Search Results (89)

The present study was conducted to evaluate recently developed pungent and unpungent red pepper varieties for paprika production with respect to carotenoid and tocopherol composition and content. Varieties with outstanding traits were cultivated using various methods to determine the optimal conditions for maximizing bioactive component levels. The biologically ripe fruits of these varieties were stored under ambient conditions to initiate postharvest overripening. Carotenoids and tocopherols were analyzed using recent HPLC methods. The different varieties of pungent pepper differed significantly in the levels of carotenoid groups and tocopherols. Among pungent breeds, Hetényi Triász (HET-T), CF5, and Uniring (UNIR) showed the highest levels of total carotenoids (1967.39 ± 260.35, 1642.72 ± 67.41, and 1609.07 ± 524.52 µg g⁻¹, respectively). The highest amounts of provitamin A (187.60 ± 8.19 µg g⁻¹) were recorded in the CF5 variety. As regards tocopherols, the highest concentration (547.09 ± 44.20 µg g⁻¹) was recorded for CF5, with no significant differences among the studied varieties. However, the content of vitamin E was significantly higher in CF1 and CF5 than in HET-T and UNIR. Notably, under organic farming conditions, the carotenoid content in UNIR was significantly lower than in the direct-sowing and seedling-transplantation modes. Organic farming of UNIR resulted in lower levels of all carotenoid groups compared with other cultivation modes, particularly conventional seedling transplantation. The indoor cultivation of the unpungent Borbási genotype did not significantly improve the carotenoid content, particularly the total red xanthophylls. Ambient postharvest overripening led to a substantial increase, up to 3-fold, in carotenoid group content in both pungent and non-pungent genotypes. The average value for the total carotenoid content increased from 5005.7 to 8208.3 µg g⁻¹ in unpungent varieties and from 1896.4 to 3426.8 µg g⁻¹ in pungent varieties. For tocopherols, overripening had a slightly positive effect on total tocopherol (from 1375.3 to 1594.7 µg g⁻¹) and esterified forms of vitamin E in pungent breeds with a significantly high increase from 532.0 to 823.7 µg g⁻¹. In conclusion, postharvest overripening is indispensable for obtaining paprika products with an outstanding content of bioactive compounds, particularly red carotenoid diesters. Based on carotenoid content and response to overripening of red and total carotenoids, the UNIR and Borbási varieties are superior to other pungent and unpungent genotypes, respectively. The positive impact of postharvest overripening on carotenoid and tocopherol levels depended mainly on genetic factors. Full article

This study evaluated the performance of thermochromic windows as dynamic envelopes for smart greenhouses, focusing on the light environment and cooling load under peak summer conditions. Four covering materials, glass, Low-E glass, polycarbonate, and thermochromic windows, were compared using EnergyPlus (v9.2.0) simulation for an 8-span greenhouse with a floor area of 1008 m² in Gwangju, South Korea, on a representative summer day of 21 July. Thermochromic properties were modeled with temperature-dependent SHGC variations from 0.521 at 25 °C to 0.425 at 85 °C. Results showed that thermochromic windows reduced noon illuminance by 75% compared to conventional glass, from 26,482 lux to 6628 lux, while maintaining adequate light levels above the compensation point for tomato and paprika cultivation. Simultaneously, peak cooling load decreased by 13.1%, from 537,929 W to 467,477 W, outperforming Low-E glass at 9.2% and polycarbonate at 7.0%. At peak hours of 1:00 p.m., when the glass surface temperature reached 60.5 °C, the thermochromic glazing reduced transmitted solar radiation by 37.8% per unit area compared to conventional glass. This study demonstrates that thermochromic windows effectively balance photosynthetic light provision and cooling energy reduction in smart greenhouses, offering a viable design solution for controlled environment agriculture under extreme summer conditions. Full article

