Growth and phycocyanin synthesis in the heterotrophic microalga Galdieria sulphuraria on substrates made of food waste from restaurants and bakeries

[Display omitted] •Galdieria sulphuraria 074G can grow in restaurant and bakery waste hydrolysates.•Sugars and free amino acids are utilised as substrates.•Ammonium and inorganic nutrients are needed in order to maximise phycocyanin synthesis.•High concentrations of food waste hydrolysates inhibit g...

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Bibliographic Details
Published in:Bioresource technology 2017-08, Vol.238, p.296-305
Main Authors: Sloth, Jenni Katrine, Jensen, Henriette Casper, Pleissner, Daniel, Eriksen, Niels Thomas
Format: Article
Language:English
Subjects:
Bakery waste
Food
Heterotrophic Processes
Microalgae
Microalgal cultivation
Phycocyanin
Product formation
Refuse Disposal
Restaurant waste
Restaurants
Rhodophyta
Temperature
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Summary:[Display omitted] •Galdieria sulphuraria 074G can grow in restaurant and bakery waste hydrolysates.•Sugars and free amino acids are utilised as substrates.•Ammonium and inorganic nutrients are needed in order to maximise phycocyanin synthesis.•High concentrations of food waste hydrolysates inhibit growth.•Phycocyanin synthesis is stimulated at temperatures below what is optimal for growth. Galdieria sulphuraria 074G (Rhodophyta) was grown heterotrophically in defined medium and on amylolytic and proteolytic hydrolysed food waste from restaurants and bakeries. Substrate uptake, growth, and phycocyanin content were quantified in the cultures. The alga utilised carbohydrates and amino acids from the waste but ammonium and other inorganic nutrients were needed to stimulate phycocyanin synthesis. Highest specific phycocyanin contents (20–22mgg−1) were observed in cells grown at 25°C or 34°C on the food wastes. Growth inhibition was observed when the hydrolysates were used in quantities resulting in glucose concentrations of 10 and 50gL−1 for bakery and restaurant waste, respectively. Still, G. sulphuraria 074G grew and produced phycocyanin efficiently on food waste under adequate conditions and may potentially be utilised for synthesise of high-valuable products from food waste.
ISSN:0960-8524
1873-2976
DOI:10.1016/j.biortech.2017.04.043