1. Effect of pluronic block polymers and N-acetylcysteine culture media additives on growth rate and fatty acid composition of six marine microalgae species
- Author
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Alyssa Joyce, Gary H. Wikfors, Xiaoxu Li, Koen Sabbe, Nancy Nevejan, Mark Gluis, and Justine Sauvage
- Subjects
0106 biological sciences ,Agriculture and Food Sciences ,Polymers ,Thalassiosira pseudonana ,Marine microalgae ,Growth medium formulation ,Biomass ,Poloxamer ,Live (aquaculture) feed ,01 natural sciences ,Applied Microbiology and Biotechnology ,03 medical and health sciences ,Aquaculture ,010608 biotechnology ,Microalgae ,Food science ,Pluronic block polymers ,030304 developmental biology ,0303 health sciences ,biology ,business.industry ,Chemistry ,Fatty Acids ,Methods and Protocols ,Biochemical composition ,Chaetoceros ,General Medicine ,Pacific oyster ,biology.organism_classification ,N-acetylcysteine ,Acetylcysteine ,Culture Media ,Productivity (ecology) ,Crassostrea ,business ,Biotechnology - Abstract
The efficiency of microalgal biomass production is a determining factor for the economic competitiveness of microalgae-based industries. N-acetylcysteine (NAC) and pluronic block polymers are two compounds of interest as novel culture media constituents because of their respective protective properties against oxidative stress and shear-stress-induced cell damage. Here we quantify the effect of NAC and two pluronic (F127 and F68) culture media additives upon the culture productivity of six marine microalgal species of relevance to the aquaculture industry (four diatoms-Chaetoceros calcitrans,Chaetoceros muelleri,Skeletonema costatum, andThalassiosira pseudonana; two haptophytes-Tisochrysis luteaandPavlova salina). Algal culture performance in response to the addition of NAC and pluronic, singly or combined, is dosage- and species-dependent. Combined NAC and pluronic F127 algal culture media additives resulted in specific growth rate increases of 38%, 16%, and 24% forC. calcitrans,C. muelleri, andP. salina, respectively. Enhanced culture productivity for strains belonging to the genusChaetoceroswas paired with an ~27% increase in stationary-phase cell density. For some of the species examined, culture media enrichments with NAC and pluronic resulted in increased omega-3-fatty acid content of the algal biomass. Larval development (i.e., growth and survival) of the Pacific oyster (Crassostrea gigas) was not changed when fed a mixture of microalgae grown in NAC- and F127-supplemented culture medium. Based upon these results, we propose that culture media enrichment with NAC and pluronic F127 is an effective and easily adopted approach to increase algal productivity and enhance the nutritional quality of marine microalgal strains commonly cultured for live-feed applications in aquaculture.Key points• Single and combined NAC and pluronic F127 culture media supplementation significantly enhanced the productivity of Chaetoceros calcitrans and Chaetoceros muelleri cultures.• Culture media enrichments with NAC and F127 can increase omega-3-fatty acid content of algal biomass.• Microalgae grown in NAC- and pluronic F127-supplemented culture media are suitable for live-feed applications.
- Published
- 2021
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