Fermented Sausages Research Articles

Effects of compound fermentation of lactic acid bacteria IMAUJBP3 and IMAUJBR3 on the characteristic flavors and metabolites of mutton fermented sausages

Lactobacillus plantarum IMAUJBP3 and Limosilactobacillus reuteri IMAUJBR3 were used to prepare starter cultures. Through the electronic nose (E-nose), it was found that the compound fermentation can enhance the aromatic components in the product. Further analyses using Headspace solid-phase microextraction combined with gas chromatography-mass spectrometry (HS-SPMEGC–MS) and metabolomics revealed that the complex fermentation affected the oxidative breakdown of amino acids and lipids. HS-SPMEGC-MS identified 72 flavour compounds and found that the Mix group had the highest amount of ester compounds relative to the ZR group. In addition, of the 1402 metabolites identified by metabolomics, dihydroxyacetone phosphate was upregulated and most abundance in the Mix group. Dihydroxyacetone phosphate promotes the metabolism of carbohydrates and lipids, and affects the oxidative decomposition of amino acids and lipids, resulting in differences in flavor among meat products inoculated with different starter cultures. At the same time, it was also found that compound fermentation could down-regulate the compounds affecting product quality such as histamine, putrescine and phenethylamine. Overall, this study found that JBP3 and JBR3 in combination could improve the flavour quality of fermented lamb sausages. These findings may provide a good strain resource for improving the quality of lamb sausage.

Effect of isolated bacteria on nitrite degradation and quality of Sichuan dry sausages

To improve the fermentation quality and increase safety when using nitrite in the production of Sichuan dry sausages, two isolated Lactiplantibacillus strains were used in their processing. The nitrite content, counts of Lactiplantibacillus and total bacteria, pH, color, hydrolysis of proteins, oxidation of lipids, water content and water activity, volatile flavor compounds, and sensory characteristics of the fermented sausage were determined. The results showed that the inoculation of L. plantarum SR2 and L. farciminis SR9 reduced the nitrite content, increased the protein hydrolysis, decreased the lipid oxidation, inhibited the activity of spoilage micro -organisms, decreased the pH of the end products, increased the flavor compounds, and enhanced the sensory attributes, including color, texture, taste, flavor, and overall acceptability, of the Sichuan dry sausage. In brief, L. plantarum SR2 and L. farciminis SR9 are effective in reducing the content of nitrite in sausages without decreasing its a* values and sensory qualities.

Regional microbial content of fermented traditional and industrial East Mediterranean sausages from the islands of Cyprus and Mytilini

Objective: To characterize the microbial biodiversity of fermented sausages from the East Mediterranean islands of Cyprus and Mytilini, and to identify differences between the microbial diversity of traditionally and industrially produced Cypriot sausages. Method: The microbial diversity of thirty sausages from Cyprus and Mytilini (traditionally and industrially produced) was analyzed using high throughput sequencing (HTS) (amplicon sequencing) of 16S rRNA gene and ITS loci fragments. By applying microbial signature detection and machine learning algorithms, we identified key microbes that distinguish traditionally produced sausages from those produced industrially. Focusing on selected microbial taxa and using interaction network analysis, we identified associations among the sausages’ microbiota that may affect the shaping of the sausages’ microbial consortia. Results: Cypriot and Mytilini sausages indicated increased relative representation of Lactobacillus and Leuconostoc . Cypriot sausages were distinguished by the presence of the fungi Debaryomyces hansenii and Candida spp. , whereas Mytilini sausages by the bacteria Lactococcus and Streptococcus . Traditionally produced sausages from the Pitsilia region of Cyprus were differentiated by the presence of the species Lactobacillus helveticus , whereas industrially produced sausages were differentiated by the species Leuconostoc mesenteroides . Focusing mainly on Lactobacillus and Leuconostoc , negative associations with pathogenic bacteria, such as Salmonella , and spoilage fungi, such as Fusarium poae , were revealed. Conclusion: The present metataxonomic analysis provided insights into the microbial communities that characterize Cypriot and Mytilini sausages. The findings provide an indication that the microbial diversity might be applied as an additional marker of Cypriot sausages’ authenticity.

