Abstract
Based on a biotechnological strategy, in the present work several peptones are produced from the Alcalase hydrolysis (0.1–0.2% v/w, 56–64 °C, pH 8.27–8.98, 3 h) and thermal processing (105 °C, 60 min) of wastes generated from the industrial processing of turbot, salmon, trout, seabream and seabass. These peptones were included (in the range of 2.6–11 g/L of soluble protein) as main source of organic nitrogen (protein substrates) in low-cost media for the culture of lactic acid bacteria (LAB), marine probiotic bacteria (MPB) and ubiquitous Gram+ bacteria. In most cases, batch fermentations conducted in aquaculture peptone media led to the best growth, metabolic productions and yields. Nevertheless, no significant differences between aquaculture peptones and commercial media were generally observed. Kinetic parameters from a logistic equation and used for cultures modeling were applied with the purpose of comparing the bioproduction outcomes. In economical terms, the validity of the aquaculture peptones as substitutives of the peptones (meat extract, casitone, etc.) from commercial media was also compared. The decreasing of the costs for LAB bioproductions ranged between 3–4 times and the growth costs of MPB and Gram+ bacteria were improved more than 70 and 15 times, respectively, in relation to those found in control commercial media.
Highlights
World aquaculture production, including aquatic plants, achieved 112 MT in 2017, exceeding 18 MT more than inland captured and marine fish [1,2]
Alcalase was selected as a biocatalyst because it is one of the commercial proteases most widely used in the hydrolysis of fish substrates due to its ease of application, cost-effectiveness, high activity and ability to digest several types of marine by-products [35,36,37,38,39]
The residual material generated from thermal peptone (TP) production, still rich in proteinaceous substrates, could be fBuiormtholeecrulhesy2d02r0o,l1y0s,i1s18o4r included as a source of fishmeal
Summary
World aquaculture production, including aquatic plants, achieved 112 MT in 2017, exceeding 18 MT more than inland captured and marine fish [1,2]. Several peptones obtained by enzymatic hydrolysis or by thermal processing of aquaculture by-products (head, viscera, trimmings + frames) have been studied as protein ingredients on alternative media for the growth of three kinds of bacteria: lactic acid bacteria (LAB), marine probiotic bacteria (MPB) and ubiquitous Gram+ bacteria. The economical evaluation of the bioproductions generated in the aquaculture peptones, in relation to the results in the control commercial media demonstrate the validity of this biotechnological approach to valorize fish farming wastes. This is the first manuscript dealing with the production and application of peptones from aquaculture wastes to the growth of several bacterial strains of technological interest
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
