Search Results (42)

The occurrence of anthocyanins in rice (Oryza sativa) and barley (Hordeum vulgare) varies among cultivars, with pigmented varieties (e.g., black rice and purple barley) accumulating higher concentrations due to genetic and environmental factors. The biosynthesis of anthocyanins is regulated by a complex network of structural and regulatory genes. Key enzymes in the pathway include chalcone synthase (CHS), chalcone isomerase (CHI), flavanone 3-hydroxylase (F3H), dihydroflavonol 4-reductase (DFR), anthocyanidin synthase (ANS), and UDP-glucose flavonoid 3-O-glucosyltransferase (UFGT). These genes are tightly controlled by transcription factors (TFs) from the MYB, bHLH (basic helix–loop–helix), and WD40 repeat families, which form the MBW (MYB-bHLH-WD40) regulatory complex. In rice, OsMYB transcription factors such as OsMYB3, OsC1, and OsPL (Purple Leaf) interact with OsbHLH partners (e.g., OsB1, OsB2) to activate anthocyanin biosynthesis. Similarly, in barley, HvMYB genes (e.g., HvMYB10) coordinate with HvbHLH TFs to regulate pigment accumulation. Environmental cues, such as light, temperature, and nutrient availability, further modulate these TFs, influencing the production of anthocyanin. Understanding the genetic and molecular mechanisms behind the biosynthesis of anthocyanins in rice and barley provides opportunities for the development of biofortification strategies that enhance their nutritional value. Full article

Longzi black barley (Hordeum vulgare L. var. nudum, LBB), a highland barley variant with superior nutritional properties, has gained increasing attention for its health-promoting benefits. However, the metabolic changes during its germination process remain poorly understood. This study investigated the metabolic changes and antioxidant capacity during LBB germination. The results revealed significant dynamic changes in total flavonoid and total phenolic contents during germination, with the total flavonoids significantly decreasing by 32.59% initially (0–12 h, from 2.64 to 1.78 mg/g) and then slightly rebounding by 15.34% at 72 h, while the total phenolics decreased by 36.35% in the early stages (0–12 h, from 6.52 to 4.15 μmol/g) and increased markedly by 44.73% in the later stages (60–72 h, reaching 6.13 μmol/g) of germination. A metabolomic analysis identified 1015 metabolites, primarily including flavonoids, phenolic acids, amino acids and their derivatives, and alkaloids. During germination, the total flavonoid content continuously decreased by 24.24%, the phenolic acids showed no significant change, the amino acids and their derivatives increased significantly by 3.63-fold, and the alkaloid content increased slightly by 1.30-fold in the early stages (0–12 h) and significantly by 3.39-fold in the later stages (12–60 h). The study revealed the metabolic changes during the germination of LBB, providing scientific evidence for the further utilization of its nutritional value. Full article

Dietary modification plays a crucial role in managing and preventing hyperlipidemia. This study examined the combination of highland barley, tartary buckwheat, mung beans, Ormosia hosiei, black rice, and corn germ oil in multi-grain biscuit form. This formulation leverages the synergistic interactions among bioactive compounds, which exert preventive and therapeutic effects against lipid disorders. C57BL/6N mice were fed a high-fat diet for 12 weeks to establish a hyperlipidemia model, followed by feeding with highland barley tartary buckwheat coarse-grain biscuits for 4 weeks. The experimental outcomes revealed that the highland barley tartary buckwheat coarse-grain biscuits effectively controlled body weight and reduced fasting blood sugar levels: body weight was restored to approximately 29 g, and the fasting blood sugar level returned to the normal range of 6 mmol/L. We also observed improved organ indices and regulated blood lipids in hyperlipidemic mice. The total cholesterol of high-fat mice was reduced to 5 mmol/L and the triglyceride level to 1 mmol/L. A significant reduction in inflammatory markers and histopathological improvement in hepatic and adipose tissues were also observed. The intervention enhanced leptin and adiponectin secretion while elevating concentrations of acetic, propionic, butyric, valeric, and caproic acids. Microbiome analysis demonstrated favorable shifts in bacterial populations, characterized by increased Bacteroidetes and Verrucomicrobia abundance and a decreased Firmicutes-to-Proteobacteria ratio, promoting beneficial genera while suppressing potentially pathogenic taxa. These findings suggest that the developed highland barley tartary buckwheat coarse-grain biscuits are a promising dietary intervention for hyperlipidemia management. The effects were potentially mediated through gut microbiota modulation and enhanced short-chain fatty acid production. This research provides novel insights into functional food development for hyperlipidemia. Full article

