卷 7, 编号 1 (2024)

The aim of the study was the qualitative and quantitative determination of volatile aroma compounds and their formation pathways in brine Ossetian cheeses. Volatile components of cheeses were isolated by steam distillation and extraction with dichloromethane, with their subsequent determination and quantification by gas chromatography-mass spectrometry. The results of the analysis are presented according to the structural classes of the main chemical components and the corresponding microbial metabolic processes. Four processes were found to be the main contributors to flavor formation: lipolysis, proteolysis, glycolysis, and a number of oxidative enzymatic transformations. Lipolysis of the fatty fraction of cheeses is a source of formation of volatile carboxylic acids and their esters. Proteolysis of the casein fraction yields branched alcohols, aldehydes, and a number of aromatic and heteroaromatic compounds. Glycolysis of the carbohydrate fraction is a source of ethanol formation, which is the main cause of the dominance of ethyl esters in the ester fraction. Redox enzymatic transformations mainly determine the biosynthesis of unbranched aldehydes, ketones and lactones. A clear distinction between retail and homemade cheeses was observed, due to the different technological approaches to the cheese preparation. The structuralchemical and quantitative evolution of the volatile composition of the studied cheese samples during ripening is tentatively shown. From the authors’ point of view, the aromatic composition of the Tib cheese sort is the most consistent with the Ossetian cheese standard. This study represents the first gas chromatographic study of Ossetian cheeses and aims to create objective criteria for controlling technological processes and product quality during production and storage in the food industry.

This review is devoted to an analysis of the hemp ( Cannabis sativa L.) seeds’ nutritional aspects and food production perspectives, that can become a valuable source of multifunctional components for functional food production. Cannabis sativa L. is a multipurpose crop with lowenvironmental impact traditionally cultivated in Western cultures for fiber production. The propagation of synthetic fibers and the production of intoxicating drugs from certain narcotic strains resulted in the banning of its cultivation. Thus, culturing the varieties that are widely known as „industrial hemp“ has only been practiced for the past two decades. Hemp ( Cannabis sativa L.) is grown not only for its economic importance but also for the seeds’ nutritional value. Hemp seeds consists of 25–35% lipids with perfectly balanced fatty acids (FAs); 20–25% proteins, which are easy to digest and contain all essential amino acids; 20–30% carbohydrates, mainly dietary fiber; and vitamins and minerals. Besides its nutritional value, hempseed is also rich in antioxidants and bioactive compounds such as bioactive peptides, polyphenols with high free radicals scavenging activity, and cannabinoids. Therefore, this study reviews the scientific knowledge about Cannabis sativa L. seeds and their progressive aspects of cultivation, functional and therapeutic potential, and its use in functional food production.

Kojic acid (KA) is an organic acid that is generated by various fungi, particularly by Aspergillus species, as a secondary metabolite. The current study is aimed to determine the optimal conditions for the production of kojic acid from various fungal strains grown on agro-industrial wastes. After testing six fungal strains for their suitability for kojic acid production, Aspergillus oryzae (AUMC.64) and Aspergillus tamari (AUMC.43) were found to be the highest producers of KA. Three different agro-industrial wastes were screened as a fermentation media and sugar cane molasses showed the highest productivity for (KA). Aspergillus oryzae (AUMC.64), and Aspergillus tamari (AUMC.43) achieved the maximal production of kojic acid (25.91, 18.95 ± 0.001 g. L -1 respectively) from sugarcane molasses (SCM) under optimum conditions of growth (10% solution of sugarcane molasses, pH 4.0 and fermentation period of 10 days). Also, the antimicrobial activities of KA produced by A. oryzae AUMC64 and A. tamari AUMC43 against the selected test strains of microorganisms Staphylococcus aureus, Bacillus cereus, Escherichia coli, Salmonella typhimurium were recorded. The maximum growth inhibition zone (20–13.2 mm) was observed on the cultures of Escherichia coli. Meanwhile the antioxidant activities of KA produced by A. oryzae AUMC64 and A. tamari AUMC43 was 79.1 and 62.42%, respectively.

The current study was carried out to prepare functional flakes from various cereals and to assess the nutritional value of breakfast cereal flakes and their sensory acceptability. Oat, soft wheat and durum wheat, barley (hull-less and hulled), triticale, millet and sorghum grains have been used. Physicochemical, functional, phytochemical properties and sensory evaluation were determined. The developed cereal flakes have high nutritional value and are high in dietary fiber. Concerning the overall acceptability of flakes, durum wheat, hull-less barley and triticale were more preferred than the other samples. Meanwhile, hulled barley and millet flakes showed the lowest scores compared with other flake samples due to the lowest score of their appearance and color. Triticale, durum wheat and hulled barley turned to be good alternatives for oat to prepare flakes of high-quality characteristics, as they have high protein (13.46, 11.92 and 11.67%, respectively) and ash contents along with low content of fat and low calories. In terms of nutritional quality, the results indicated that oat flakes were higher in Mg and P content, durum wheat flakes showed higher content of Mn, triticale had the highest content of K and Ca, and millet had the highest content of Zn and Fe. Triticale flakes showed significantly higher content of dietary fiber and water absorption index at room and hot temperatures when compared with other flakes. While comparing total phenolic content, the millet and barley flakes showed the highest values. Additionally, most flake samples had significantly higher values of antioxidant activity compared to oat flakes used as control samples.