White radish is a nutritious root vegetable that provides dietary fiber, essential vitamins and minerals, and a range of bioactive compounds. This study aimed to determine how steam and microwave blanching, pulsed electric field, ultrasound, osmotic dehydration with inulin or trehalose, and coating with spices such as turmeric or sweet paprika influence the characteristics of convective infrared dried white radish slices. To assess the effect of each pretreatment, moisture content, water activity, shrinkage, density, texture, color parameters, structural characteristics (SEM and µ-CT), vapor adsorption, thermal changes, and antioxidant properties were analyzed. Osmotic dehydration with inulin most effectively limited shrinkage and color change, stabilized the microstructure, and resulted in the highest relative phenolic content and antioxidant activity (TPC, DPPH). Spice-coated samples showed low shrinkage, low hardness and breaking work, and vivid color. Furthermore, µ-CT microstructure analysis showed that these samples had the highest porosity, with those with paprika reaching 57.5%. In contrast, blanching, ultrasound, and PEF led to greater structural changes and increased hygroscopicity. Multivariate analyses confirmed the significant influence of the type of pre-treatment on the quality characteristics of the dried material. Osmotic dehydration and spice coating proved to be the most effective methods for obtaining structurally stable and visually attractive dried white radish slices with attractive bioactive compounds. Full article

Mycotoxins are toxic secondary metabolites produced mainly by filamentous fungi of the genera Aspergillus, Penicillium, and Fusarium and pose a significant food safety concern. This review summarizes current literature on the occurrence of major regulated and emerging mycotoxins, including aflatoxins, ochratoxin A, fumonisins, trichothecenes, zearalenone, and selected Fusarium and Alternaria metabolites, in herbs, spices, and plant-based dietary supplements. Available data indicate that spices—particularly chilli, paprika, ginger, and various types of pepper—represent high-risk commodities and are often more heavily contaminated than dried herbs. Although reported concentrations of individual mycotoxins are frequently low to moderate, numerous studies highlight the common co-occurrence of multiple toxins within a single product, raising concerns regarding cumulative and combined toxic effects. Dietary supplements, especially those containing concentrated plant extracts such as green tea or green coffee, are also identified as potential sources of multi-mycotoxin exposure. The review outlines key analytical approaches for mycotoxin determination, emphasizing the critical role of sample preparation for chromatographic analysis in complex plant matrices. Despite increasing evidence of contamination, important knowledge gaps persist regarding emerging mycotoxins, underrepresented botanical matrices, and long-term exposure assessment, while regulatory limits remain incomplete or inconsistent. Continued monitoring and harmonized analytical and risk assessment strategies are, therefore, essential to ensure consumer safety. Full article

Emerging Alternaria mycotoxins tenuazonic acid (TeA), alternariol (AOH), alternariol monomethyl ether (AME), altenuene (ALT) and tentoxin (TEN) were detected in samples of spices and herbs. A total of 92 samples purchased in Italian markets were analyzed by using a UPLC-MS/MS method. TeA was the predominant mycotoxin with the highest percentage of positive samples (53%), followed by AME, AOH and TEN with overall means of 801.5, 2.4, 6.2 and 10.8 µg/kg, respectively. All samples were negative to ALT. The spices with higher levels of mycotoxins were flax seeds, paprika, red chili and licorice; regarding herbs, they were basil, sage and oregano. While TeA was found to be the most abundant mycotoxin equally in Italian and Lebanese samples, AOH and AME showed significantly lower levels in Italian samples, as Lebanese samples contained concentrations up to 14 times higher. Considering the mean levels of TeA in samples, the daily consumption of >8.7 g of flax seeds, >9.3 g of paprika and >5.8 g of red chili will exceed the threshold of toxicological concern (TTC) of TeA, which is 1500 ng/kg bw for a day. The high percentage of positive samples and the high levels of some mycotoxins observed demonstrate the susceptibility of spices and herbs to Alternaria mycotoxin contamination. These results provide an overview of emerging Alternaria mycotoxins in spices and herbs marketed in Italy and represent a valuable starting point to assess human exposure and support future studies aimed at establishing safe limits to protect human health. Full article

Background/Objective: Paprika xanthophylls (PXs) have potent antioxidant properties and are believed to improve oxygen delivery (DO₂) efficiency by enhancing red blood cell (RBC) deformability. This study investigated whether PX ingestion improves endurance performance and subsequently enhances cognitive function by improving brain microcirculation. Methods: A crossover design was used to compare the effects of PX ingestion and a control condition in 21 healthy college students (18 males, 3 females). Each participant served as their own control, completing both conditions in a randomized order with a one-month washout period to eliminate any carryover effects. The participants underwent an incremental load test, a constant load test, the Trail Making Test Type B (TMT-B), and the Stroop test (ST). Results: In the incremental tests, the PX group showed a significantly lower heart rate (p = 0.032) and higher exercise efficiency (EE) (p = 0.004). In the constant load test, heart rate was lower (p = 0.020), and EE was higher (p = 0.030). No significant between-group differences were found in the cognitive tests; however, the PX group showed significant improvements in the TMT-B (p = 0.034) and ST interference rate I (p = 0.040). Conclusions: It is speculated that PX intake may improve DO₂ efficiency, which could contribute to the observed enhancements in endurance performance and, in turn, positively affect cognitive function by optimizing the brain’s oxygenation state. However, due to the absence of a placebo control group and unmeasured RBC deformability and cerebral blood flow, as well as a significant male predominance, this study’s results should be interpreted with caution. Full article

