Fish waste silage, a green process for low feedstock availability. A Review
Introduction. Different fishing activities generate a waste volume related to the processing species (viscera, heads and bones), the discards of the companion fauna, species of low commercial value and the losses related to handling problems. Fish meal production is the most common process for recovery nutrients from these fish processing byproducts. However, those places with reduced infrastructure or where the volume of wastes produced do not justified the economic equation for conversion into fish meal or oil, the biological silage could be the technology of choice to promote a sustainable waste management. Objective. To compilate, organize and summarize literature related to biological fermentation of fish waste and its applications. Development. A bibliographic review was carried out (January 1994 - December 2020) referring to the comprehensive use of fishing residues mainly focused on the use of lactic acid bacteria in fish waste fermentation. The information was organized in different sections: fish silage, lactic acid bacteria and carbohydrate sources for biological silage. Conclusions. The studies analyzed in this review highlight the possibility of using a wide variety of carbohydrate sources, biological starters and fish waste fermentation conditions. The satisfactory results show the potential use of fish waste in different applications. This work could contribute to the fisheries that decide to adopt this kind technology in order to provide an innovative and viable recycling bioeconomy.
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Universidad de Costa Rica
2023
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Libonatti, Claudia Carina Agüería, Daniela Alejandra Breccia, Javier |
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Libonatti, Claudia Carina Agüería, Daniela Alejandra Breccia, Javier Fish waste silage, a green process for low feedstock availability. A Review |
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Libonatti, Claudia Carina Agüería, Daniela Alejandra Breccia, Javier |
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Libonatti, Claudia Carina |
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Fish waste silage, a green process for low feedstock availability. A Review |
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Fish waste silage, a green process for low feedstock availability. A Review |
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Fish waste silage, a green process for low feedstock availability. A Review |
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Fish waste silage, a green process for low feedstock availability. A Review |
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Fish waste silage, a green process for low feedstock availability. A Review |
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fish waste silage, a green process for low feedstock availability. a review |
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Introduction. Different fishing activities generate a waste volume related to the processing species (viscera, heads and bones), the discards of the companion fauna, species of low commercial value and the losses related to handling problems. Fish meal production is the most common process for recovery nutrients from these fish processing byproducts. However, those places with reduced infrastructure or where the volume of wastes produced do not justified the economic equation for conversion into fish meal or oil, the biological silage could be the technology of choice to promote a sustainable waste management. Objective. To compilate, organize and summarize literature related to biological fermentation of fish waste and its applications. Development. A bibliographic review was carried out (January 1994 - December 2020) referring to the comprehensive use of fishing residues mainly focused on the use of lactic acid bacteria in fish waste fermentation. The information was organized in different sections: fish silage, lactic acid bacteria and carbohydrate sources for biological silage. Conclusions. The studies analyzed in this review highlight the possibility of using a wide variety of carbohydrate sources, biological starters and fish waste fermentation conditions. The satisfactory results show the potential use of fish waste in different applications. This work could contribute to the fisheries that decide to adopt this kind technology in order to provide an innovative and viable recycling bioeconomy. |
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Universidad de Costa Rica |
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2023 |
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https://revistas.ucr.ac.cr/index.php/agromeso/article/view/51077 |
