteriology|April 1, 1984
A note on 'plotless' methods for estimating bacterial cell densitiesD Roser, D B Nedwell, A Gordon
Applied and Environmental Microbiology|February 1, 1995
Capacity for methane oxidation in landfill cover soils measured in laboratory-scale soil microcosmsD Kightley, D B Nedwell, M Cooper
Pageof 3

Showing results (1-10 of 24) with videos related to

Sort By:
Pageof 3
Antonie Van Leeuwenhoek|January 1, 1980
Serological characteristics within the genus DesulfovibrioH Abdollahi, D B Nedwell
Applied and Environmental Microbiology|June 1, 1994
Influence of changing temperature on growth rate and competition between two psychrotolerant Antarctic bacteria: competition and survival in non-steady-state temperature environmentsM Rutter, D B Nedwell
Microbial Ecology|November 16, 2013
Seasonal temperature as a factor influencing bacterial sulfate reduction in a saltmarsh sedimentH Abdollahi, D B Nedwell
Applied and Environmental Microbiology|June 1, 1994
Influence of temperature on growth rate and competition between two psychrotolerant Antarctic bacteria: low temperature diminishes affinity for substrate uptakeD B Nedwell, M Rutter
Archives of Microbiology|April 27, 1978
Hydrogen as a substrate for methanogenesis and sulphate reduction in anaerobic saltmarsh sedimentJ W Abram, D B Nedwell
Archives of Microbiology|April 27, 1978
Inhibition of methanogenesis by sulphate reducing bacteria competing for transferred hydrogenJ W Abram, D B Nedwell
Microbial Ecology|November 16, 2013
Relative influence of temperature and electron donor and electron acceptor concentrations on bacterial sulfate reduction in saltmarsh sedimentD B Nedwell, J W Abram
Microbial Ecology|November 15, 2013
Hydrogen as an electron donor for sulfate-reducing bacteria in slurries of salt marsh sedimentD B Nedwell, I M Banat
The Journal of Applied Bacteriology|April 1, 1984
A note on 'plotless' methods for estimating bacterial cell densitiesD Roser, D B Nedwell, A Gordon
Applied and Environmental Microbiology|February 1, 1995
Capacity for methane oxidation in landfill cover soils measured in laboratory-scale soil microcosmsD Kightley, D B Nedwell, M Cooper
Pageof 3