It has been assumed that the long-term impact of a diversified soil use system (SUS) and the continuous application of manure and/or mineral fertilizers (NPK) affects the sustainability of soil fertility components. This influence is manifested through the content and distribution of nutrients, as well as some bioavailable heavy metals in the soil. This hypothesis was verified in 2022 in a long-term field experiment that started in 1957. It consisted of a seven-course crop rotation: potato–spring barley–winter triticale–alfalfa–alfalfa–winter wheat–winter rye and monocultures of these crops plus black fallow. The studies were carried out on three separate fields: black fallow (BF), winter wheat grown in monoculture (WW-MO), and crop rotation (WW-CR). Each of these experimental objects consists of five fertilizer variants (FVs) fertilized in the same way every year: absolute control (AC)—variant without fertilizers for 75 years; farmyard manure—FM; mineral fertilizers—NPK; mixed variant—NPK + FM; mineral fertilizers plus annually applied lime—NPK + L. The second factor was the soil layer: 0.0–0.3 m, 0.3–0.6 m, or 0.6–0.9 m. The obtained results clearly indicate that long-term fertilization with NPK + FM, especially in rotation with legumes, strengthens the eluviation/illuviation processes, decreasing the sustainability of soil fertility. Liming is a factor stabilizing the content and distribution of silt and clay particles in the soil. The key factor determining the content and distribution of micronutrients and heavy metals in the soil was the content of organic carbon (C_org). Its content decreased in the following order: WW-CR (13.2 ± 5.8) ≥ WW-MO (12.3 ± 6.9) > BF (6.6 ± 2.8 g·kg⁻¹). The large variability resulted from a distribution trend with soil depth, which increased as follows: MO ≥ CR > BF. FVs with FM had the highest C_org content. NPK, regardless of the long-term soil use system (SUS), had the lowest content. Among the elements studied, the key one impacting the content of both micronutrients and heavy metals was iron (Fe). The Fe content decreased in the order BL (100%) > WW-MO (90.5%) > WW-CR (85%). The opposite tendency was found for the remaining elements, the content of which was consistent with the content of C_org, which was the highest in CR. The strongest impact of Fe, modified by the SUS, was found for Zn, Pb, and Cd. Despite the differences observed between SUSs, fertilization variants, and soil layers, the content of Fe and Mn was in the medium class, while Zn and Cu were in the high class of availability. The content of Ni was the highest for NPK + FM in WW-CR. The content of Pb was weakly affected by the long-term SUS but showed a strong tendency for accumulation in the topsoil layer. The content of Cd was the highest in BF, where it exceeded the threshold of 0.27 mg·kg⁻¹. The long-term diversified SUS, as the main factor determining the sustainability of soil fertility, makes it possible to indicate the directions of humus accumulation and its distribution in the soil. It turned out to be a key factor, but in cooperation with Fe, it determined the content of micronutrients and bioavailable heavy metals in the soil. Full article

