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Ensuring microbiological safety in the food (of animal origin) chain is a challenging task due to the complex interactions among animals, humans and the environment. However, technological and analytical advances in recent years have provided a broader insight into microbiological hazards in the food chain and risk assessment. The objective of the proposed Special Issue “Study of Microbiological Safety in the Food Chain” was therefore to obtain scientific papers addressing microbiological hazards in the food chain, such as bacterial antimicrobial resistance, bacterial or fungal spoilage of foods, the antimicrobial potential of the indigenous microbiota, the aminogenic or amine-reducing capacity of the microbiota, and papers that apply novel methods to study the food microbiome to discover potential, previously unknown microbial hazards. This Special Issue of the journal Processes entitled “Study of Microbiological Safety in the Food Chain” consists of nine research papers and one review paper. Four papers focus on the microbiological aspects of milk and dairy products, three on meat and meat products, two on eggs, and one on various market foods. The microorganisms of interest were species of lactobacilli, enterococci and molds, Yersinia enterocolitica, Bacillus cereus and the general microbiota in certain foods.

Humanities --- Social interaction --- antimicrobial resistance --- Lactobacillus johnsonii --- Lactobacillus zeae --- MALDI-TOF-MS --- milk --- PCR --- mold --- egg --- Penicillium --- colony morphology --- Ehrlich reaction --- creatine --- restriction enzyme --- PCR-ITS-RFLP --- egg quality --- Cladosporium --- Fusarium --- raw goat milk --- enterococcal species --- safety --- virulence factor --- bacteriocins --- meat safety --- biological hazards --- Yersinia enterocolitica --- Toxoplasma gondii --- food chain information --- emerging foodborne pathogens --- Bacillus --- probiotics --- ewe --- milk lump cheese --- microbiome --- microbial flora --- dry aged beef --- rancidity --- index --- meat products --- dry-cured hams --- sensory evaluation --- surface moulds --- Aspergillus --- Croatian regions --- biogenic amines --- enterococci --- lactobacilli --- lactococci --- ripened cheese --- n/a

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• Reference Manager
• EndNote
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Ensuring microbiological safety in the food (of animal origin) chain is a challenging task due to the complex interactions among animals, humans and the environment. However, technological and analytical advances in recent years have provided a broader insight into microbiological hazards in the food chain and risk assessment. The objective of the proposed Special Issue “Study of Microbiological Safety in the Food Chain” was therefore to obtain scientific papers addressing microbiological hazards in the food chain, such as bacterial antimicrobial resistance, bacterial or fungal spoilage of foods, the antimicrobial potential of the indigenous microbiota, the aminogenic or amine-reducing capacity of the microbiota, and papers that apply novel methods to study the food microbiome to discover potential, previously unknown microbial hazards. This Special Issue of the journal Processes entitled “Study of Microbiological Safety in the Food Chain” consists of nine research papers and one review paper. Four papers focus on the microbiological aspects of milk and dairy products, three on meat and meat products, two on eggs, and one on various market foods. The microorganisms of interest were species of lactobacilli, enterococci and molds, Yersinia enterocolitica, Bacillus cereus and the general microbiota in certain foods.

Humanities --- Social interaction --- antimicrobial resistance --- Lactobacillus johnsonii --- Lactobacillus zeae --- MALDI-TOF-MS --- milk --- PCR --- mold --- egg --- Penicillium --- colony morphology --- Ehrlich reaction --- creatine --- restriction enzyme --- PCR-ITS-RFLP --- egg quality --- Cladosporium --- Fusarium --- raw goat milk --- enterococcal species --- safety --- virulence factor --- bacteriocins --- meat safety --- biological hazards --- Yersinia enterocolitica --- Toxoplasma gondii --- food chain information --- emerging foodborne pathogens --- Bacillus --- probiotics --- ewe --- milk lump cheese --- microbiome --- microbial flora --- dry aged beef --- rancidity --- index --- meat products --- dry-cured hams --- sensory evaluation --- surface moulds --- Aspergillus --- Croatian regions --- biogenic amines --- enterococci --- lactobacilli --- lactococci --- ripened cheese --- antimicrobial resistance --- Lactobacillus johnsonii --- Lactobacillus zeae --- MALDI-TOF-MS --- milk --- PCR --- mold --- egg --- Penicillium --- colony morphology --- Ehrlich reaction --- creatine --- restriction enzyme --- PCR-ITS-RFLP --- egg quality --- Cladosporium --- Fusarium --- raw goat milk --- enterococcal species --- safety --- virulence factor --- bacteriocins --- meat safety --- biological hazards --- Yersinia enterocolitica --- Toxoplasma gondii --- food chain information --- emerging foodborne pathogens --- Bacillus --- probiotics --- ewe --- milk lump cheese --- microbiome --- microbial flora --- dry aged beef --- rancidity --- index --- meat products --- dry-cured hams --- sensory evaluation --- surface moulds --- Aspergillus --- Croatian regions --- biogenic amines --- enterococci --- lactobacilli --- lactococci --- ripened cheese