Indigenous Lactic Acid Bacteria as Antioxidant Agents in the Production of Organic Raw Fermented Sausages

The study aimed to assess the impact of lactic acid bacteria (LAB) strains on the antioxidant, physico-chemical properties, and microbiological quality of fermented sausages. Five treatments of raw sausages were prepared: two controls without LAB addition (C, P), and three samples with LAB addition (SCH1, BAL6, KL14). Fatty acid composition, cholesterol content, physico-chemical, microbiological tests, and antioxidant assays, were performed at time 0 and after 1 and 2 months of storage. A significantly higher ability to scavenge free radicals of DPPH (2,2-diphenyl-1-picrylhydrazyl) was found in sausages with all LAB strains. In the case of the ABTS (2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid)) test, it was noted that KL14 treatment had higher antioxidant activity. The main fatty acids in sausages were monounsaturated and saturated. A significantly lower cholesterol content was observed in sausages with the addition of LAB. Sausages with LAB strains differed significantly in pH value. Water activity decreased significantly during storage. After 2 months of storage, the sausages with BAL6 and KL14 strains were characterized by significantly lower redox potential and a lower TBARS (thiobarbituric acid reactive substances) index. It was found that P sausages had the darkest color. SCH1, BAL6, and KL14 strains were also capable of producing red color. The total number of microorganisms in the sausages was high, which is mainly due to the high LAB content and yeast and mold counts. No spoilage or pathogenic microflora were detected. Indigenous LAB strains have the potential to improve the quality and safety of fermented meat products.

Effects of fig and pineapple powder on metabolite compounds and health-promoting properties in fermented goat meat sausage.

The objective of this research was to identify the metabolite compounds and health-promoting properties of goat meat fermented sausages containing different amounts of fig and pineapple powder (0.1%, 0.25%, and 0.5%), which are presented by F1, F2, F3 and P1, P2, P3, separately. Fermented sausages were manufactured from the lean meat of female goats. The samples extracted from the goat meat fermented sausages were evaluated for their metabolite compounds, antioxidants, and angiotensin-converting enzyme inhibitory activity. The results showed that the diphenyl picrylhydrazyl radical scavenging activity, azino-bis (3-ethylbenzothiazoline-6-sulfonic acid) radical scavenging activity, and angiotensin-converting enzyme inhibitory activity were the highest in F3 (p<0.05), whereas the hydroxyl radical (°OH) scavenging capacity was the highest in P3 (p<0.05). In addition, F3 and F2 showed the highest superoxide anion radical scavenging activity (p<0.05), whereas F3 and P3 showed the highest copper chelating activity (p<0.05). Based on the metabolite compounds, hydrophobic amino acids, aromatic amino acids, and bitter amino acids were abundant in F3. Both F3 and P3 contained high concentrations of umami-producing compounds. The incorporation of 0.5% fig powder into goat meat fermented sausage showed improved biological activities based on metabolite compounds.

Improvement of the safety of artisanal Spanish fermented sausages: Spotlight on the role of bacteriocinogenic Lactiplantibacillus paraplantarum against a Companilactobacillus alimentarius histaminogenic strain

