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Production of lipid and carbohydrate from microalgae without compromising biomass productivities: role of Ca and Mg

Production of lipid and carbohydrate from microalgae without compromising biomass productivities: role of Ca and Mg
Production of lipid and carbohydrate from microalgae without compromising biomass productivities: role of Ca and Mg
We report the cultivation of Chlorella sorokiniana str. SLA-04 in media containing trace amounts of Ca and Mg. The differences in productivities of biomass, lipids and carbohydrates were assessed relative to cultures grown in standard media (BG-11) that contain approximately 8 × higher concentration of Ca and 30 × higher concentration of Mg. Culture performance in N-limited standard media was also investigated. In addition to growth and accumulation of storage products (lipid and carbohydrate), we measured the utilization of N, Ca and Mg and monitored changes in cell size and photosynthetic activity. Our results showed that limitation of Ca or Mg did not inhibit cell replication and culture growth. On the contrary, Ca-limited (CaL) limited cultures had ∼30% higher biomass productivity relative to the control with excessive nutrients possibly due to improvement in cell wall flexibility and cell division. We also observed that CaL and Mg-limited (MgL) cultures had nearly 3-fold higher lipid concentration (measured as fatty acid methyl ester) and 50% higher carbohydrate concentration than the nutrient excess control cultures. Simultaneous culture growth and lipid accumulation in CaL and MgL cultures suggest that de novo synthesis was the primary mechanism for lipid accumulation in Ca/Mg-limited media. Overall, our study demonstrates that micronutrient optimization, in addition to optimization of macronutrients, could significantly improve microalgal biorefinery yields.
Lipid, Algae, Biofuel, cultivation, micronutrient, biorefinery, Nutrient limitation, chlorella sorokiniana
0960-1481
989-997
Hanifzadeh, Mohammadmatin
3094f058-42f1-45fb-a920-0ab7acd5ee04
Cerdan Garcia, Elena
7171170a-2128-4369-87c3-cffddea2e414
Viamajala, Sridhar
4aeb8a93-e929-4411-8a39-ff1000c787bd
Hanifzadeh, Mohammadmatin
3094f058-42f1-45fb-a920-0ab7acd5ee04
Cerdan Garcia, Elena
7171170a-2128-4369-87c3-cffddea2e414
Viamajala, Sridhar
4aeb8a93-e929-4411-8a39-ff1000c787bd

Hanifzadeh, Mohammadmatin, Cerdan Garcia, Elena and Viamajala, Sridhar (2018) Production of lipid and carbohydrate from microalgae without compromising biomass productivities: role of Ca and Mg. Renewable Energy, 127, 989-997. (doi:10.1016/j.renene.2018.05.012).

Record type: Article

Abstract

We report the cultivation of Chlorella sorokiniana str. SLA-04 in media containing trace amounts of Ca and Mg. The differences in productivities of biomass, lipids and carbohydrates were assessed relative to cultures grown in standard media (BG-11) that contain approximately 8 × higher concentration of Ca and 30 × higher concentration of Mg. Culture performance in N-limited standard media was also investigated. In addition to growth and accumulation of storage products (lipid and carbohydrate), we measured the utilization of N, Ca and Mg and monitored changes in cell size and photosynthetic activity. Our results showed that limitation of Ca or Mg did not inhibit cell replication and culture growth. On the contrary, Ca-limited (CaL) limited cultures had ∼30% higher biomass productivity relative to the control with excessive nutrients possibly due to improvement in cell wall flexibility and cell division. We also observed that CaL and Mg-limited (MgL) cultures had nearly 3-fold higher lipid concentration (measured as fatty acid methyl ester) and 50% higher carbohydrate concentration than the nutrient excess control cultures. Simultaneous culture growth and lipid accumulation in CaL and MgL cultures suggest that de novo synthesis was the primary mechanism for lipid accumulation in Ca/Mg-limited media. Overall, our study demonstrates that micronutrient optimization, in addition to optimization of macronutrients, could significantly improve microalgal biorefinery yields.

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1-s2.0-S0960148118305317-main - Accepted Manuscript
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Accepted/In Press date: 3 May 2018
e-pub ahead of print date: 5 May 2018
Published date: November 2018
Keywords: Lipid, Algae, Biofuel, cultivation, micronutrient, biorefinery, Nutrient limitation, chlorella sorokiniana
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Identifiers

Local EPrints ID: 420987
URI: http://eprints.soton.ac.uk/id/eprint/420987
DOI: doi:10.1016/j.renene.2018.05.012
ISSN: 0960-1481
PURE UUID: a346113d-963c-4132-9459-c1298132aa93
ORCID for Elena Cerdan Garcia: ORCID iD orcid.org/0000-0002-0409-7722

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Date deposited: 21 May 2018 16:30
Last modified: 16 Mar 2024 06:39

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Contributors

Author: Mohammadmatin Hanifzadeh
Author: Elena Cerdan Garcia ORCID iD
Author: Sridhar Viamajala

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