The authentication of high-value spices such as paprika and cinnamon is critical due to increasing food fraud. This study explored the potential of a multi-analytical approach, combined with chemometric tools, to differentiate 45 paprika and 46 cinnamon samples from the Slovenian market based on their geographic origin, production methods, and possible adulteration. The applied techniques included stable isotope ratio analysis (δ¹³C, δ¹⁵N, δ³⁴S), multi-elemental profiling, FTIR, and antioxidant compound analysis. Distinct isotopic and elemental markers (e.g., δ¹³C, δ³⁴S, Rb, Cs, V, Fe, Al) contributed to classification by geographic origin, with preliminary classification accuracies of 90% for paprika (Hungary, Serbia, Spain) and 89% for cinnamon (Sri Lanka, Madagascar, Indonesia). Organic paprika samples showed higher values of δ¹⁵N, δ³⁴S, and Zn, whereas conventional ones had more Na, Al, V, and Cr. For cinnamon, a 95% discrimination accuracy was achieved between production practice using δ³⁴S and Ba, as well as As, Rb, Na, δ¹³C, S, Mg, Fe, V, Al, and Cu. FTIR differentiated Ceylon from cassia cinnamon and suggested possible paprika adulteration, as indicated by spectral features consistent with oleoresin removal or azo dye addition, although further verification is required. Antioxidant profiling supported quality assessment, although the high antioxidant activity in cassia cinnamon may reflect non-phenolic contributors. Overall, the results demonstrate the promising potential of the applied analytical techniques to support spice authentication. However, further studies on larger, more balanced datasets are essential to validate and generalize these findings. Full article

This study evaluated the effects of natural pigments, such as paprika extract and marigold flower extract, on performance, egg quality, carotenoid content in the yolk, and shelf life of Japanese quail eggs. The experiment included 160 birds, divided into 4 treatment groups, as follows: 0.8% paprika extract, 0.8% marigold flower extract, 0.8% paprika/marigold (P/M) mixture, and a control group. The experiment lasted 84 days. The inclusion of paprika, marigold, or their combination did not affect performance parameters, except for feed conversion, which was significantly poorer in the supplemented groups compared to the control. An improvement in yolk color was observed, particularly in the marigold group, which showed higher concentrations of β-carotene (40 g/kg). Yolk color intensity, measured using the L*, a*, and b* scales, was enhanced in all supplemented groups. During storage, yolk weight increased after 5.72 days, while albumen weight showed a significant reduction starting at 4.30 days, with a more pronounced decrease after 6.6 days. Albumen diameter expanded after 15.7 days of storage, and the Haugh unit was significantly affected from the 17th day onward. Yolk percentage decreased after 4.06 days, while albumen and eggshell percentages decreased after 4.10 and 3.41 days, respectively. These results suggest that paprika and marigold extracts are effective in improving yolk color and maintaining egg quality without compromising performance. However, a poorer feed conversion by mass was observed in the groups fed with the paprika, marigold, and the (P/M) mixture, compared to the control group. These natural pigments also positively impacted egg quality, particularly in terms of color intensity and internal parameters, and helped maintain egg quality during storage, meeting consumer expectations for high-quality products. Future studies should focus on evaluating the antioxidant effects of these pigments in eggs, as this could provide a deeper understanding of their potential benefits, both in terms of nutritional quality and shelf-life enhancement. Full article