Biogenic amines (BA) in fermented sausages result from amino acid decarboxylation by microbial activity, either from technological or spoilage bacteria. Certain lactic acid bacteria typically found in fermented sausages are characterised for their ability to produce BA, especially histamine and tyramine. On the other hand, the bacteriocinogenic strain Lactiplantibacillus paraplantarum BPF2, isolated from a Spanish spontaneously dry-fermented sausages, has been characterized by good technological properties, production of leucocin K with antimicrobial activity against Listeria monocytogenes and ability to reduce the accumulation of BA in the final products. The antagonistic activity of leucocin K bacteriocin was tested in vitro against Companilactobacillus alimentarius SE14 (histamine producer), Enterococcus faecalis EF37 (tyramine producer), and L. monocytogenes Scott A. The inhibition of Comp. alimentarius SE14 by Lpl. paraplantarum BPF2 was assessed in traditional Spanish fermented sausages obtained in pilot plant, and chemico-physical parameters, microbial counts, and BA accumulation were monitored during fermentation and ripening. Leucocin K produced by Lpl. paraplantarum BPF2 was active in vitro against Comp. alimentarius SE14 and L. monocytogenes but was ineffective against E. faecalis EF37. The inoculation of the strain BPF2 as starter culture did not affect the expected chemico-physical (pH and colour) and microbial characteristics of the dry-fermented sausages. On the other hand, this strain was effective to significantly reduce the accumulation of histamine produced by the strain SE14, as well as putrescine and cadaverine. These findings demonstrated the relevant role of bacteriocin-producing strains as bio-protective starter cultures in improving the safety and quality of fermented meat products.

Effects of single fermentation of Lactobacillus sakei and compound fermentation with Staphylococcus carnosus on the metabolomics of beef sausages

To illustrate the mechnism of the better flavor and color in combined fermented sausages than single fermentation with L. sakei, the growth behavior, pH, and metabolomics of L. sakei in single fermentation and in combination with S. carnosus at 0, 3, 6, 12, 24, and 48 h were studied, and the sensory evaluation of fermented beef sausage was conducted. Through KEGG topology analysis found that L. sakei is related to caffeine metabolism and citrate cycle, L. sakei and S. carnosus are related to metabolism of purine metabolism, caffeine metabolism, and alanine, aspartate and glutamate metabolism. Compared with L. sakei fermentation alone, the compound fermentation with S. carnosus increased the content of asparagine. The content of the bitter substance tyrosine decreased during the compound fermentation. As starter cultures for the L. sakei applied to provide a basis for the fermented beef sausage.

Using Celery Powder in a Semi-Dry Fermented Sausage 'Heat-Treated Sucuk': Nitrosamine Formation, Lipid Oxidation, and Volatile Compounds.

This study investigated the effect of using celery powder (CP) as source of pre-converted nitrite (treatments: A: 150 mg/kg NaNO2, B: 100 mg/kg NaNO2 + CP as 50 mg/kg NaNO2 equivalent, C: 50 mg/kg NaNO2 + CP as 100 mg/kg NaNO2 equivalent, D: CP as 150 mg/kg NaNO2 equivalent) on the physicochemical and microbiological properties in heat-treated sucuk (HTS), a kind of semi-dry fermented sausage. The influence of cooking time (CT) on the nitrosamine formation in HTS with and without CP was also determined. The results indicated that the use of CP increased the pH value and decreased the aw value. Micrococcus/Staphylococcus and residual nitrite were not affected by the use of CP. TBARS value varied from 0.78 to 0.90 mg MDA/kg. CP did not affect the abundance of hexanal in HTS, however, it increased the abundance of camphene. The results of PCA showed that treatments A, B, and C had similar volatile compound profiles. CP did not affect both N-nitrosodimethylamine and N-nitrosodiethylamine, but their levels increased as the CT increased. Increased CT also resulted in increased N-nitrosopiperidine (NPIP) in all treatments, but the cooking for 1 min did not cause a significant increase in treatments A, B, and C. CP leads to a significant increase in NPIP content, especially after 3 and 5 min of cooking in HTS.

