Search Results (4,108)

Alternative proteins and novel processing technologies are crucial to transforming contemporary food systems into ones with lower environmental impact while meeting the rising global demand for protein. Alternative protein sources from plants, microbes, insects, and cultivated cells offer diverse nutritional and techno-functional attributes that can partially or fully replace conventional animal proteins in meat analogs and related products. This review synthesizes the current knowledge on major categories of alternative protein sources, including plant-based ingredients, microbial- and fermentation-derived proteins, insect and other emerging sources, and cultivated (cell-based) meat, with a specific focus on their suitability for structured meat analog applications. Modern structuring and processing technologies are discussed, including the traditional wet and dry extrusion to modern technologies like high-moisture extrusion, high-pressure processing, shear-cell technology, 3D printing, fermentation-based structuring, and enzymatic protein modification. Furthermore, this review critically evaluates product design and quality attributes of meat analogs, including physicochemical properties, sensory performance, nutritional aspects, and safety considerations. This review highlights technological and scale-up challenges, as well as the necessity of multi-criteria optimization in sensory quality, nutrition, sustainability, and affordability, and presents research priorities focused on combining multiple protein sources and advanced processing pathways for next-generation meat analog. This review provides an integrated framework linking protein sources, processing technologies, antioxidant functionality, and sustainability considerations to support the development of next-generation meat analogs. In addition, this review highlights the intrinsic antioxidant potential of alternative proteins, emphasizing the role of bioactive peptides, polyphenols, and structure–function relationships in enhancing oxidative stability and product quality. Full article

This study evaluated the effects of dietary supplementation with goji berries (Lycium barbarum) on the nutritional profile, oxidative stability, and shelf life of rabbit meat. Thirty-two rabbits were assigned to two dietary treatments: a control diet (CN) and the same diet supplemented with 3% dried goji berries (GJ). Proximate composition and fatty acid profile of the Longissimus thoracis et lumborum muscle were determined at dissection, whereas physical, microbiological, and biochemical parameters were evaluated during refrigerated storage (4 °C; 1, 4, and 10 days) and frozen storage (−20 °C; 60 and 120 days). Dietary supplementation significantly modified the lipid profile of the meat, reducing saturated fatty acids and increasing long-chain n-3 and n-6 polyunsaturated fatty acids. During refrigerated storage, lipid peroxidation increased in both groups; however, meat from the GJ group showed significantly lower TBARS values after 10 days (0.22 vs. 0.33 mg MDA/kg; p < 0.001), indicating improved oxidative stability. Lower accumulation of total volatile basic nitrogen (TVB-N), reduced formation of biogenic amines, and slower growth of spoilage-related microbial populations, particularly Pseudomonas spp., were also observed in GJ samples. Overall, the GJ diet improved fatty acid composition and delayed degradative processes during storage, suggesting its potential as a functional feed ingredient to enhance rabbit meat quality and shelf life. Full article

Oxidation and related quality deterioration remain a significant challenge for the food industry. Antioxidants are widely used to address these issues, and natural antioxidants are explored as alternatives to synthetic counterparts due to health concerns. This study investigated the impact of cherry powder (CP) on the oxidative stability and quality of ready-to-eat meat products. Beef patties were made and processed by sous vide cooking, then stored at 22 °C to simulate shelf-stable conditions, divided into six treatments: a negative and a positive control, and four CP concentrations (1%, 3%, 5%, and 7%). The antioxidant activities (TPC, FRAP, and DPPH), lipid oxidation, and microbial activity were measured over a 7-day storage period, along with the impact of processing on these parameters. CP significantly (p < 0.05) enhanced oxidative stability, reducing lipid oxidation compared to controls. Antioxidant activity was significantly (p < 0.05) affected by processing and decreased post-processing and storage, except for DPPH radical scavenging, which remained stable. CP showed no significant antimicrobial effect, as microbial counts in all treatments exceeded 10⁴ cfu/g by day 1, indicating elevated microbial levels and a decline in product quality, although they remained below the level generally considered unsatisfactory for ready-to-eat meat products. Colour analysis showed significant (p < 0.05) variations in L*, a*, and b* values post-processing and during storage. Overall, the CP addition improves the colour and oxidative stability and could be a potential source of antioxidants to maintain the quality of meat products. Full article