Gnocchi is a type of homemade pasta made from potatoes, flour and eggs. Improving food product quality in terms of nutrition in gnocchi products it is possible now also use food waste. In addition to improvement of food product quality and human health, the addition of dragon fruit peel, which is considered as waste, can provide reasonable solutions or ideas about recycling of food waste. In this study, the produced food product was gnocchi with addition of by-product — dragon fruit peel, which was tested for fiber content and content of the following minerals: iron, potassium, calcium. The data obtained were then analyzed statistically by the SPSS program to determine the effect of variation using the T-test. Based on the results of the study it was concluded that the content of dietary fiber of dragon fruit peel in the sample of gnocchi denoted as F3 featured the highest water-soluble dietary fiber content with a score of 1.33%, water insoluble dietary fiber content with a score of 1.86%. and total dietary fiber content with a score of 3.19%. This also shows that the more dragon fruit peel is added, the higher is the total dietary fiber content in gnocchi with addition of dragon fruit peel. This high dietary fiber will be beneficial to humans, especially good for the digestive system. Meanwhile, the mineral content of gnocchi with dragon fruit peel also showed that the F3 sample had the highest mineral content, in particular — iron (Fe) in amount of 1.886 mg/100 g, potassium (K) 6.179 mg/100 g, and calcium (Ca) in amount of 25.339 mg/100 g. This also shows that the addition of dragon fruit peel is useful for improvement of human health and the quality of food product, i. e. gnocchi by increasing the total content of dietary fiber and improving the mineral composition of gnocchi due to addition of dragon fruit peel.

Chemical characteristics and microbiological quality of filtered water generated from municipal water using mono-, di- and penta-stage (5-stage) filters, as well as disposed drain water were investigated. With the application of the household water penta filters, the total dissolved solids (TDS) of the filtered water were highly reduced (0.04–0.07 g/L) and, consequently, electrical conductivity also decreased. Furthermore, total hardness was completely removed (0–2 mg CaCO3/L), as well as the chloride content. In the same manner, the nitrate content in the filtered water resulted from the household water penta filters decreased significantly (0.5–0.9 mg/L). Cations, such as Na+ and K+, in the filtered water were greatly affected and were 18–28 and 2 mg/L, respectively. Filtered water generated from the house-water penta filters was not in compliance with the daily amounts of F, Na and K necessary for teenagers and kids, and it might cause a risk of deficiencies. From the microbiological point of view, the penta-stage filter effectively removed total bacterial counts and total coliforms from water making it completely safe for potable and other domestic uses. The home water mono- and di- filters had low effectiveness of contaminant removal.

This paper aims to provide an overview of the main findings and conclusions of the research on freshly sliced Egyptian red beetroot (Beta vulgaris). Beetroot belongs to the botanical family of Chenopodiaceae and encompasses various variations with bulb hues that span the spectrum from yellow to crimson. It is known that the ethanolic extract from beet contains many health-beneficial and bioactive chemicals, such as alkaloids, carotenoids, phenols, tannins, and flavonoids; it also contains vitamins C, B3, B6, and B9. Hence, the beetroot extract exhibits both antioxidant and nutritional properties. The study was conducted to investigate the effects of two different drying processes, oven-drying (OD) and freeze-drying (FD), on the physicochemical qualities of betalain pigments and antioxidants. Overall, freeze-dried (FD) samples demonstrated superior retention of beetroots proximate composition when compared to those dried in the oven. This was observed in terms of minerals and antioxidants, with freeze-drying resulting in higher levels of these components compared to oven drying. On the other hand, reductions in some phenolic compounds were found in the samples treated with the freeze-drying method when compared with the oven-drying method. It was proven that red beets have a lot of phenolic compounds, including kaempferol, caffeic acid, vanillic acid, gallic acid, catechin acid, rutin, hesperidin, naringin, quercetin, and ferulic acid.

During this study, the dried powder of Angoumois grain moth ( Sitotroga cerealella ) (AGM) was used as an excellent source of protein to produce nutritional biscuits. Physical, chemical, rheological and microbiological characteristics of biscuits with the optimum AGM percentage (5%) were evaluated compared to the control. The response surface methodology (RSM) with optimal (custom) design was first employed for optimizing the percentage of the AGM powder in biscuits. The optimum selected percentage of the AGM powder was 5% and a quadratic model was found to yield the best fit. The evaluation of parameters of biscuits (ash, protein, fiber and fat content) showed that most of the values, except carbohydrate, significantly increased with AGM inclusion (5%) compared to the control. Also, an increase in diameter, spread ratio and weight values and a decrease in the thickness and break strength of the biscuits were observed with AGM powder inclusion. The presence of the 5% AGM powder slightly increased water absorption, and dough development time also increased compared to the control sample. However, stability of dough decreased. The sanitary conditions of the AGM biscuits were satisfactory as the analytical results were within the established values specified in the regulation. The study revealed that Angoumois grain moth is an excellent source of nutrients necessary for combating protein-energy-malnutrition rampant in our world today.