In-depth characterization of food and environmental microbiomes across different meat processing plants

BackgroundProcessing environments can be an important source of pathogenic and spoilage microorganisms that cross contaminate meat and meat products. The aim of this study was to characterize the microbiome of raw materials, processing environments and end products from 19 facilities producing different meat products.ResultsThe taxonomic profiles of the microbial communities evolved along processing, from raw materials to end products, suggesting that food contact (FC) surfaces play an important role in modulating the microbiome of final products. Some species persisted with the highest relative abundance in raw materials, food processing environments and/or in the final product, including species from the genera Pseudomonas, Staphylococcus, Brochothrix, Acinetobacter and Psychrobacter. Processing environments showed a very diverse core microbiota, partially shared with the products. Pseudomonas fragi and Pseudomonas sp. Lz4W (in all sample and facility types) and Brochothrix thermosphacta, Psychrobacter sp. and Psychrobacter sp. P11F6 (in raw materials, FC surfaces and end products) were prominent members of the core microbiota for all facilities, while Latilactobacillus sakei was found as a dominant species exclusively in end products from the facilities producing fermented sausages. Processing environments showed a higher amount of antimicrobial resistance genes and virulence factors than raw materials and end products. One thousand four hundred twenty-one medium/high-quality metagenome-assembled genomes (MAGs) were reconstructed. Of these, 274 high-quality MAGs (completeness > 90%) corresponded to 210 putative new species, mostly found in processing environments. For two relevant taxa in meat curing and fermentation processes (S. equorum and L. sakei, respectively), phylogenetic variation was observed associated with the specific processing facility under study, which suggests that specific strains of these taxa may be selected in different meat processing plants, likely contributing to the peculiar sensorial traits of the end products produced in them.ConclusionsOverall, our findings provide the most detailed metagenomics-based perspective up to now of the microbes that thrive in meat, meat products and associated environments and open avenues for future research activities to better understand the microbiome functionality and potential contribution to meat quality and safety.BW5-yJYgBWXLb4-yN7W47nVideo

Physicochemical, microbiological, and organoleptic properties of fermented lamb sausage enhanced by jack bean fortification

Processing lamb meat into fermented sausages can reduce the risk of spoilage and extend shelf life. Fermented sausages are commonly made using lactic acid bacteria (LAB), resulting in a product that is acidic and less firm. Therefore, it is necessary to add jack bean flour as a binding agent. This study aims to analyze physicochemical, microbiological and organoleptic characteristics of premium IPB lamb fermented sausages with varying proportions of jack bean flour (0% and 30%). The analyses included pH, water activity (aw), total acid, water, ash, fat, crude protein, carbohydrate, total LAB, E. coli, S. aureus, texture profile analysis (TPA), and sensory evaluation. The incorporation of jack bean flour into lamb meat fermented sausages can elevate the pH, springiness, chewiness, crude protein, and carbohydrate content of the fermented sausages. Furthermore, the addition of jack bean flour may reduce the total acid, aw, gumminess, water content, and bacteria (E. coli and S. aureus). The sensory aspects such as color in fermented sausage with addition of jack bean flour were preferred by the panelists. The addition of jack bean flour increased the total unsaturated fatty acids and essential amino acids in fermented sausages. The incorporation of jack bean flour aligns with the Indonesian National Standards for Meat Sausages 3820–2015 concerning moisture, fat, and protein content. This study suggests that incorporating lamb fermented sausage with 30% jack bean flour could result in significant benefits, including increased nutrition, enhanced sensory quality, improved texture, and extended storage life for fresh lamb products.

Use of Indigenous Lactic Acid Bacteria for Industrial Fermented Sausage Production: Microbiological, Chemico-Physical and Sensory Features and Biogenic Amine Content

The use of starter cultures in the meat industry is common, even if the number of available commercial cultures is limited, inducing product standardisation and microbial diversity reduction. On the other hand, some artisanal products relying on spontaneous fermentation can represent a source of isolation of new interesting strains. In this work, four LAB strains derived from Mediterranean spontaneously fermented sausages were tested as new starter cultures for the industrial production of fermented sausages, in comparison to a commercial starter culture. The products obtained were analysed for physico-chemical parameters, microbiota, biogenic amines and aroma profile. A consumer test was also performed to evaluate product acceptability. The strains induced different acidification kinetics. LAB counts showed high persistence when Latilactobacillus curvatus HNS55 was used as the starter culture, while the addition of Companilactobacillus alimentarius CB22 resulted in a high concentration of enterococci (6 log CFU/g), 2 log higher than in other samples. Tyramine was detected at concentrations of 150–200 mg/kg, except for in the sample produced with Lactiplantibacillus plantarum BPF2 (60 mg/kg). Differences were observed in the aroma profile, with a high amount of 2-butanone found in the samples obtained with Comp. alimentarius CB22. These latter sausages also showed the lowest score in terms of acceptability. This study allowed us to select new LAB strains for fermented sausage starter cultures, increasing the product diversification.