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oai:portal.ucr.ac.cr:article510772023-06-16T13:42:30Z Fish waste silage, a green process for low feedstock availability. A Review Ensilado de desechos de pescado, una actividad sustentable para bajos volúmenes de procesamiento Libonatti, Claudia Carina Agüería, Daniela Alejandra Breccia, Javier fischery discard acid lactic bacteria fermetation byproducts pequería descarte bacterias ácido lácticas fermentación subproductos Introduction. Different fishing activities generate a waste volume related to the processing species (viscera, heads and bones), the discards of the companion fauna, species of low commercial value and the losses related to handling problems. Fish meal production is the most common process for recovery nutrients from these fish processing byproducts. However, those places with reduced infrastructure or where the volume of wastes produced do not justified the economic equation for conversion into fish meal or oil, the biological silage could be the technology of choice to promote a sustainable waste management. Objective. To compilate, organize and summarize literature related to biological fermentation of fish waste and its applications. Development. A bibliographic review was carried out (January 1994 - December 2020) referring to the comprehensive use of fishing residues mainly focused on the use of lactic acid bacteria in fish waste fermentation. The information was organized in different sections: fish silage, lactic acid bacteria and carbohydrate sources for biological silage. Conclusions. The studies analyzed in this review highlight the possibility of using a wide variety of carbohydrate sources, biological starters and fish waste fermentation conditions. The satisfactory results show the potential use of fish waste in different applications. This work could contribute to the fisheries that decide to adopt this kind technology in order to provide an innovative and viable recycling bioeconomy. Introducción. Las actividades pesqueras generan un volumen de desechos relacionados con el procesamiento de especies (vísceras, cabezas y espinas), los descartes de la fauna acompañante, especies de bajo valor comercial y pérdidas relacionadas con problemas de manejo. La producción de harina de pescado es el proceso más común para recuperar los nutrientes de los subproductos del procesamiento del pescado. Sin embargo, aquellos lugares con infraestructura reducida o donde el volumen de residuos producidos no justifique la ecuación económica para la conversión en harina o aceite de pescado, el ensilaje biológico podría ser la tecnología de elección para promover una gestión sostenible de los residuos. Objetivo. Recopilar, organizar y resumir la literatura relacionada con la fermentación biológica de residuos de pescado y sus aplicaciones. Desarrollo. Se realizó una revisión bibliográfica (enero 1994 – diciembre 2020) referida al aprovechamiento integral de los residuos de la pesca, principalmente focalizada a la utilización de las bacterias ácidos lácticas en la biofermentación de los mismos. La información se organizó en diferentes secciones: ensilado de pescado, bacterias acido lácticas, fuentes de hidratos de carbono referidas a la elaboración de ensilados biológicos de pescado. Conclusiones. Los estudios analizados destacan la posibilidad de utilizar una amplia variedad de fuentes de hidratos de carbono, iniciadores biológicos y condiciones de fermentación de desechos de pescado. Los resultados satisfactorios muestran el potencial uso de los desechos de pescado en diferentes aplicaciones. Este trabajo podría aportar a las pesquerías que quieran adoptar esta tecnología para el tratamiento adecuado de los residuos con la finalidad de contribuir a la bioeconomía de reciclaje. Universidad de Costa Rica 2023-04-27 info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Contribution text texto text/xml application/pdf application/epub+zip text/html audio/mpeg audio/mpeg https://revistas.ucr.ac.cr/index.php/agromeso/article/view/51077 10.15517/am.v34i2.51077 Agronomía Mesoamericana; 2023: Agronomía Mesoamericana: Vol. 34, Issue 2 (May-August) ; 51077 Agronomía Mesoamericana; 2023: Agronomía Mesoamericana: Vol. 34, Nº 2 (mayo-agosto) ; 51077 Agronomía Mesoamericana; 2023: Agronomía Mesoamericana: Vol. 34, Issue 2 (May-August) ; 51077 2215-3608 1021-7444 eng spa https://revistas.ucr.ac.cr/index.php/agromeso/article/view/51077/55430 https://revistas.ucr.ac.cr/index.php/agromeso/article/view/51077/55431 https://revistas.ucr.ac.cr/index.php/agromeso/article/view/51077/55432 https://revistas.ucr.ac.cr/index.php/agromeso/article/view/51077/55433 https://revistas.ucr.ac.cr/index.php/agromeso/article/view/51077/55434 https://revistas.ucr.ac.cr/index.php/agromeso/article/view/51077/55435 Copyright (c) 2023 Claudia Carina Libonatti, Daniela Alejandra Agüería, Javier Breccia https://creativecommons.org/licenses/by-nc-nd/4.0 |