Canola meal, with environmentally friendly attributes, lower cost, and previous studies, is an interesting proteic source to partially replace the soybean meal for poultry nutrition. For that, in this work we aimed to investigate canola meal as a partial replacement of soybean meal in finishing poultry diets (21 to 49 days) on the productive performance, also including the impact on the quality, nutritional attributes and antioxidative status of valuable cuts of meat. Ninety-six 21-day-old chickens were assigned to four experimental diets (24/diet), with increasing doses of canola meal (CM 0, 2.5, 5 and 10%). Daily consumption, weekly live weight and post mortem carcass weight and yield were determined. At 24 h post mortem, pH, color (CIE L, a*, b*) and drip loss were measured in the breast, drumstick and thigh cuts. Fatty acid composition and health lipid indexes were also determined in the fresh cuts. The oxidative status of lipids and proteins, polyphenol and flavonoids content in fresh and in stored (7 days-display at 4–6 °C) in vacuum packaged cuts were determined. Including CM, up to 10%, the feed intake and growth of birds was not affected (p = 0.74 and p = 0.87 respectively). In meat, CM significantly decreased the drip loss (p < 0.05), the pH in breast and thigh (p = 0.01 and p = 0.05 respectively), a lower L and b in thigh and increased PUFAs in more oxidative cuts, with a strong interaction between dose and muscle type. There was no effect on lipid oxidation while carbonyls decrease at a 2.5% dose in fresh and stored cuts but there is an increase with higher ones. Flavonoids raise the maximum deposition in meat at 5% CM. In conclusion, CM can be included in finishing poultry diets, but high doses must to be adequately managed if performance and quality of meat criteria are considered together. Full article

Oyster aquaculture offers promising opportunities for diversifying marine production in the Romanian Black Sea, where favorable environmental conditions and recent regulatory developments support shellfish farming. This study aimed to generate baseline data for the cultivation of the Pacific oyster, Magallana gigas, through an in situ experimental trial conducted off Mamaia Bay, Romania. A 50 m experimental long-line system was deployed at 13.5 m depth, and triploid oysters were cultured for one year at two depth horizons (3 m and 6 m). The growth performance, meat yield, Condition Index, microbiological quality, environmental parameters, and epibiotic communities were monitored monthly. Cultivation depth significantly influenced oyster growth, with individuals reared at 6 m consistently achieving a greater wet weight and shell length than those at 3 m. Growth rates peaked during spring, and meat yield values indicated good commercial quality. Environmental monitoring showed strong seasonal variability, with high summer temperatures and reduced dissolved oxygen associated with increased mortality. Microbiological analyses revealed higher bacterial loads during warm months. The Condition Index classified the oysters as generally “fine” to occasionally “special”. Overall, the results demonstrate that Black Sea conditions can support successful cultivation of M. gigas, although seasonal environmental stress and epibiosis require appropriate farm management. Full article

Black-boned chicken is a native and valuable breed that is very important in the meat products of China. However, the molecular mechanisms underlying differences in muscle flavor between sexes remain unclear. In this study, 360-day-old male (BM, n = 6) and female (BF, n = 6) Xichuan black-boned chickens were used to screen differential lipids and differential flavor compounds in breast muscle tissue by lipidomics and flavoromics. This was followed by multivariate statistical analysis, functional enrichment and correlation network analysis of the differential lipids and flavor compounds obtained. Lipidomics identified 419 differential lipids associated with BM vs. BF, which were mainly enriched in glycerolipid metabolism and metabolic pathways. Flavoromics analysis identified 61 differential flavor compounds, and enrichment analysis showed that the terpenoid backbone biosynthesis pathway may be correlated with chicken muscle flavor formation. Correlation analysis revealed that triglyceride-type lipid molecules were closely related to the flavor compound 3-ethyl-2-methylheptane. These findings provide novel insights into the sex-related differences in the meat quality of Xichuan black-boned chickens, offering important data for their recognition and evaluation. Full article