Antioxidant potential and stability of bovine liver peptides in fermented sausage (sucuk): A pathway to value-added functional meat products

The objective of the present study was to evaluate the stability of low-molecular-weight peptides after their incorporation into fermented sausages. Peptide fractions were produced from the bovine liver peptides (BLP) by enzymatic hydrolysis. Optimal conditions were identified as hydrolysis at 45 °C for 24 h, resulting in the generation of <3 kDa and <10 kDa peptide fractions exhibiting the highest antioxidant activity. The antioxidant potential of fermented sausages made from beef meat containing BLPs at 0.5% and 1% concentrations was assessed during manufacturing and storage. The initial antioxidant activity values of the sausages containing BLPs were higher than that of the control. Furthermore, the stability of the peptides in the sausages was demonstrated by their preserved antioxidant activity for 102 days. Peptides extracted from 1% of <10 kDa-peptide containing sausages possessed two-fold higher radical scavenging activity than control. The highest peptide concentration in the sausages containing 1% of <10 kDa-peptides (79.32±1.34–101.56±1.22 μg peptide/mg) was maintained from day 0 to day 102. The SDS-PAGE profile of myofibrillar proteins and peptide extracts revealed the degradation of proteins were delayed in <10 kDa of peptide added sausages, suggesting that the protein oxidation was slowed down. These results contribute to the advancement of peptide commercialization as functional ingredients in fermented food products. Furthermore, our research sheds light on the enduring impact of fermentation on the stability of the added peptides and the synergistic interactions between naturally produced peptides during fermentation and those introduced externally.

Aroma characterization of Sichuan and Cantonese sausages using electronic nose, gas chromatography–mass spectrometry, gas chromatography-olfactometry, odor activity values and metagenomic

The interest of Chinese consumers in meat-free sausages has increased considerably due to their health benefits, but the aroma quality is far from reaching the traditional fermented meat sausages. This study evaluated the aroma characterization of Sichuan and Cantonese sausages using electronic nose (E-nose), gas chromatography–mass spectrometry (GC–MS), gas chromatography-olfactometry (GC-O), odor activity values (OAVs) and metagenomic. Ninety-eight volatile compounds were identified. Among them, 23 odorants were perceived, and their intensity differed in the two groups of sausages. There was a significant difference in the volatile compound profile between Sichuan and Cantonese cooked sausages. E-nose sensors could differentiate them through specific responses to these volatile compounds. Furthermore, there was a significant difference in microbial communities between Sichuan and Cantonese sausages. For aroma quality improvement of meat-free sausages, studies should focus on controlling the formation of aroma compounds by aroma precursors and using different microorganisms to produce diverse meat aromas. Our results provide a reference for the implementation of these strategies.

Effect of Fermentation Technology and Storage Time on the Quality of Salami-Type Sausages

