The effect of ammonia concentration on growth and physiology of a unicellular green alga, Chlorella vulgaris, was investigated. Growth occurred in all ammonia concentrations examined (10-1000 mg N l(-1)) although less growth was found in cultures containing either very low (10 mg N l(-1)) or very high (750 and 1000 mg N l(-1)) ammonia concentrations. At NH3-N concentrations between 20 and 250 mg N l(-1) there were no significant differences in specific growth rates and maximal cell densities attained. Growth in these media was comparable to growth in the commercial Bristol medium which contains nitrate as the nitrogen source. Higher chlorophyll and protein contents were found in cell cultures with higher ammonia concentrations. The algal gr...
International audienceChlorella vulgaris was grown using mixed sources of nitrogen (nitrate and nitr...
Algal biofuel production requires an input of synthetic nitrogen fertilizer. Fertilizer synthesized ...
The microscopic green alga, Chorella pyrenoidosa was grown in settled and activated sewage under two...
Microalgae assimilate different types of nitrogen by interacting in different areas. The interactive...
Microalgae are able to assimilate various types of nitrogen. The interaction of nitrogen on their re...
Although ammonium containing digestate is an ideal alternative medium for microalgae cultivation, hi...
Microalgae assimilate different types of nitrogen by interacting in different areas. The interactive...
Cyanobacteria are a very important group in aquatic systems, particularly in eutrophic waters. There...
ABSTRACT – (Effect of nitrate and ammonium on the growth and protein concentration of Microcystis vi...
Methods of extraction, changes in concentrations with growth, and effects of culture conditions on i...
In aquaculture practices, a large amount of water has to be exchanged frequently in order to maintai...
International audienceThe use of intensive microalgae cultivation for both wastewater treatment and ...
Microalgal biofuel technology provides the opportunity to recover nutrients from wastewater. Nitroge...
Microalgae represent a source of protein with potential applications in human and animal nutrition, ...
The effects of nitrate, ammonium, and urea as nitrogen sources on the heterotrophic growth of Chlore...
International audienceChlorella vulgaris was grown using mixed sources of nitrogen (nitrate and nitr...
Algal biofuel production requires an input of synthetic nitrogen fertilizer. Fertilizer synthesized ...
The microscopic green alga, Chorella pyrenoidosa was grown in settled and activated sewage under two...
Microalgae assimilate different types of nitrogen by interacting in different areas. The interactive...
Microalgae are able to assimilate various types of nitrogen. The interaction of nitrogen on their re...
Although ammonium containing digestate is an ideal alternative medium for microalgae cultivation, hi...
Microalgae assimilate different types of nitrogen by interacting in different areas. The interactive...
Cyanobacteria are a very important group in aquatic systems, particularly in eutrophic waters. There...
ABSTRACT – (Effect of nitrate and ammonium on the growth and protein concentration of Microcystis vi...
Methods of extraction, changes in concentrations with growth, and effects of culture conditions on i...
In aquaculture practices, a large amount of water has to be exchanged frequently in order to maintai...
International audienceThe use of intensive microalgae cultivation for both wastewater treatment and ...
Microalgal biofuel technology provides the opportunity to recover nutrients from wastewater. Nitroge...
Microalgae represent a source of protein with potential applications in human and animal nutrition, ...
The effects of nitrate, ammonium, and urea as nitrogen sources on the heterotrophic growth of Chlore...
International audienceChlorella vulgaris was grown using mixed sources of nitrogen (nitrate and nitr...
Algal biofuel production requires an input of synthetic nitrogen fertilizer. Fertilizer synthesized ...
The microscopic green alga, Chorella pyrenoidosa was grown in settled and activated sewage under two...