Kinetics and modeling of microalga Tetraselmis sp. FTC 209 growth with respect to its adaptation toward different trophic conditions

•Baranyi–Roberts model was statistically accepted to estimate the algal kinetic parameter values.•Walne's medium was redesigned via elemental balance to support higher density autotrophic growth.•New W-30 medium achieved Xmax of 1.505g/L and Pmax of 376mg/L, a 1.8 and 3.7-fold over Walne's...

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Bibliographic Details
Published in:Biochemical engineering journal 2014-07, Vol.88, p.30-41
Main Authors: Mohamed, Mohd Shamzi, Tan, Joo Shun, Kadkhodaei, Saeid, Mohamad, Rosfarizan, Mokhtar, Mohd Noriznan, Ariff, Arbakariya B.
Format: Article
Language:English
Subjects:
Biological and medical sciences
Biotechnology
Elemental balance
Fundamental and applied biological sciences. Psychology
Growth kinetics
Heterotrophic
Microalgae
Mixotrophic
Modeling
Photoautotrophic
Tetraselmis
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Summary:•Baranyi–Roberts model was statistically accepted to estimate the algal kinetic parameter values.•Walne's medium was redesigned via elemental balance to support higher density autotrophic growth.•New W-30 medium achieved Xmax of 1.505g/L and Pmax of 376mg/L, a 1.8 and 3.7-fold over Walne's basal.•Tetraselmis sp. FTC 209 favors mixotrophic over heterotrophic for cell growth and lipid production.•W-30 medium added with 30g/L glucose gave productivity of 404mg dcw/L/day and 90.9mg lipid/L/day. Biomass and lipid production of microalga, Tetraselmis sp. FTC 209, isolated from local coastal waters was evaluated for photoautotrophic, mixotrophic and heterotrophic metabolism. Four non-linear growth models (logistic, logistic with lag, modified Gompertz, Baranyi–Roberts) were assessed for prediction of culture performance. Using statistical criteria, the Baranyi–Roberts model was chosen to estimate the growth kinetics values. Walne's mariculture medium was redesigned based on the concept of elemental balance to support higher density photoautotrophic growth. Biomass capacity of at least 100% was fixed for all micronutrient components while a sequential increase of 10% was imposed on deficient macronutrients. Results indicate that the new medium (W-30) managed to achieve a maximum cell concentration (Xmax) of 1.505g/L and maximum lipid content (Pmax) of 376mg/L (∼25% of dry cell weight), representing 1.8 and 3.7-fold improvements, respectively, relative to Walne's basal. Light and dark cultivations with glucose supplementation revealed that Tetraselmis sp. FTC 209 favors mixotrophic over heterotrophic mode in terms of cell growth and lipid production. Compared with the baseline photoautotrophic W-30 medium, cultivation with addition of 30g/L glucose produced the highest Xmax at 8.08g dry cell weight/L. This effectively provides significant algal biomass and lipid productivity of 404mg dry cell weight/L per day and 90.9mg lipid/L per day, respectively.
ISSN:1369-703X
1873-295X
DOI:10.1016/j.bej.2014.04.002