The fermentation process is a crucial stage in the production of salami-type sausages. However, the traditional (“warm”) method does not yield optimal results. Hence, this study evaluated the impact of fermentation technology and storage time on the quality attributes of salami-type pork sausages. “Warm”-fermented (WF) and “cold”-fermented (CF) sausages were produced using appropriate starter cultures. Following ripening, the products were stored for 63 days under cooling conditions. The evaluations encompassed microbiological and physicochemical characteristics (pH, aw, color), basic chemical composition (NIR spectroscopy), the degree of fat hydrolysis (acid value) and oxidation (TBARS index), textural properties (TPA, shear/penetration test), and sensory (hedonic) attributes. In both sausages, mesophilic aerobes and lactic acid bacteria were the dominant microflora immediately after ripening. While the chemical composition of the salami remained constant during storage, there was a slight color change. WF sausages exhibited a significantly higher acid value and TBARS index than CF sausages. Over time, the internal structure of WF sausages became more porous, deteriorating the texture. In addition, CF sausages showed better sensory characteristics. In conclusion, using “cold” fermentation enhanced the quality and durability of salami-type sausages. This approach shows promise for industrial-scale production and aligns with consumer preferences.

ANALYSIS OF PH VALUE AND WATER ACTIVITY AS KEY SAFETY PARAMETERS FOR KULEN SAUSAGE

Active acidity (pH) and water activity (aw) were analyzed in 14 samples (K01-K14) of kulen available in markets in the Republic of North Macedonia. These samples were produced under industrial conditions by various manufacturers from R.N. Macedonia and neighboring countries in the region. The obtained pH values ranged from 4.24 to 4.97, while the aw values of the Kulen sausages ranged from 0.789 to 0.903. The pH and aw values are critical parameters for assessing the stability and safety of fermented products. According to European regulations, fermented sausages do not support the growth of L. monocytogenes under conditions of pH ≤ 5.0 and aw ≤ 0.94. All analyzed samples of kulen sausages (K01-K14) fall within this range that does not support the growth of L. monocytogenes, indicating a well-controlled technological process.

Study of the volatile compounds of dry fermented sausage with salt reduction and its relationship with sensory acceptance

In many industrialised countries, sodium intake exceeds the nutritional guidelines. High sodium intake has been associated with health problems, such as arterial hypertension and, consequently, a higher health risk of cardiovascular disease. The aim of this study was to evaluate overall quality of salamis with reduced sodium content by analysing aldehydes, proteolysis, and lipolysis, as well as to verify the correlation between sensory acceptance and volatile compounds. Four formulations were prepared replacing NaCl by a mixture of KCI and CaCl2. Two controls, one with a high level and the other with a low NaCl level were also included in the study. Water activity and pH levels were monitored in all samples. Volatile compounds were measured, in particular, hexanal, 2,4-decadienal and 3-methylbutanal. Finally, a sensory acceptance test was carried out using potential consumers. The results highlighted a relation between aldehyde concentration and sensory acceptance, hexanal/3-methybutanal ratio, that may be a marker of partial NaCl substitution in salami. Thus, our results may be used to guide the use of NaCl substitution by KCl/CaCl2 in terms of volatile compounds.Graphical

Physicochemical, sensory, and safety evaluation of dry-cured fermented sausages and its plant-based meat analog

The present study aimed to evaluate the physicochemical, sensory, and safety differences among meat-based and plant-based dry-cured fermented sausages. Different commercial meat- and plant-based dry-cured fermented spreadable sausages were evaluated, considering different quality parameters: pH, aW, moisture, fat and protein content, lipid oxidation, instrumental texture, and sensory attributes. Within the meat-based category, some significant physicochemical differences attributed to the different formulations were detected. The aw showed how some of the dry-cured sausages could allow the development of pathogenic bacteria, independently of their meat or plant origin. On the other hand, similarities were detected between meat- and plant-based sausages, with the most important differences identified in sensory terms of flavor and texture. The acceptability of the meat-based sample was 3.80 over 5 and the plant-based one roughly was over 2. Thus, the scientific evaluation of a novel plant-based sausage did not reach the expectations of the consumers who compared it with the meat-based original product. Some physicochemical characteristics that may be improved were noted, and some safety issues that should be addressed in further studies.