The influence of bakery waste (BAWA) in the diet of black goat kids on nutrient intake, health, growth potential, and carcass features was assessed. Three treatment diets, consisting of 0 BAWA (CON), 50 g/kg BAWA (BAWA50), and 100 BAWA (BAWA100) of dietary dry matter (DM), were administered to 27 male kids (initial body weight = 17.43 ± kg; age = 105 ± 3.5 days) at random (9/treatment). Bakery waste was included in diets BAWA50 and BAWA100, replacing some of the barley grain. The study lasted for 70 days (7 days used for adaptation and 63 days used for data collection). Kids in the BAWA100 group consumed considerably more (p < 0.01) DM, crude protein (CP), and metabolizable energy than those in the BAWA50 and CON groups. However, intakes of neutral detergent fiber (NDF), acid detergent fiber (ADF), and ether extract (EE) were similar (p ≥ 0.08) among the treatment diets. The kids’ initial and final body weights, total growth, and average daily weight were not substantially impacted (p ≥ 0.13) by the addition of BAWA. All diets had similar feed efficiency when it came to converting feed into body weight increases (p ≥ 0.11). Nevertheless, the BAWA diet yielded a considerably lower cost gain (p = 0.04) than the CON diet. The three treatment groups had no differences (p ≥ 0.15) in DM, ADF, NDF, and EE digestibility. However, compared to the CON group, the digestibility of CP tended to improve (p = 0.07) in the BAWA100 and BAWA50 groups. The three experimental groups’ nitrogen (N) intakes did not differ significantly from one another (p > 0.33). Additionally, the three diets’ N retention percentage and grams/d were equivalent (p > 0.33). Several carcass metrics, such as dressing percentage, hot and cold carcass weights, fasting live weight, and non-carcass components, were not significantly affected (p > 0.23) by the addition of BAWA. Additionally, no differences in carcass cut weights were found. The inclusion of BAWA100 and BAWA50 increased loin cut weight (p = 0.043) and total lean muscle weight (p = 0.001) compared to the CON group. Other components, such as intermuscular fat, subcutaneous fat, total fat, total bone, meat-to-bone ratio, and meat-to-fat ratio, were similar among the three diet groups. Concerning carcass linear dimension measurements, only rib fat depth was greater (p = 0.008) in kids fed the BAWA100 diet compared to the BAWA50 and CON diets. No significant variation was observed among the treatments concerning various physicochemical properties of the longissimus dorsi muscle in the black goat kids. All measured serum metabolites and hematological parameters were not affected by the incorporation of BAWA into the diet. In summary, the inclusion of 50 and 100 g/kg BAWA in the diet had comparable effects on the black goat kids’ feed intake, digestibility, growth performance, carcass characteristics, meat quality, and overall health. Importantly, feed costs can be reduced by using up to 100 g/kg of BAWA on a DM basis. Full article

Herein, β-glucan (BG) was extracted from different colored varieties of highland barley (HB, Hordeum vulgare), defined as BBG, WBG, and LBG depending on the colors of black, white, and blue and their molecular structure and physicochemical properties were investigated through a series of technical methods. The high-performance anion-exchange chromatography (HPAEC) results indicated the extracted BBG, LBG, and WBG mainly comprised glucose regardless of color. The molecular weight (M_w) of BBG, LBG, and WBG were 55.87 kDa, 65.19 kDa, and 81.59 kDa, respectively. 4-Glc(p), 3-Glc(p), and t-Glc(p) accounted for a larger proportion (>90%) of the total methylated residues according to gas chromatography–mass spectrometry (GC-MS) analysis. Additionally, Fourier transform infrared (FT-IR) spectroscopy revealed that the β-linkage of LBG had a greater capacity to develop stronger hydrogen bonds, due to the absence of 3,4-Glc(p). Among them, LBG had a low particle size distribution and a high shear viscosity, showing obvious round aggregates on its surface. Meanwhile, BBG presented a high peak viscosity (PV) and thermal stability. Based on the differences in their molecular structure, it could be concluded that there were different physicochemical properties among BBG, LBG, and WBG. Full article

Domesticated highland barley is an important starch reserve and has differently colored grains, owing to different genotype backgrounds and cultivation environments. In this study, black, purple, blue, and yellow highland barley varieties were planted under the same cultivation conditions, and their starch distribution, structural characteristics, and physicochemical properties were analyzed. The apparent amylose content was highest in the purple variety (20.26%) and lowest in the yellow variety (18.58%). The different varieties had three subgroups and A-type crystalline structures, but the particle size and relative crystallinity (25.67–27.59%) were significantly different. In addition, the weight average molecular weight (6.72 × 10⁷ g/mol), area ratio of APs to AP_L (2.88), relative crystallinity (27.59%), and 1045/1022 (0.730 cm⁻¹) of starch were higher in yellow highland barley (YHB), forming a stable particle structure and increasing the Tp and PV of its starch. A cluster heat map showed that starches from differently colored highland barley vary in fine structure, water solubility, swelling power, and thermal and pasting properties. This study provides a reference for the high-quality breeding of colored highland barley and its utilization in food and non-food industries. Full article

Sowing density and row spacing of barley affect the crop efficiency, resource use and final yield, with different genotypes likely to respond differently to this agrotechnical factor. The effect of sowing density on the barley yield, as shaped by structural yield elements such as the number of ears, number of grains per ears and thousand grain weight, depends on the interaction of this factor with the genotype and the growing conditions. Two spring barley genotypes with a black grain color (H. vulgare L. var. nigricans and H. vulgare L. var. rimpaui), differing in ear structure and affiliation to the original wild forms, were studied. Two independent, two-year field experiments were conducted in 2019–2020 and 2021–2022 at two locations with contrasting soil conditions. The effects of genotype and sowing density interactions on the yield, harvest index and structural elements of the yield were assessed. The arley yield was dependent on the interaction of genotype and sowing density but also varied by location. H. v. var. nigricans yielded better at higher densities, while H. v. var. rimpaui showed greater tillering potential at low densities. Environmental factors such as rainfall, temperature and soil composition affected the number of fertile ears, number of grains per ear and thousand grain weight. Full article

