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Bioeconomy-Based Approaches for the Microbial Valorization of Citrus Processing Waste

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Publicado en:Microorganisms vol. 13, no. 8 (2025), p. 1891-1908
Autor principal: Stavrakakis Ioannis
Otros Autores: Melidis Paraschos, Kavroulakis Nektarios, Goliomytis, Michael, Simitzis Panagiotis, Ntougias Spyridon
Publicado:
MDPI AG
Materias:
Feeds
Nanoparticles
Soil conditioners
Citrus fruits
Food processing industry
Energy recovery
Agribusiness
Bioconversion
Pectin
Biomass energy production
Microorganisms
Soil fertility
Biofuels
Bioactive compounds
Starter cultures
Agricultural wastes
Heavy metals
Animal products
Processing industry
Biorefineries
Solid state fermentation
Materials recovery
Economic importance
Biological materials
Animal feed
Adsorptivity
Fermentation
Antibiotic resistance
Biodiesel fuels
Yeast
Lipids
Food processing
Biomolecules
Food processing industry wastes
Residues
Biogas
Biohydrogen
Acceso en línea:Citation/Abstract
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Resumen:The citrus processing industry is an economically important agro-industrial sector worldwide; however, it produces significant amounts of waste annually. The biorefinery concept and the recovery of bio-based materials from agro-industrial residues, including citrus processing waste, are emphasized in the European Green Deal, reflecting the EU’s commitment to fostering circularity. Biotreatment of citrus processing waste, including bioconversion into biomethane, biohydrogen, bioethanol and biodiesel, has been applied to valorize biomass for energy recovery. It can also be composted into a valuable soil conditioners and fertilizers, while raw and fermented citrus residues may exhibit phytoprotective activity. Citrus-derived residues can be converted into materials such as nanoparticles with adsorptive capacity for heavy metals and recalcitrant organic pollutants, and materials with antimicrobial properties against various microbial pathogens, or the potential to remove antibiotic-resistance genes (ARGs) from wastewater. Indeed, citrus residues are an ideal source of industrial biomolecules, like pectin, and the recovery of bioactive compounds with added value in food processing industry. Citrus processing waste can also serve as a source for isolating specialized microbial starter cultures or as a substrate for the growth of bioplastic-producing microorganisms. Solid-state fermentation of citrus residues can enhance the production of hydrolytic enzymes, with applications in food and environmental technology, as well as in animal feed. Certain fermented products also exhibit antioxidant properties. Citrus processing waste may be used as alternative feedstuff that potentially improves the oxidative stability and quality of animal products.
ISSN:2076-2607
DOI:10.3390/microorganisms13081891
Fuente:Biological Science Database