Impact of Operational Parameters on Pathogen Lethality in Dry and Semi-dry Uncooked Fermented Sausages

The safety of uncooked fermented, dried sausages relies upon controlled fermentation and drying that inactivates pathogenic bacteria. Current guidelines for the production of fermented sausages by the United States Department of Agriculture (USDA) Food Safety Inspection Services (FSIS) and related research highlight specific safety parameters. The confidence that processing steps, which do not include cooking, inherently mitigate microbial risks, is challenged by the resilience of pathogens in the dry and acidic environments of these food products. The aim of this work was to examine the length of drying required to achieve a target pathogen reduction across a range of sausage diameters. This study investigated the relationship between product diameter and time required to achieve target reductions of Escherichia coli O157:H7, Salmonella enterica, and Listeria monocytogenes, as well as the attainment of specific water activity (aw). The research utilized salami and summer sausage with diameters of 18 mm, 30 mm, 60 mm, 90 mm, and 110 mm. Sausage batter was inoculated with 5 strains each of E. coli O157:H7, L. monocytogenes, and S. enterica. Inoculated sausages were processed with fermentation and drying protocols for each sausage type. Smaller diameter sausages reached both the desired pathogen reduction and target aw of 0.85 sooner than larger ones. However, the time to achieve the target aw did not align with the time to achieve the pathogen reduction targets, suggesting that aw alone is not a reliable indicator of safety. Another finding was larger sausages achieved the target pathogen reduction without reaching the target aw, suggesting complex relationship between aw, diameter, and pathogen inactivation. These data support the need for food safety guidelines that consider drying duration, aw, and pathogen behavior for varying sausage diameters. This research contributes to developing more precise safety protocols for producing dry and semi-dry fermented sausages.

Dual Role of Yeasts and Filamentous Fungi in Fermented Sausages.

This contribution aims to review the presence and the potential double role-positive or beneficial and negative or harmful-of fungi in fermented sausages as well as their use as starter cultures. Traditionally, studies have been focused on lactic acid bacteria; however, over the years, interest in the study of fungi has increased. The important contribution of yeasts and filamentous fungi to the quality and safety of fermented sausages has emerged from reviewing the literature regarding these fermented products. In conclusion, this review contributes to the existing literature by considering the double role of filamentous fungi and yeasts, the global fermented sausage market size, the role and use of starters, and the starters mainly present in the worldwide market, as well as the main factors to take into account to optimize production. Finally, some suggestions for future broadening of the sector are discussed.

Sucuk, Turkish-Style Fermented Sausage: Evaluation of the Effect of Bioprotective Starter Cultures on Its Microbiological, Physicochemical, and Chemical Properties

Bio-protection is one of the most popular natural protection methods to control food safety and shelf life. Lactic acid bacteria, especially Lactobacilli strains, are used in the food industry for this purpose due to their probiotic properties and, accordingly, bioprotective properties. We aimed to investigate the role of the bacteriocin-producing lactic acid bacteria Lactobacillus sakei and Pediococcus acidilactici in inducing microbiological, physicochemical, and chemical changes in the Turkish-style fermented sausage sucuk. The effects of protective cultures were compared with those of commercial starter cultures consisting of Pediococcus pentosaceus + Staphylococcus carnosus; a non-cultured group was used as a control. L. sakei inoculation and, to a lower extent, P. acidilactici inoculation resulted in the rapid domination of lactic acid bacteria (LAB) in the environment, whereas commercially used starter cultures and the non-cultured group showed lower counts of LAB. Moreover, L. sakei and P. acidilactici succeeded in inhibiting pathogens including S. aureus, E. coli, and Enterobacteriaceae. The number of enterococci decreased notably in the L. sakei-inoculated sucuk samples; however, an increase was determined in the samples inoculated with P. acidilactici. On the other side, the effect of commercial starter cultures was not sufficient for the inhibition of food-borne pathogens in the sucuk samples. Consequently, the inoculation of protective cultures, particularly of L. sakei, can provide a considerable contribution to improving microbial quality and food safety, retarding lipid oxidation, and increasing proteolytic activities in sucuk without important changes in its sensory properties.