This study investigated the interactive effects of silage type (corn silage, CS vs. sweet sorghum silage, SS) and nitrogen source (soybean meal, SM vs. slow-release urea, SRU) on lamb meat quality. Results indicated that silage type minimally affected basic chemical composition, although CS-fed lambs exhibited higher ether extract content. Compared to CS, the SS group displayed higher redness (a*) and enhanced antioxidant capacity. SRU improved meat tenderness by reducing Warner-Bratzler Shear Force (WBSF) by 20.40%, with limited effects on other quality traits. Notably, fatty acid profiles and health indices (IA, IT, HH, and HPI) were significantly modulated by the silage × nitrogen interaction. Specifically, the SS diet increased polyunsaturated fatty acids (e.g., LA, EPA, DHA) and achieved a 25.44% higher fish lipid quality (FLQ) value. Crucially, while SRU substitution in the SS diet showed no adverse effects on health value, it detrimentally affected these indices in the CS diet. In conclusion, sweet sorghum silage enhances meat quality and offers superior health benefits, and while SRU improves tenderness, its application requires caution in CS-based diets due to potential negative impacts on nutritional value. Full article

Plant polysaccharides, such as Astragalus polysaccharide (APS) and Glycyrrhiza polysaccharide (GPS), hold potential as feed additives, yet their individual and synergistic effects on squab meat quality remain unclear. In this study, 192 healthy, 15-day-old, early-weaned Silver King squabs were assigned to one of four dietary treatments for 28 days: a control group (CK), an APS group, a GPS group, and a combined APS + GPS group (AG). Slaughter traits, organ indices, liver antioxidant capacity, and meat quality were evaluated across the four groups. Results indicated that supplementation with APS, GPS, and AG enhanced several slaughter traits compared to CK, including live weight, carcass weight, full-eviscerated weight, half-eviscerated weight, and leg muscle weight. GPS and AG supplementation improved color parameters in both breast and leg muscles, with AG showing the most favorable tenderness-related outcomes. Additionally, AG supplementation enhanced liver antioxidant capacity, as evidenced by increased total antioxidant capacity and superoxide dismutase activity. Given AG’s superior overall performance, the ileal metabolomics analysis focused on comparing CK and AG. Metabolomics data revealed clear group separation and significant changes in amino acid-related pathways. In summary, while APS and GPS individually improved certain traits, their combined supplementation yielded the most favorable results, likely through enhanced antioxidant capacity and altered ileal amino acid metabolism. Full article

Marine mucilage events are intensifying in semi-enclosed seas under accelerating climate- and nutrient-driven pressures, yet their ecosystem-level consequences for aquaculture-linked coastal habitats remain insufficiently documented. This study provides an integrated spatiotemporal assessment of water quality, phytoplankton community structure, and biometric responses of Mytilus galloprovincialis during and after the 2025 mucilage outbreak in the Gulf of Erdek (Sea of Marmara, Türkiye). Mucilage accumulation was associated with sharp increases in turbidity, total suspended solids, and particulate organic matter, alongside declines in dissolved oxygen and pH. Phytoplankton assemblages exhibited marked seasonal restructuring: the mucilage period was characterized by the coexistence of mucilage-forming taxa, non-toxic bloomers, and multiple harmful algal bloom (HAB) groups, including DSP- and ASP-related species, whereas post-mucilage conditions were dominated by non-toxic diatoms with substantially reduced HAB representation. The dinoflagellate species representing the May period in terms of abundance were Noctiluca scintillans and Prorocentrum micans; the diatom species were Chaetoceros radiatus, Cylindrotheca closterium, Pseudo-nitzschia pseudodelicatissima, and Thalassiosira rotula; and the coccolithophore was Phaeocystis pouchetii. Mussel biometric analyses revealed biometric indices and condition values markedly below regional historical baselines during the mucilage event, alongside reduced meat yield, followed by pronounced compensatory growth during the post-mucilage period. Our findings demonstrate that mucilage acts as both a physical and biological stressor, driving short-term ecological shifts in phytoplankton diversity and imposing substantial but reversible physiological impacts on mussel stocks. These results underscore the need for continuous biodiversity monitoring frameworks that integrate mucilage dynamics, HAB occurrence, and aquaculture resilience in regions vulnerable to climate-enhanced organic aggregate formation. Full article

