Evaluation of the potential of Chlorella sp. HS2, an algal isolate from a tidal rock pool, as an industrial algal crop under a wide range of abiotic conditions

Evaluation of the potential of Chlorella sp. HS2, an algal isolate from a tidal rock pool, as an industrial algal crop under a wide range of abiotic conditions

While the screening and development of robust algal crops have mostly focused on determining strains that exhibit the highest possible yields of biomass or desirable biomolecules, these criteria do not necessarily lead to finding algal strains with high tolerance to varying outdoor cultivation condi...

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Bibliographic Details
Published in:Journal of applied phycology Vol. 31; no. 4; pp. 2245 - 2258
Main Authors: Yun, Jin-Ho, Cho, Dae-Hyun, Heo, Jina, Lee, Yong Jae, Lee, Bongsoo, Chang, Yong Keun, Kim, Hee-Sik
Format: Journal Article
Language:English
Published: Dordrecht Springer Netherlands 01-08-2019
Springer Nature B.V
Subjects:
Algae
Algal growth
Bicarbonates
Biochemical composition
Biomass
Biomedical and Life Sciences
Biomolecules
Carbon dioxide
Carbon sources
Carotene
Carotenoids
Chlorella
Coastal waters
Crops
Cultivation
Ecology
Esters
Evaluation
Fatty acid methyl esters
Fatty acids
Flue gas
Freshwater & Marine Ecology
Growth rate
Life Sciences
Lutein
Microalgae culture
Microbiological strains
Mixotrophy
Organic carbon
Palmitic acid
pH effects
Plant Physiology
Plant Sciences
Rocks
Salinity
Salinity effects
Sodium
Sodium bicarbonate
Sodium chloride
Supplements
Temperature
Temperature effects
Wastewater
Wastewater treatment
Carotenoids
FAME
sp. HS2
Chlorophyta
Strain isolation
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Summary:While the screening and development of robust algal crops have mostly focused on determining strains that exhibit the highest possible yields of biomass or desirable biomolecules, these criteria do not necessarily lead to finding algal strains with high tolerance to varying outdoor cultivation conditions. Herein, we report Chlorella sp. HS2 isolated from a tidal rock pool nearby a local coastal waterfall that presumably experienced fluctuations in salinity, pH, and temperature. Compared to two reference strains, Chlorella sp. HS2 exhibited relatively high tolerance to a wide range of salinity (0–5% ( w / v ) of supplemental NaCl), pH (3.0–10.5), and temperature (14–46 °C) with substantially high biomass accumulation. While the supplementation of either gaseous CO 2 or sodium bicarbonate enhanced algal growth, the mixotrophic and heterotrophic cultivations of Chlorella sp. HS2 further indicated its propensity to grow favorably under the presence of organic carbon sources. Subsequent PBR cultivation of Chlorella sp. HS2 under optimal light and/or temperature conditions suggested the highest specific growth rate during mixotrophy, while the analyses of the harvested biomass identified palmitate, oleate, and linoleate as major fatty acid methyl esters, and lutein and ß-carotene as predominant carotenoids. Substantially, high growth rates of Chlorella sp. HS2 under a wide range of abiotic conditions and different trophic modes with favorable biochemical composition thus strongly support our algal isolate as a robust and reliable algal crop that can be deployed to achieve high production of commercially important biomolecules and to incorporate simultaneous treatment of wastewater or CO 2 -replete flue gas into algal cultivation.
ISSN:0921-8971
1573-5176
DOI:10.1007/s10811-019-1751-z