Add to ORKGBacterial respiration of bacteria passing a 70 micron mesh. Based on bacterial growth efficiency determined empirically on bacteria production and oxygen depletion on microbes passing a 1 micron mesh. All samples from integrated sample of epilimnion to thermocline or 12 meters, which ever was more shallow. Method based on Roland, F. and J. J. Cole. 1999. Regulation of bacterial growth efficiency in a large turbid estuary. Aquatic Microbial Ecology 20:31-38Sampling Frequency: fortnightly during ice-free season - every 6 weeks during ice-covered seasonNumber of sites:
The growth rate and losses of bacterioplankton in the epilimnion of an oligo-mesotrophic reservoir w...
In freshwater environments, limited data exist on the impact of mortality forces (viruses and hetero...
Heterotrophic bacteria transform organic matter by respiration and production of new biomass. Becaus...
Bacterial respiration contributes to atmospheric carbon dioxide accumulation and development of hypo...
Flow cytometric determinations of membrane integrity, nucleic acid content, and respiratory activity...
Accurate estimates of bacterial carbon metabolic rates are indispensable for understanding the regul...
The “seawater culture ” approach is evaluated as a means of observing changes in cell numbers over t...
International audienceIn freshwater environments, limited data exist on the impact of mortality forc...
ABSTRACT: We measured bacterial abundance and productivity, along with other biological, chemical, a...
Food-web processes are important controls of oceanic biogenic carbon flux and ocean-atmosphere carbo...
Across a series of nine lakes that ranged from ultraoligotrophic to eutrophic, bacterial production ...
International audienceRespiration in marine bacteria (fraction <0.6 µm) was investigated in 5 distin...
Bacterial growth, abundance, and grazing were measured simultaneously during a full seasonal cycle i...
Heterotrophic bacteria perform two major functions in the transformation of or-ganic matter: They pr...
Net production of bacteria passing a 70 micron mesh, or bacteria passing a 1 micron mesh, calculated...
The growth rate and losses of bacterioplankton in the epilimnion of an oligo-mesotrophic reservoir w...
In freshwater environments, limited data exist on the impact of mortality forces (viruses and hetero...
Heterotrophic bacteria transform organic matter by respiration and production of new biomass. Becaus...
Bacterial respiration contributes to atmospheric carbon dioxide accumulation and development of hypo...
Flow cytometric determinations of membrane integrity, nucleic acid content, and respiratory activity...
Accurate estimates of bacterial carbon metabolic rates are indispensable for understanding the regul...
The “seawater culture ” approach is evaluated as a means of observing changes in cell numbers over t...
International audienceIn freshwater environments, limited data exist on the impact of mortality forc...
ABSTRACT: We measured bacterial abundance and productivity, along with other biological, chemical, a...
Food-web processes are important controls of oceanic biogenic carbon flux and ocean-atmosphere carbo...
Across a series of nine lakes that ranged from ultraoligotrophic to eutrophic, bacterial production ...
International audienceRespiration in marine bacteria (fraction <0.6 µm) was investigated in 5 distin...
Bacterial growth, abundance, and grazing were measured simultaneously during a full seasonal cycle i...
Heterotrophic bacteria perform two major functions in the transformation of or-ganic matter: They pr...
Net production of bacteria passing a 70 micron mesh, or bacteria passing a 1 micron mesh, calculated...
The growth rate and losses of bacterioplankton in the epilimnion of an oligo-mesotrophic reservoir w...
In freshwater environments, limited data exist on the impact of mortality forces (viruses and hetero...
Heterotrophic bacteria transform organic matter by respiration and production of new biomass. Becaus...