This study focuses on the selection of hybrid combinations of Hu sheep and meat quality analysis. A comparative analysis of meat quality and volatile flavor compounds was conducted using three hybrid groups—Australian White–Hu (AH), White Suffolk–Hu (SH), and Southdown–Hu (NH)—and a pure Hu sheep group (HH) as research subjects. The results show that in terms of basic nutritional quality, the moisture content in the NH group was significantly higher than that in the HH group (p < 0.05), and the crude protein content in the NH group was significantly higher than that in the HH group (p < 0.05). Regarding physicochemical properties, the NH group had significantly higher meat color scores, L*, a*, and b* values, than the other groups (p < 0.05), along with the best tenderness and cooking yield. An analysis of amino acids, fatty acids, and volatile flavor compounds in lambs from different hybrid combinations revealed significant differences in the contents of lys, thr, asp, and his (p < 0.01). Although no significant differences were found in the fatty acid composition scores among the AH, SH, NH, and HH groups, all groups met the FAO/WHO recommended values. The NH group not only had the highest MUFA and total fatty acid content but also the highest levels of trans-petroselinic acid and trans-vaccenic acid, the two most abundant trans fatty acids. A total of 43 volatile organic compounds were detected in the four groups, among which 10 were identified as differential compounds. This study provides a scientific basis for the hybrid utilization of Hu sheep and offers technical support for the transformation and upgrading of the regional meat sheep industry. Full article

This study systematically evaluated the potential of five native starches, including corn (CS), potato (PS), tapioca (TS), rice (RS), and sweet potato (SPS), as fat replacers in low-fat pork sausages. The obtained results showed that amylose content varied significantly, with PS and SPS having the highest levels (30.06% and 28.60%, respectively), which were beneficial for forming starch gels. Correspondingly, PS and SPS demonstrated the highest solubility and swelling power. In sausage applications, PS and SPS exhibited superior water-retention capacities, with drying losses of 6.75% and 7.03%, and cooking losses of 2.23% and 2.52%, which were lower than those of the normal control (NC) and low-fat control (LFC) groups. Moreover, the results of texture profile analysis revealed that PS and SPS enabled the sausages to achieve the highest levels of hardness and springiness, contributing to maintaining the moisture retention and toughness of the sausages. Electronic tongue and nose analyses indicated that incorporating these starches did not adversely affect the taste and odor profiles of the sausages, except for RS, which showed distinct flavor encapsulation properties. Overall, PS and SPS served as excellent fat replacers in the meat industry, offering healthier alternatives without compromising product quality. Full article

This study evaluated the effects of DL-methionine (DL-Met) and hydroxy–methionine (OH-Met) on the performance and meat quality of finishing pigs raised under intermittent hot environmental conditions. A total of 120 pigs (PIC337 × Camborough; 63.26 ± 4.49 kg initial body weight) were assigned to two dietary treatments in a randomized block design. Growth performance, carcass traits, and physicochemical meat parameters were assessed during the finishing period. Overall performance and carcass characteristics did not differ between treatments (p > 0.05). However, during finishing phase II (141–168 days), pigs fed OH-Met showed higher average daily gain (ADG; 1.027 vs. 0.957 kg/day; p < 0.05) and improved feed conversion ratio (FCR; 2.862 vs. 3.028; p < 0.05) compared with DL-Met. Meat from pigs receiving OH-Met presented a higher pH at 24 h postmortem (5.78 vs. 5.63; p = 0.022) and reduced water loss by pressure (26.14% vs. 28.78%; p = 0.047). No differences were detected for backfat thickness, longissimus dorsi depth, lean percentage, color parameters, or lipid oxidation (TBARS) (p > 0.05). In conclusion, under intermittent heat stress conditions during the late-finishing phase, diets formulated with OH-Met resulted in improved growth efficiency and reduced meat water loss compared with DL-Met diets. Full article

