Seafood shells rich in nutrients, new research reveals

Crayfish
Crayfish
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As exploitation of wild fisheries and marine environments threatens food supplies, Flinders University scientists are finding sustainable new ways to convert biowaste, algal biomass, and even beached seaweed into valuable dietary proteins and other products.

In one of several projects under way at the Flinders Centre for Marine Bioproducts Development, researchers are looking to extract value from crayfish shells and other marine waste via a "green" fluidic processing machine developed at the university.

Professor Kirsten Heimann says millions of tonnes of sea catches produce bycatch, shells, bones, heads, and other parts wasted during the processing of marine and freshwater species.

Professor Heimann adds that, as world populations grow, so will demand for dietary proteins and protein-derived products, but this demand cannot be met using traditional sources of protein.

Seafood processing by-products (SPBs) and microalgae are promising resources that can fill the demand gap for proteins and protein derivatives, as stated in a new publication.

Trung Nguyen, a co-author of the publication, said that these biomaterials are a rich source of proteins with high nutritional quality while protein hydrolysates and biopeptides derived from these marine proteins possess several useful bioactivities for commercial applications in multiple industries.

Value-adding also looks promising with many of the bioactive protein-derived products gaining attention to promote human health including in drug discovery, nutraceutical, and pharmaceutical developments. Estimates of the commercial value of these therapeutic protein-based products in 2015 was US$174.7 billion and is predicted to reach US$266.6 billion in 2021, leading to a two-fold increase in demand of protein-derived products.

Globally, 32 million tonnes of SPBs are estimated to be produced annually which represents an inexpensive resource for protein recovery while technical advantages in microalgal biomass production would yield secure protein supplies with minimal competition for arable land and freshwater resources.

The comprehensive review article analyses the potential of using SPBs and microalgae for protein recovery and production critically assessing the feasibility of current and emerging technologies used for the process development.

The nutritional quality, functionalities, and bioactivities of the extracted proteins and derived products together with their potential applications for commercial product development are also systematically summarised and discussed in the free online paper. The article, Protein Recovery from Underutilised Marine Bioresources for Product Development with Nutraceutical and Pharmaceutical Bioactivities (2020) by Trung T Nguyen, Kirsten Heimann, and Wei Zhang, has been published in Marine Drugs, 2020.

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