Fruit instance segmentation models are widely researched for inference tasks such as yield prediction and automated harvesting. Previous studies evaluated these models only on the basis of mask average precision; they overlooked segmentation quality and confidence score reliability—both crucial for inference tasks. This study proposes an evaluation method that incorporates, in addition to mask average precision, the Aggregated Jaccard Index to assess segmentation quality and the coefficient of determination between confidence scores and Intersection over Union for reliability evaluation. We compared YOLO11, Mask R-CNN, and their improved variants using a dataset that included stable and comprehensive imaging obtained by monitoring equipment in a large-scale commercial paprika greenhouse. Results show that mask scoring R-CNN excels in segmentation quality, while YOLO11 performs better in mask average precision and confidence score reliability. These findings suggest that when evaluating instance segmentation models for real-world application scenarios, we should not rely solely on mask average precision, but a combination of multiple metrics that assess different aspects of the model must be utilized. Full article

This study was conducted to investigate the effects of different levels of photosynthetic photon flux density on the growth of paprika seedlings cultivated in rockwool blocks. The seedling height and internode length were significantly shorter in LED light treatments than in sunlight, and there was no difference among the PPFDs of LED light. On the other hand, leaf number and area of seedlings were significantly higher and wider, respectively, in sunlight than in 150 μmol·m⁻²·s⁻¹ treatments. The influence levels on the dry weight were 20% lighter than those on the fresh weight. The higher the PPFD of LED light, the better the seedling quality. The leaf area and dry weight of seedlings in 200 μmol·m⁻²·s⁻¹ treatments were 582 cm²/plant and 2.01 g/plant, respectively, higher by 35% and 70%, respectively, than in 100 μmol·m⁻²·s⁻¹ treatments. The leaf area (Y₁) had a significant dependence on PPFD (x), as Y₁ = 75.3x + 368 (R² = 0.9307 **). Also, the dry weight (Y₂) of the seedlings showed a linear regression equation, as Y₂ = 0.415x + 0.811 (R² = 0.9674 **). The chlorophyll content based on the SPAD value significantly increased as the light intensity increased to 50 μmol·m⁻²·s⁻¹. When the results were synthesized, the seedling quality was lower in the natural light conditions than in the 150 μmol·m⁻²·s⁻¹ treatments. Full article

The aim of this research is to investigate the potential of Raman and FT-IR spectroscopy as well as mathematical linear and non-linear models as a tool for the discrimination of different seed varieties of paprika, tomato, and lettuce species. After visual inspection of spectra, pre-processing was applied in the following combinations: (1) smoothing + linear baseline correction + unit vector normalization; (2) smoothing + linear baseline correction + unit vector normalization + full multiplicative scatter correction; (3) smoothing + baseline correction + unit vector normalization + second-order derivative. Pre-processing was followed by Principal Component Analysis (PCA), and several classification methods were applied after that: the Support Vector Machines (SVM) algorithm, Partial Least Square Discriminant Analysis (PLS-DA), and Principal Component Analysis-Quadratic Discriminant Analysis (PCA-QDA). SVM showed the best classification power in both Raman (100.00, 99.37, and 92.71% for lettuce, paprika, and tomato varieties, respectively) and FT-IR spectroscopy (99.37, 92.50, and 97.50% for lettuce, paprika, and tomato varieties, respectively). Moreover, our novel approach of merging Raman and FT-IR spectra significantly contributed to the accuracy of some models, giving results of 100.00, 100.00, and 95.00% for lettuce, tomato, and paprika varieties, respectively. Our results indicate that Raman and FT-IR spectroscopy coupled with machine learning could be a promising tool for the rapid and rational evaluation and management of genetic resources in ex situ and in situ seed collections. Full article

Yarrow has long been known as a medicinal plant and has recently been gaining in importance as a cosmetic plant. The purpose of the study was to perform a phytochemical evaluation of extracts from yarrow herb of the Paprika cultivar, which has not previously been studied in this regard, and to determine its protective, antioxidant, and antimicrobial properties. Comparative analysis of two types of extracts, obtained by ultrasound-assisted extraction (UAE) and supercritical fluid extraction (SFE), showed that the former had higher content of bioactive compounds, including polyphenols, flavonoids, phenolic acids, and condensed tannins, as well as better antioxidant properties, as determined by spectrophotometric methods (DPPH and FRAP). The biological properties of the water–ethanol yarrow herb extract obtained by UAE was tested in vitro on 15 microbial strains (14 bacterial strains and one fungal strain), as well as on two lines of skin cells: HaCaT keratinocytes and HDF fibroblasts. In addition, the sun protection factor and rheological characteristics of a model cosmetic cream based on the extract were determined. Yarrow extract was shown to exhibit a number of important activities for cosmetic ingredients, including antimicrobial, antioxidant, photoprotective, and anti-ageing activity. The results of the study indicate that this material has potential applications in cosmetics, e.g., in products for mature skin with signs of ageing such as wrinkles or hyperpigmentation. Full article