Against the backdrop of the full implementation of “antibiotic ban” and “zinc restriction” policies in livestock and poultry breeding, and the growing consumer demand for safe livestock and poultry products, the development of natural and efficient green feed additives has become crucial for the sustainable development of the animal husbandry industry. Curcumin, a natural polyphenolic compound extracted from the rhizome of Curcuma longa L., has attracted extensive attention in poultry production due to its various biological activities and safety. This paper thoroughly reviews the chemical structure and physicochemical properties of curcumin, and elaborates on its core molecular mechanisms of action, which mainly involve the regulation of nuclear factor erythroid 2-related factor 2 (Nrf2)/antioxidant response element (ARE), nuclear factor-κB (NF-κB), peroxisome proliferator-activated receptor γ (PPAR-γ), and mitogen-activated protein kinase (MAPK) pathways to exert antioxidant, anti-inflammatory, antibacterial, immunomodulatory and lipid metabolism regulatory effects. It further clarifies the practical application value of curcumin in major poultry species including broilers, laying hens, ducks and quails, showing that curcumin can significantly improve poultry production performance, optimize meat and egg quality, protect intestinal health, and enhance the ability of poultry to resist stress and diseases. Meanwhile, the review notes curcumin’s current application limitations (low bioavailability, poor stability, unclear standardized dosage, and high industrialization cost) and proposes targeted future research directions to address these issues. In conclusion, curcumin is a promising green feed additive alternative to antibiotics, and its large-scale and standardized application in poultry production will effectively promote the green, healthy and sustainable development of the poultry industry. Full article

In this study, we examined whether dietary ADY improves growth, digestibility of feed nutrients, meat quality, and rumen microbial ecology in lambs. This experiment enrolled 90 healthy, similarly weighted (29.0 ± 0.5 kg) four-month-old Duhan lambs, which were randomly and evenly distributed into two treatment groups: a control group fed the basal diet and an ADY group fed the basal diet supplemented with 0.3 g/d per lamb of active dry yeast. The supplementation amount was adjusted weekly according to feed intake to maintain a constant daily dose. The results showed that, compared with the control group, ADY significantly increased the lambs’ average daily gain (ADG) and enhanced the apparent digestibility of neutral detergent fiber (NDF), crude protein (CP) (p < 0.05), and significantly reduced the feed conversion ratio (F/G) (p < 0.05). These improvements were accompanied by a shift in rumen fermentation toward propionate production, evidenced by higher NH₃-N, Total volatile fatty acids (TVFAs) and propionate proportion and a lower acetate proportion and acetate-to-propionate ratio (p < 0.05). ADY also altered the rumen microbiota, increasing Proteobacteria and Succinivibrionaceae_UCG-001 while decreasing norank_o_Clostridia_UCG-014 (p < 0.05). In muscle, ADY significantly increased the proportions of C14:0 and C18:3n-3 (p < 0.05). In addition, the proportion of C13:0, C18:0 and C18:2n-6t were significantly reduced (p < 0.05). In conclusion, dietary supplementation with ADY enhanced rumen fermentation, improved rumen microbial composition, and promoted nutrient utilization in lambs, thereby improving growth performance and meat quality. In addition, certain rumen microbial taxa may be associated with the formation of specific muscle fatty acids. Full article

In response to the growing global demand for food, intensive genetic selection programs have been implemented to improve livestock efficiency and productivity. Understanding how such selection alters metabolism across nutritional stages is essential for optimizing feeding strategies. In this study, we examined the impact of long-term genetic selection for growth rate (GR) on the plasma metabolome of reproductive female rabbits using an untargeted metabolomics approach. Two vitrified–rederived populations from the same paternal line but separated by 18 generations of GR selection (R19V and R37V) were compared under identical environmental and nutritional conditions. We analyzed 48 plasma samples, showing that GR selection significantly influenced the metabolomic profile. Notably, R37V does exhibited a 76% increase in phospholipid LysoPE (0:0/20:4) concentrations (p < 0.0001) than R19V. GR selection affected key metabolites related to lipid metabolism and energy balance, reflecting potential changes in nutrient utilization efficiency. These findings highlight the interplay between genetics and nutrient efficiency in shaping the metabolome, offering insights that may support nutritional management in genetically improved livestock. Full article