Elemental composition of the cyanobacterium <i>Anabaena flos-aquae</i> collected from different depths within a stratified lake

Sigee, David C.; Teper, J.; Levado, E.

doi:10.1080/09541449910001718831

Cited by 12 publications

(5 citation statements)

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“…% of K and 0.8 dry wt. % of P [36]. These values suggest that the culture of A. cylindrica in the BG-11(-N) medium would be limited in P and K at mass concentrations of 0.825 and 1.583 kg∕m 3 , respectively.…”

Section: A Cultivation and Sample Preparationmentioning

confidence: 87%

Radiation characteristics and optical properties of filamentous cyanobacterium Anabaena cylindrica

2014

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This study presents experimental measurements of the absorption and scattering cross sections and the spectral complex index of refraction of filamentous cyanobacteria. Filamentous heterocystous cyanobacterium Anabaena cylindrica was chosen as a model organism. Its filaments consisted of long chains of polydisperse cells. Their average mass scattering and absorption cross sections were measured from 400 to 750 nm at four different times during their batch growth in medium BG-11(-N) under 3000 lux of white fluorescent light. The effective real (or refraction index) and imaginary (or absorption index) parts of the complex index of refraction were retrieved using an inverse method based on a genetic algorithm. The microorganisms were modeled as infinitely long and randomly oriented volume-equivalent cylinders. The absorption index featured peaks corresponding to chlorophyll a (Chl a) at 436 and 676 nm and phycocyanin (PCCN) at 630 nm and a shoulder around 480 nm, corresponding to photoprotective carotenoids. The absorption peaks of Chl a and PCCN concentrations increased and the shoulder due to carotenoids decreased in response to photolimitation caused by biomass growth. Subsequent nitrogen limitation caused the PCCN absorption peak to decrease significantly due to degradation of PCCN as an endogenous source of nitrogen for nitrogenase maintenance and synthesis, as confirmed by increasing heterocyst differentiation. The results can be used for predicting and optimizing light transfer in photobioreactors for wastewater treatment and ammonia or biofuel production.

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Section: A Cultivation and Sample Preparationmentioning

confidence: 87%

Radiation characteristics and optical properties of filamentous cyanobacterium Anabaena cylindrica

2014

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“…Table 1 compares the elemental compositions of 14 different cyanobacterial species to that of the nutrient medium BG11. 23,[40][41][42][43][44] The table indicates that, from an elemental analysis perspective, cyanobacteria growing in BG11 will first exhaust the available phosphorous before exhausting any other macronutrient present therein. Moreover, it was evident that the micronutrients Fe, Mn, Zn, Mo, Cu, and Co would not be growth-limiting as BG11 is replete with these elements with respect to algal biomass composition.…”

Section: Mass Transport Modelmentioning

confidence: 99%

“…These yields assume a cyanobacterial stoichiometry of C 159 H 263 O 63 N 20 P 1 K 0.94 Mg 0.38 S 0.39 Ca 0.54 . [40][41][42][43][44]51,52 Moreover, the maximum specific growth rate l max was 4.2 3 10 25 s 21 and the half-saturation and inhibition constants for irradiance, K S;G and K I;G were 38 W/m 2 and 400 W/m 2 , respectively. 54,55 Finally, the relative maximum growth rate and minimum intracellular phosphate mass fraction required for growth, l Ã max and k q , were 0.24 and 2.7 mg P/g DW.…”

Section: Mass Transport Modelmentioning

confidence: 99%

“…The nutrients whose availabilities were most likely to limit growth were identified. Table compares the elemental compositions of 14 different cyanobacterial species to that of the nutrient medium BG11 , . The table indicates that, from an elemental analysis perspective, cyanobacteria growing in BG11 will first exhaust the available phosphorous before exhausting any other macronutrient present therein.…”

Section: Modeling Analysismentioning

confidence: 99%

“…The table also presents the biomass yields based on consumption of each nutrient,

Y_{X / i}

. These yields assume a cyanobacterial stoichiometry of C 159 H 263 O 63 N 20 P 1 K 0.94 Mg 0.38 S 0.39 Ca 0.54 . Moreover, the maximum specific growth rate

μ_{max}

was 4.2 × 10 −5 s −1 and the half‐saturation and inhibition constants for irradiance,

K_{S, G}

and

K_{I, G}

were 38 W/m 2 and 400 W/m 2 , respectively .…”

Section: Modeling Analysismentioning

confidence: 99%

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Flux balancing of light and nutrients in a biofilm photobioreactor for maximizing photosynthetic productivity

Murphy

Berberoğlu

2014

Biotechnology Progress

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This article reports a combined experimental and numerical study on the efficient operation of Porous Substrate Bioreactors. A comprehensive model integrating light transport, mass transport, and algal growth kinetics was used to understand the productivity of photosynthetic biofilms in response to delivery rates of photons and nutrients. The reactor under consideration was an evaporation driven Porous Substrate Bioreactor (PSBR) cultivating the cyanobacteria Anabaena variabilis as a biofilm on a porous substrate which delivers water and nutrients to the cells. In an unoptimized experimental case, this reactor was operated with a photosynthetic efficiency of 2.3%, competitive with conventional photobioreactors. Moreover, through a scaling analysis, the location at which the phosphate delivery rate decreased the growth rate to half of its uninhibited value was predicted as a function of microorganism and bioreactor properties. The numerical model along with the flux balancing techniques presented herein can serve as tools for designing and selecting operating parameters of biofilm based cultivation systems for maximum productivity.

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2010

Freshwater Algae

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Elemental composition of the cyanobacterium Anabaena flos-aquae collected from different depths within a stratified lake

Cited by 12 publications

References 0 publications

Radiation characteristics and optical properties of filamentous cyanobacterium Anabaena cylindrica

Radiation characteristics and optical properties of filamentous cyanobacterium Anabaena cylindrica

Flux balancing of light and nutrients in a biofilm photobioreactor for maximizing photosynthetic productivity

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