Add to ORKGThis article analyzes how absorption of light by suspensions of phototrophic bacteria is modulated by changes in the biomass of the culture, the size of the culture vessel and by the presence of refractile structures within the cells. Increases in biomass and culture size result in higher rates of light absorption but in the decrease of the amount of energy available per cell. The presence of refractile structures has different consequences depending on the biomass concentration. In dense cultures, the accumulation of refractile structures increases the reflection of light, and also reduces specific light absorption. In diluted cultures, however, the effect is the opposite, and refractile structures seem to increase light absorption
International audienceThis paper aims to experimentally and directly validate a recent theoretical m...
Microalgae perform photosynthesis at a high efficiency under low light conditions. However, under br...
AbstractMicroalgae perform photosynthesis at a high efficiency under low light conditions. However, ...
International audienceThis study elucidates the effect of colony formation on light absorption by Bo...
International audienceLight attenuation in enriched purple phototrophic bacteria (PPB) cultures has ...
International audienceLight attenuation in purple phototrophic bacteria (PPB) has been studied. The ...
The influence of algal cell size on the light environment within dense phytoplankton populations was...
The availability of photosynthetic radiant energy within microalgae cultures is a primary factor det...
Characterization of the photic zone and light penetration depth in cultures with ultrahigh cell dens...
The application of biotechnology is increasing in areas such as agriculture, biochemistry or biomedi...
L'absorció com a mesura del creixement d'un cultiu és, generalment, un bon parime-tre. En ...
Algal cells are highly complex optical systems that can dynamically change their structure. Conseque...
Algae have been shown to be a promising source of potential biofuel, as well as other beneficial by ...
Citation: Blachly, Charles Dallas. The effects of sunlight on bacteria. Senior thesis, Kansas State ...
International audienceAn in-depth investigation of how various illumination conditions influence mic...
International audienceThis paper aims to experimentally and directly validate a recent theoretical m...
Microalgae perform photosynthesis at a high efficiency under low light conditions. However, under br...
AbstractMicroalgae perform photosynthesis at a high efficiency under low light conditions. However, ...
International audienceThis study elucidates the effect of colony formation on light absorption by Bo...
International audienceLight attenuation in enriched purple phototrophic bacteria (PPB) cultures has ...
International audienceLight attenuation in purple phototrophic bacteria (PPB) has been studied. The ...
The influence of algal cell size on the light environment within dense phytoplankton populations was...
The availability of photosynthetic radiant energy within microalgae cultures is a primary factor det...
Characterization of the photic zone and light penetration depth in cultures with ultrahigh cell dens...
The application of biotechnology is increasing in areas such as agriculture, biochemistry or biomedi...
L'absorció com a mesura del creixement d'un cultiu és, generalment, un bon parime-tre. En ...
Algal cells are highly complex optical systems that can dynamically change their structure. Conseque...
Algae have been shown to be a promising source of potential biofuel, as well as other beneficial by ...
Citation: Blachly, Charles Dallas. The effects of sunlight on bacteria. Senior thesis, Kansas State ...
International audienceAn in-depth investigation of how various illumination conditions influence mic...
International audienceThis paper aims to experimentally and directly validate a recent theoretical m...
Microalgae perform photosynthesis at a high efficiency under low light conditions. However, under br...
AbstractMicroalgae perform photosynthesis at a high efficiency under low light conditions. However, ...