Modeling growth and photosynthetic response in Arthrospira platensis as function of light intensity and glucose concentration using factorial design

Rym, Ben Dhiab; Nejeh, Ghenim; Trabelsi, Lamia; Yahia, Abdelouahab; Challouf, Rafika; Ghozzi, Khémissa; Ammar, Jihene; Hela, Omrane; Ouada, Hatem Ben

doi:10.1007/s10811-010-9515-9

Cited by 28 publications

(12 citation statements)

References 24 publications

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“…Organic carbon sources are expected to reduce CO 2 fixation through photosynthesis. In such scenario, while cell division increases, the metabolic cost of respiration may exceed the gain from photosynthesis (Liu et al, 2009;Rym et al, 2010). Photosynthetic microorganisms can use glucose in their metabolism as the final production of photosynthesis.…”

Section: Discussionmentioning

confidence: 99%

Lipid production in Dunaliella bardawil under autotrophic, heterotrophic and mixotrophic conditions

Chavoshi

Shariati

2019

Braz. j. oceanogr.

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Lipid production in Dunaliella bardawil under autotrophic, heterotrophic and mixotrophic conditions Many microalgae are rich in lipid. Due to their low growth rates in the autotrophic culture, the best alternative is to cultivate cells under different conditions such as heterotrophic or mixotrophic, which results in the highest yield of biomass and lipid in the shortest duration. In this study, Dunaliela bardawil (UTEX 2538) green microalgae was cultivated under different culture conditions, autotrophic, heterotrophic and mixotrophic, and effects on cell concentration, lipid production and reactive oxygen species (ROS), total chlorophyll and beta-carotene concentrations were investigated. Due to very low cellular growth, this alga is not recommended for heterotrophic culture. In terms of mixotrophic conditions containing different concentrations of glucose or acetate, the highest cell growth and lipid production in 60mM glucose was similar to the control (autotrophic condition), while the concentrations of chlorophyll and beta-carotene decreased. However, at all concentrations of acetate, a slight increase in cell growth was achieved, while the lipid content decreased. Additionally, the concentrations of chlorophyll and beta-carotene increased. A positive correlation was observed between beta-carotene biosynthesis and lipid production, as well as levels of reactive species of oxygen and lipid production in the presence of glucose and acetate. This study showed that for D. bardawil the mixotrophic culture with 60mM glucose was the most suitable type of culture for increasing lipid content and cell growth rates in less time (one week).

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Section: Discussionmentioning

confidence: 99%

Lipid production in Dunaliella bardawil under autotrophic, heterotrophic and mixotrophic conditions

Chavoshi

Shariati

2019

Braz. j. oceanogr.

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“…Mixotrophic cultivation of A. platensis results in higher overall biomass production in any light intensity used compared to autotrophic and heterotrophic cultures (4 klux for (Chen, 1996 ); below 150 μmol m −2 s −1 for (Vonshak et al, 2000 )). Indeed, the maximal biomass yield was 2.3 times greater in mixotrophic conditions under 150 μmol m −2 s −1 light intensity (Rym et al, 2010 ). The results showed that the amount of biomass obtained under mixotrophic conditions was a result of the combined response of cyanobacterium to light and organic carbon source—glucose.…”

Section: Cultivation Methodsmentioning

confidence: 99%

“…Mixotrophic cultures also have lower light requirements, higher oversaturation levels and can recover quicker from light stresses than autotrophic cultures (Vonshak et al, 2000 ). Under lower illumination, glucose has a low influence on the maximal biomass concentration and growth rate (Rym et al, 2010 ).…”

