Marine yeast (Candida sake) cultured on herring brine side streams is a promising feed ingredient and omega-3 source for rainbow trout (Oncorhynchus mykiss)
Journal article, 2023

A major challenge for the aquaculture industry is the supply of sustainable feeds. A promising model to achieve this is to utilize circular flows where feed ingredients, such as single cell protein, are cultivated using side streams of the food industry. The aim of this study was to evaluate the marine yeast Candida sake, produced on herring brine side streams, as a source of protein and immune stimulant in feed for salmonid fish. The dry C. sake product contained 54% protein (3.3% lysine and 0.8% methionine) and 13% lipids (1.1% eicosapentaenoic, EPA, and 1% docosahexaenoic acid, DHA). Four experimental diets were designed and tested in a 9-week feeding trial using juvenile rainbow trout (Oncorhynchus mykiss). A control diet containing both fish and plant-based ingredients constituted the base feed to which 20% (to evaluate effects on digestibility, growth and intestinal physiology), 20% heat-treated (to evaluate effects of downstream processing) and 3% (to evaluate immune stimulatory properties, replacing 3% soy protein concentrate) C. sake was added. The apparent digestibility coefficient of C. sake for protein, fat and gross energy was above 80%, and for amino acids above 90% regardless of treatment, suggesting a high bioavailability of C. sake. All three yeast containing diets performed equally to the control regarding specific growth rate, feed conversion ratio and functional intestinal health. These results suggest that C. sake is a promising alternative protein source for circular feeds in the salmonid industry. The presence of EPA and DHA represents an added value. The heat treatment increased the apparent digestibility coefficient of dry matter by 8% but decreased amino acid digestibility by on average 3%, indicating that heat treatment may not be the optimal downstream processing technique. Furthermore, the inclusion of 3% C. sake increased the intestinal lamina propria width and TGF-β transcription, indicating an immune stimulating effect. Future research is needed to understand these immune modulatory effects of C. sake supplementation.

Aquafeed

Alternative protein

Circular economy

Intestinal health

Immune stimulation

Author

Niklas Warwas

University of Gothenburg

Jenny Veide Vilg

RISE Research Institutes of Sweden

Markus Langeland

Swedish University of Agricultural Sciences (SLU)

RISE Research Institutes of Sweden

University of Gothenburg

Jonathan A.C. Roques

University of Gothenburg

James Hinchcliffe

University of Gothenburg

Henrik Sundh

University of Gothenburg

Ingrid Undeland

University of Gothenburg

Chalmers, Life Sciences, Food and Nutrition Science

Kristina Sundell

University of Gothenburg

Aquaculture

0044-8486 (ISSN)

Vol. 571 739448

MareDura - Hållbart protein från marina råvaror

VINNOVA (2016-02153), 2016-10-07 -- 2018-10-07.

Subject Categories

Biochemistry and Molecular Biology

Food Science

Food Engineering

DOI

10.1016/j.aquaculture.2023.739448

More information

Latest update

4/13/2023