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In the search for a healthier diet and facing the uncertainties about the consumption of artificial additives, the scientific community has explored in the last years the potential of natural compounds, such as polyphenols, carotenoids, chlorophylls, essential oils, tocopherols, vitamins, polysaccharides, among others, obtained from the most diverse sources, such as plants and fungi, for the replacement of the artificial additives in food, which has made these compounds recognized as “natural additives”. In addition to being considered less harmful to health, and giving a certain functional property to a foodstuff, natural additives can also provide a beneficial synergistic effect in the food matrix. For the consumers, diverse studies have been showed that regular ingestion of bioactive compounds, that can be applied as natural additives, can be helpful for the prevention/treatment of several chronic and aging illnesses, such as cardiovascular diseases and neurological disorders. However, there is much to be researched on the viable use of bioactive compounds and to overcome their chemical limitations so that it can actually be used as natural additives in foods. This book addresses, through 18 scientific articles, some natural compounds with potential for use as preservatives, nutritional additives, coloring agents, flavorings, and various agents.

trisodium citrate --- microbial transglutaminase --- casein gels --- textural properties --- microstructures --- Urtica spp. --- bioactive compounds --- antioxidant activity --- antimicrobial activity --- traditional medicine --- food industry --- animal breeding --- beta cyclodextrin --- ewe’s milk --- cheese --- Manchego --- lipids --- cholesterol --- anthocyanin --- natural extract --- tetraethyl orthosilicate --- black carrot --- black rice flour --- anthocyanins --- low gluten muffins --- added value products --- soymilk --- enzyme modified soymilk --- skim milk --- rennet induced gelation --- rheological properties --- egg yolk --- cholesterol extraction --- granules extraction --- anionic chelating biopolymers --- ADME --- absorption --- chlorophylls --- chlorophyllin --- green colorant --- zinc-chlorophylls --- copper-chlorophyll --- coloring foodstuff --- natural colorants --- food colors --- pomelo peel --- essential oil --- anti-oxidant --- anti-melanogenic --- B16 melanoma cell --- oxygen-containing sulfur flavor molecules --- β-carotene --- bis(2-methyl-3-furyl) disulfide (BMFDS) --- oxidation products --- beetroot --- betalains --- semi-preparative RP-HPLC --- in vitro human gastrointestinal digestion --- ex vivo colon fermentation --- antioxidant ability --- malonildialdehyde --- extra virgin olive oil --- leaf addition --- Tunisian varieties --- phenolics --- tocopherols --- Prunus spinosa L. fruit epicarp --- wild fruit valorization --- cyanidin 3-rutinoside --- peonidin 3-rutinoside --- heat and ultrasound assisted extraction --- response surface methodology --- Ocimum basilicum var. purpurascens leaves --- red rubin basil --- Heat-Assisted Extraction --- extraction optimization --- polyphenols --- tiger nut --- by-products --- solvent extraction --- horchata de chufa --- triple TOF-LC-MS-MS --- Caenorhabditis elegans --- antioxidants --- bergenin --- stress resistance --- lifespan --- Huntington --- uxi --- Endopleura uchi --- Allium cepa red cv. --- Citrus limon --- pickling --- volatiles --- SPME --- chemometrics --- byproducts --- food additives --- antimicrobial --- antioxidant --- colorants --- texturizing agents --- foaming capacity and emulsifiers