Peppers (Capsicum spp.) represent not only a plant with a demonstrated history of diverse medicinal applications but also a species having non-neglectable adverse effects potential. “Chili burn” or Hunan hand syndrome represents a type of contact dermatitis rarely appearing after using chili peppers. Here, a case of “chili burn” with no specific treatments or sequelae is presented. A young woman presented with contact dermatitis after first- and second-time dermal exposure to a chili pepper. A strong burning sensation appeared shortly after on the hands and around the mouth after exposure to the plant. The patient applied non-specific measures (hand washing with mild soap and rinsing the affected areas with acidic solutions) with minor improvement; finally, the “chili burn” resolved itself. No other medicines were applied, and no consequences were recorded. Although rare, the use of chili pepper has the potential to cause contact dermatitis. The awareness of medical professionals of this entity should provide adequate diagnosis and treatment for patients. Full article

In this study, carotenoids from four different paprika genotypes were analyzed at various maturation stages, as well as in Ajvar, a traditional Balkan product made from fully matured roasted paprika fruits. For this purpose, the HPTLC analytical method was used, and five dominant carotenoids were analyzed: β-carotene, lutein, zeaxanthin, capsanthin, and β-cryptoxanthin. Additionally, total carotenoids were analyzed spectrophotometrically, antioxidant capacity was determined, and their bioavailability was assayed using in vitro digestion. Finally, Raman spectroscopy, a non-destructive analytical method, was used to estimate the total carotenoid content. The results showed that the amount of all investigated carotenoids is the highest in the final maturity stage (0.38 g/100 g DM to 1.55 g/100 g DM). On the other hand, the lowest concentration of all investigated carotenoids was detected at the first stage of maturation, ranging from 0.01 g/100 g DM to 0.25 g/100 g DM. However, the analysis of carotenoid content in Ajvar showed a tendency for a decrease in concentration compared to their quantity in fresh fruits, although this was also dependent on the genotype (1.9–66.98% according to HPTLC results and 16.14–82.36% according to spectrophotometry). Antioxidant tests indicated an increase in antioxidant capacity with the ripening of paprika fruits, confirming the role of carotenoids as compounds capable of neutralizing harmful oxygen species (DPPH ranged from 0.21 to 1.50 µmol/g TEAC, CUPRAC ranged from 0.185 to 0.297 mg AsA/g DM, FRP ranged from 9.33 to 25.66 mg AsA/g DM). Quantification of total carotenoids by Raman spectroscopy showed that results were highly correlated with those obtained by HPTLC and the spectrophotometric method, highlighting the potential of Raman spectroscopy for carotenoid quantification. Based on the obtained results, it can be concluded that the traditional product Ajvar represents an important source of carotenoids, which are preserved after heat treatment with high biological activity relative to the final ripening stage of the paprika. Furthermore, the bioavailability of carotenoids from Ajvar is significantly higher compared to the results from fresh paprika analysis. Full article

The content of polycyclic aromatic hydrocarbons (PAHs) in a traditional Spanish smoked sausage known as ‘Botillo del Bierzo’ was analysed. The determination and quantification of PAH4 (the sum of benzo[a]pyrene, benz[a]anthracene, benzo[b]-fluoranthene and chrysene) in the smoked sausage were performed using GC–MS. The results showed that smoking ‘Botillo del Bierzo’ for 24 h contributes very little to the increase in PAH levels in the product, with no significant differences (p < 0.05). The paprika used in the production of botillo also contributes to PAH content, depending on the paprika’s production process (smoked, low-smoked, mixed paprika (smoked + unsmoked or low-smoked + unsmoked), and unsmoked), with significant differences among them (p < 0.05). Using paprika with a lower PAH content (unsmoked or mixed) enables the production of ‘Botillo del Bierzo’, in accordance with Protected Geographical Indication specifications, with a lower PAH content while maintaining the organoleptic characteristics provided by the paprika. The contamination levels detected in ‘Botillo del Bierzo’ do not pose a risk to consumer health, as the benzo[a]pyrene and PAH4 values are well below the regulatory limits of 5 μg/kg and 30 μg/kg, respectively. Full article