Barley is rich in phenolic compounds, providing health benefits and making it a valuable addition to a balanced diet. However, most studies focus on these compounds at barley’s final maturity, neglecting their synthesis during grain development and its impact on barley quality for food applications. This study investigates phenolic profiles during grain development in four hull-less barley genotypes with different grain colors, specifically bred for food applications. The objectives were to determine the phenolic profile and identify the optimal maturity stage for maximum phenolic content and antioxidant capacity. Using UPLC-MS/MS and in vitro antioxidant capacity assays, results show that total phenolic compounds decrease as grain matures due to increased synthesis of reserve components. Flavan-3-ols, phenolic acids, and flavone glycosides peaked at immature stages, while anthocyanins peaked at physiological maturity. The harvest stage had the lowest phenolic content, with a gradient from black to yellow, purple, and blue genotypes. Antioxidant capacity fluctuated during maturation, correlating positively with phenolic compounds, specially bound phenolic acids and anthocyanins. These findings suggest that early harvesting of immature grain can help retain bioactive compounds, promoting the use of immature barley grains in foods. To support this market, incentives should offset costs associated with decreased grain weight. Full article

Cardiovascular disease (CVD) represents a substantial global health challenge, with its impact on mortality and morbidity rates surpassing that of cancer. The present study was designed to explore the cardioprotective properties of anthocyanin (ACN), a compound derived from black barley, against oxidative stress-induced damage in myocardial cells and to uncover the molecular mechanisms at play. Utilizing both in vitro and in vivo experimental models, our findings indicate that ACN notably reduced cell damage caused by oxidative stress and effectively prevented apoptosis. High-throughput RNA sequencing analysis has shed light on the mechanism by which ACN achieves its antioxidative stress effects, implicating the PTEN-Akt signaling pathway. ACN was found to modulate PTEN expression levels, which in turn influences the Akt pathway, leading to a reduction in apoptotic processes. This novel insight lays the groundwork for the potential clinical utilization of ACN in the management of CVD. While this study has shed light on some of the functions of ACN, it is important to recognize that natural compounds often interact with multiple molecular targets and engage in intricate signaling cascades. Future research endeavors will concentrate on further elucidating the regulatory mechanisms by which ACN influences PTEN expression, with the goal of enhancing our comprehension and expanding the therapeutic potential of ACN in the treatment of cardiovascular conditions. Full article

Enterotoxigenic Escherichia coli (ETEC) is the major diarrhoea-causing pathogen world-wide. Fimbria–receptor recognition is the primary step when attachment of ETEC to the intestine occurs. This study aims to evaluate the potential of some traditional foods, particularly those rich in β-glucans, as analogues for fimbriae or receptors in reducing ETEC colonisation. The adhesion test (AT) demonstrated that aqueous extracts of highland barley (EHB), black rice (EBR) and little millet (ELT) at concentrations of 2% and 1% could attach to more ETEC K88ac (p < 0.001), as well as aqueous extracts of shiitake (EST) (p < 0.01). The competition test (CT) revealed that EHB and EST significantly prevented ETEC K88ac from adhering to intestinal epithelial cells (IPEC-J2) at 2% (p < 0.01) and 1% (p < 0.05). In the Exclusion Test (ET) and the displacement test (DT), the food samples were unable to impair ETEC colonisation in terms of blocking receptors or removing attached pathogens. These results demonstrate how some traditional foods such as highland barley and shiitake contain bioactive compounds that interfere with the attachment of ETEC to the intestinal epithelium, and their potential in the prevention and treatment of ETEC diarrhoea. Full article