Section: Cultivation Methodsmentioning

confidence: 99%

Edible Cyanobacterial Genus Arthrospira: Actual State of the Art in Cultivation Methods, Genetics, and Application in Medicine

et al. 2017

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The cyanobacterial genus Arthrospira appears very conserved and has been divided into five main genetic clusters on the basis of molecular taxonomy markers. Genetic studies of seven Arthrospira strains, including genome sequencing, have enabled a better understanding of those photosynthetic prokaryotes. Even though genetic manipulations have not yet been performed with success, many genomic and proteomic features such as stress adaptation, nitrogen fixation, or biofuel production have been characterized. Many of above-mentioned studies aimed to optimize the cultivation conditions. Factors like the light intensity and quality, the nitrogen source, or different modes of growth (auto-, hetero-, or mixotrophic) have been studied in detail. The scaling-up of the biomass production using photobioreactors, either closed or open, was also investigated to increase the production of useful compounds. The richness of nutrients contained in the genus Arthrospira can be used for promising applications in the biomedical domain. Ingredients such as the calcium spirulan, immulina, C-phycocyanin, and γ-linolenic acid (GLA) show a strong biological activity. Recently, its use in the fight against cancer cells was documented in many publications. The health-promoting action of “Spirulina” has been demonstrated in the case of cardiovascular diseases and age-related conditions. Some compounds also have potent immunomodulatory properties, promoting the growth of beneficial gut microflora, acting as antimicrobial and antiviral. Products derived from Arthrospira were shown to successfully replace biomaterial scaffolds in regenerative medicine. Supplementation with the cyanobacterium also improves the health of livestock and quality of the products of animal origin. They were also used in cosmetic preparations.

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“…Spirulina platensis is a microalgae that can produce vast amounts of high pharmaceutical value products such as phycocyanin [1]. Microalgae has been recently found to be able to manage organic carbon nutrients (i.e., glucose and acetate) for the mixotrophic growth and production, where it has shown that this type of multimetabolically sourced culture significantly increases biomass production [2]. However, the excess of microalgae growth becomes a problem in rivers, lakes, and basins in general because such excess is an indirect measure of the level of pollution and eutrophication [3].…”

Section: Introductionmentioning

confidence: 99%

“…Also, we propose an HG-robust observer to estimate unknown disturbances; this estimation in nonlinear PI control plus compensation (robust PI control) is used to ensure a predefined optimal trajectory. This system is evaluated employing simulations with a nonlinear model and experimental results about S. platensis mixotrophic culture as a function of light intensity and glucose concentration [2,20,21].…”

Section: Introductionmentioning

confidence: 99%

A turbidity sensor development based on NL-PI observers: Experimental application to the control of a Sinaloa’s River Spirulina maxima cultivation

et al. 2020

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This article addresses the problem of controlling the growth of microalgae originating in Mexican rivers, especially in the state of Sinaloa, Culiacan River. For this purpose, a robust, high-gain nonlinear observer is proposed to estimate the unknown disturbance in the cultivation of mixotrophic microalgae with the presence of organic nutrients. Once a perturbation function related to the change of ambient light is estimated, an output feedback control for the photobioreactor is proposed, in which through Lyapunov’s convergence functions, the final boundary stability conditions are obtained. Thus, a turbidity sensor was designed for Spirulina platensis, a native microalgae of Culiacan River, which is presented using the MATLAB-Arduino programming environment. This sensor is calibrated using biomass culture and is a low-cost device. Through the numerical study, the feasibility and performance of the control and the observer are evaluated. Finally, real-time experimental evaluations are made based on the literature, studying the use of robust controllers in a photobioreactor with a mixed culture, in the presence of environmental changes in lighting.

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Modeling growth and photosynthetic response in Arthrospira platensis as function of light intensity and glucose concentration using factorial design

Cited by 28 publications

References 24 publications

Lipid production in Dunaliella bardawil under autotrophic, heterotrophic and mixotrophic conditions

Lipid production in Dunaliella bardawil under autotrophic, heterotrophic and mixotrophic conditions

Edible Cyanobacterial Genus Arthrospira: Actual State of the Art in Cultivation Methods, Genetics, and Application in Medicine

A turbidity sensor development based on NL-PI observers: Experimental application to the control of a Sinaloa’s River Spirulina maxima cultivation

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