Algal protein-based 3D-printed fish-analogs as a new approach for sustainable seafood
Rising global demand for animal-products exceeds human-population growth. This unsustainable trend causes harmful ecological effects. Overfishing causes extinction of aquatic animals and a dangerous biodiversity loss harming aquatic ecosystems. Hence, replacing animal-based food, particularly beef a...
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| Format: | Article |
| Language: | English |
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Elsevier
2024-01-01
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| Series: | Current Research in Food Science |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2665927124002314 |
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| author | Samaa Alasibi Meital Kazir Álvaro Israel Yoav D. Livney |
| author_facet | Samaa Alasibi Meital Kazir Álvaro Israel Yoav D. Livney |
| author_sort | Samaa Alasibi |
| collection | DOAJ |
| description | Rising global demand for animal-products exceeds human-population growth. This unsustainable trend causes harmful ecological effects. Overfishing causes extinction of aquatic animals and a dangerous biodiversity loss harming aquatic ecosystems. Hence, replacing animal-based food, particularly beef and fish, with sustainable alternatives is an urgent vital global mission. Analogs of animal-based products include plant-based, tissue-culture-based and fermentation-based products. Fish analogs have mainly been based on plant-protein, fungi, tissue-culture, but to our knowledge, fish analogs made of algae, particularly macroalgae, as the major component and protein-source have not been reported. 3D-food-printing is a fast-developing technology, enabling formation of complex three-dimensional structures with various heterogeneous topologies and tailorable compositions. Herein, we report the co-extraction of proteins and polysaccharides from the red marine-macroalgae Gracilaria cornea, and using the extract in injection-based 3D-printing to form prototypes of salmon-fillet. Two bioinks were used: a red bioink dyed with microalgal-astaxanthin, for the muscle tissue, and a white bioink dyed with CaCO3, for the intramuscular fatty-tissue. Algal proteins have excellent nutritional amino-acid composition, and the co-extraction with agar facilitates 3D-printing thanks to its pseudoplastic and gelling properties. This study highlights macroalgae as an exciting natural raw-material for fish analogs towards sustainable seafood production, thereby decreasing harm to ocean fisheries. |
| format | Article |
| id | doaj-art-e9e09e034be94c40a3aa4d6d4c31fed0 |
| institution | Kabale University |
| issn | 2665-9271 |
| language | English |
| publishDate | 2024-01-01 |
| publisher | Elsevier |
| record_format | Article |
| series | Current Research in Food Science |
| spelling | doaj-art-e9e09e034be94c40a3aa4d6d4c31fed02024-12-13T11:03:29ZengElsevierCurrent Research in Food Science2665-92712024-01-019100905Algal protein-based 3D-printed fish-analogs as a new approach for sustainable seafoodSamaa Alasibi0Meital Kazir1Álvaro Israel2Yoav D. Livney3Biotechnology & Food Engineering Department, Technion, Israel Institute of Technology, Haifa, 3200003, IsraelBiotechnology & Food Engineering Department, Technion, Israel Institute of Technology, Haifa, 3200003, IsraelIsrael Oceanographic and Limnological Research, The National Institute of Oceanography, Haifa, IsraelBiotechnology & Food Engineering Department, Technion, Israel Institute of Technology, Haifa, 3200003, Israel; Corresponding author.Rising global demand for animal-products exceeds human-population growth. This unsustainable trend causes harmful ecological effects. Overfishing causes extinction of aquatic animals and a dangerous biodiversity loss harming aquatic ecosystems. Hence, replacing animal-based food, particularly beef and fish, with sustainable alternatives is an urgent vital global mission. Analogs of animal-based products include plant-based, tissue-culture-based and fermentation-based products. Fish analogs have mainly been based on plant-protein, fungi, tissue-culture, but to our knowledge, fish analogs made of algae, particularly macroalgae, as the major component and protein-source have not been reported. 3D-food-printing is a fast-developing technology, enabling formation of complex three-dimensional structures with various heterogeneous topologies and tailorable compositions. Herein, we report the co-extraction of proteins and polysaccharides from the red marine-macroalgae Gracilaria cornea, and using the extract in injection-based 3D-printing to form prototypes of salmon-fillet. Two bioinks were used: a red bioink dyed with microalgal-astaxanthin, for the muscle tissue, and a white bioink dyed with CaCO3, for the intramuscular fatty-tissue. Algal proteins have excellent nutritional amino-acid composition, and the co-extraction with agar facilitates 3D-printing thanks to its pseudoplastic and gelling properties. This study highlights macroalgae as an exciting natural raw-material for fish analogs towards sustainable seafood production, thereby decreasing harm to ocean fisheries.http://www.sciencedirect.com/science/article/pii/S2665927124002314Alternative proteinAlgae3D-printingFish analogSalmon |
| spellingShingle | Samaa Alasibi Meital Kazir Álvaro Israel Yoav D. Livney Algal protein-based 3D-printed fish-analogs as a new approach for sustainable seafood Current Research in Food Science Alternative protein Algae 3D-printing Fish analog Salmon |
| title | Algal protein-based 3D-printed fish-analogs as a new approach for sustainable seafood |
| title_full | Algal protein-based 3D-printed fish-analogs as a new approach for sustainable seafood |
| title_fullStr | Algal protein-based 3D-printed fish-analogs as a new approach for sustainable seafood |
| title_full_unstemmed | Algal protein-based 3D-printed fish-analogs as a new approach for sustainable seafood |
| title_short | Algal protein-based 3D-printed fish-analogs as a new approach for sustainable seafood |
| title_sort | algal protein based 3d printed fish analogs as a new approach for sustainable seafood |
| topic | Alternative protein Algae 3D-printing Fish analog Salmon |
| url | http://www.sciencedirect.com/science/article/pii/S2665927124002314 |
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