Insect larval frass has been proposed as a fertilizer and amendment, but methods for testing its effects on plants are poorly developed and need standardization. We obtained different types of black soldier fly (Hermetia illucens) frass via the factorial combination of (a) two insect diets, as follows: G (Gainesville = 50% wheat bran, 30% alfalfa meal, 20% maize meal) and W (43% sheep whey + 57% seeds); (b) two frass thermal treatments: NT = untreated and T = treated at 70 °C for 1 h. We tested the effects on the germination of cress (Lepidium sativum L.) and wheat (Triticum durum Desf.) by applying 1:2 w:w water extracts at 0, 25, 50, 75 and 100% concentration. Standardizing frass water content before extraction affected chemical composition. Frass extracts showed high electrical conductivity (8.88 to 13.78 mS cm⁻¹). The W diet was suppressive towards Escherichia coli and showed a lower content of nitrates (e.g., WNT 40% lower than GNT) and a concentration-dependent phytotoxic effect on germinating plants. At 25% concentration, germination indices of G were 4.5 to 40-fold those at 100%. Root and shoot length and root hair area were affected by diet and concentration of frass extracts (e.g., root and shoot length in cress at 25% were, respectively, 4.53 and 2 times higher than at 100%), whereas the effects of the thermal treatment were few or inconclusive. On barley (Hordeum vulgare L.) grown in micropots on a silty loam soil, root mass was reduced by 37% at high extract concentration. A quick procedure for root hair surface area was developed based on the geographic information system (GIS) and may provide a fast method for incorporating root hair phenotyping in frass evaluation. The results indicate that below-ground structures need to be addressed in research on frass effects. For this, phyotoxicity tests should encompass different extract dilutions, and frass water content should be standardized before extraction in the direction of canonical procedures to allow comparisons. Full article

Black-seeded barley can be a valuable raw material for functional food. However, its restoration to cropping should be preceded by the identification of the characteristics determining productivity. The field study was conducted to identify specific parameters of the black-seeded barley genotypes (Hordeum vulgare var. nigricans and H. v. var. rimpaui) and compare them with common barley (H. vulgare) under the different hydrothermal conditions of the two growing seasons of 2021 and 2022. Our research has shown that each genotype has a set of specific characteristics that best describe it at a given developmental stage. H. v. rimpaui was well characterized by chlorophyll fluorescence parameters such as F_V/F_M, F_V/F₀, and PI_ABS at the seedling stage and H. v. nigricans by F_V/F_M and F_V/F₀ at the flag leaf stage. Moreover, H. v. var. rimpaui was distinguished by a high biomass of shoot (726 g m⁻²) and straw yield (5.04 t ha⁻¹) but H. v. var. nigricans by a high number of sterile generative tillers (103 m⁻² in the dry year 2022). Further research should focus on the response of black-seeded barley genotypes to abiotic stresses, while in agronomic practice, efforts should be made to increase the number of grains per ear and 1000-grain weight. Full article

Crop fungal diseases are a major threat to crop health and food security worldwide. The epidemiology is the basis for effective and sustainable control of crop fungal diseases. Safe, effective, sustainable, and eco-friendly disease control measures have important economic, ecological, and social significances. This Special Issue, “Epidemiology and Control of Fungal Diseases of Crop Plants”, collected one communication and nine original research articles focusing on the identification and detection of the causal agents of alfalfa Fusarium root rot, strawberry black spot, and barley leaf stripe; the semantic segmentation of wheat stripe rust images; the image-based identification of wheat stripe rust and wheat leaf rust; the image-based identification of the severity of wheat Fusarium head blight; the development process of vanilla Fusarium wilt; the regional migration of wheat leaf rust pathogen; the early prediction of potato early blight; the screening of alternative fungicides for the control of alfalfa Fusarium root rot; and the biocontrol potential of endophytic fungi to control of cumin root rot, presenting the progress of research on the epidemiology and control of crop fungal diseases. The studies contained in this Special Issue facilitated the development of epidemiology of the related crop fungal diseases and provided some basis for control of the diseases, which is conducive to the sustainable management of these diseases. Full article

Barley (Hordeum vulgare) grain stands out among other cereals due to its high nutritional value. It results mainly from the high content of fiber and antioxidants, such as phenolic compounds. Barley grains can also be an important source of unsaturated fatty acids and carotenoids that are beneficial to health. This study assessed the effect of the foliar application of an amino-acid biostimulant on the content of phenolic compounds, carotenoids, and the composition of fatty acids in the grain of alternative, black-grain barley genotypes, and the commonly used ‘Soldo’ cultivar, grown in conventional and organic farming systems. The dark-pigmented grains contained significantly more phenolic acids and flavonoids than the yellow seed of the traditional cultivar and were characterized by a significantly higher proportion of unsaturated fatty acids. The application of the biostimulant significantly increased the concentration of phenolic compounds in grains, especially of alternative genotypes. Full article