Walnut kernels are appreciated not only for their mineral content, vitamins, proteins, and valuable lipids, but also for the presence of polyphenolic compounds and biogenic amines. The temperature and storage time effects on some biochemical compounds from kernels collected from eight walnut genotypes grown at the Fruit Growing Research and Extension Station (SCDP) Valcea, Romania, were studied. In general, the phenolic and carotenoid compounds followed opposite trends during short-term storage and in some cases in medium-term storage. In both cases, there was a reduction in concentration during long-term storage, which was more pronounced for carotenoids. The most efficient method for preserving the walnut kernel’s phenolic content was freezing. Keeping the walnut kernel at room temperature assured the smallest carotenoid content decrease. Depending on the walnut cultivar, the preservation of the walnut kernel can be extended to five months by storage at −20 to −18 °C without loss of phenolic compounds, while a period shorter than five months (but certainly longer than three months) could be recommended for storage at 3–4 °C. Keeping it at room temperature can be an option for a short period (about three months). None of the preservation methods was adequate if the losses recorded for carotenoids were taken into account.
Adding compost to the soil is an ecological and economical approach to providing the nutrients needed to support crops, improve soil characteristics, and increase the orchard’s durability. Over three years, at the Research Institute for Fruit Growing Pitesti, Romania, data regarding the influence of fertilization with municipal sludge and vegetal origin compost (MSVOC, 20 and 40 t ha−1 doses) and vegetal origin compost (VOC, 30 and 40 t ha−1 doses) on berry quality at ‘Jonker Van Tets’ red currant cv. Were recorded. Berry dry matter, soluble solids, sugar, titratable acidity, vitamin C, phenolic, and anthocyanin content are discussed. The correlations between berry quality indicators with climatic factors (temperatures and sunshine hours) and soil chemical characteristics are discussed. Strong correlations have been identified between anthocyanins, vitamin C, and phenolics with average temperature, maximum temperature, and sunshine hours in April. Except for Fe and Mn, berry phenolics were negatively correlated with all other soil quality indicators. In the third after the application, the results indicated that VOC 40 t ha−1 had a beneficial effect, increasing berry weight, and TTA, while VOC 30 t ha−1 significantly increased DW, TTA, and vitamin C content. Therefore, vegetal origin compost can be used as fertilizer in the sustainable growth of red currants.
Biochemical changes that undergo during the harvest season in 2020 (between 28 July and 11 September) were evaluated by a comparative study of two Aronia cultivars. The experiment was conducted at the Research Institute for Fruit Growing Pitesti, Arges County, Romania, on ‘Melrom’ and ‘Nero’ cultivars. Dry matter, total soluble content, pH, vitamin C, and biologically active components such as anthocyanins and phenolics variations were assessed from 28 July to 11 September 2020, for berries harvested every five days. ‘Melrom’ cultivar berries had significantly higher dry weight content, 251.43 g kg-1. ‘Nero’ showed a significantly higher vitamin C (1.87 g /kg-1 DW), total anthocyanins content (29.71 g cyanidin 3 – glucoside kg-1 DW), and juice pH (3.87). As harvest time main effect over the two cultivars taken together, dry weight, anthocyanins, total soluble content, and juice pH content increased significantly during the harvest season with 43.32%, 54.10%, 36.33%, and 17.98%, respectively, whereas significant losses of vitamin C, by 26.21%, and total phenolics compounds, by 27.90%, were recorded. Overall, early harvested fruits contained higher levels of moisture, vitamin C, and phenolics compounds, although the last crops provided less acidic fruits, with higher total soluble solids and anthocyanins content.
This study aimed to analyze the extraction time influences on some phenolics and carotenoids determined in the chokeberry dehydrated residue. In addition, the dynamics of the DPPH· radical reduction under the influence of the different amounts of chokeberry extract and reaction time were registered. For this purpose, fruits belonging to the ’Melrom’ and ’Nero’ cultivars grown in the experimental plots of the Research Institute for Fruit Growing Maracineni-Arges were harvested at full maturity, in the middle of August 2021 and pressed for juice extraction. The resulting pomace was subjected to convective dehydration at 45ºC. Values of 12286.11-16560.88 mg GAE/100g DW for TPC, 6567.96-9428.90 mg GAE/100 g DW for TTC, and 3293.74-5109.63 mg CE/100 g DW for TFC were registered. Lycopene and -carotene ranged between 0.78-1.43 mg/100 g DW and 0.21-0.37 mg/100 g DW. Longer ultrasound treatment led to higher TPC and TFC, while TTC decreased after 60 minutes. Raising the extraction time by at least 24 hours resulted in higher amounts of carotenoids. The lowest remanent radical activity (A=20.55%) was determined for the 50 and 60 µL extract doses. In this case, A% was minimal after 20 minutes of the DPPH reduction reaction (12.62-12.94 %), but not significantly different compared to the values determined after the first 8 minutes of the reaction (17.59-19.11 %).
Berries of three Romanian Lonicera caerulea cultivars ‘Cera’, ‘Kami’, and ‘Loni’, grown at the Research Institute for Fruit Growing, Pitesti, Romania, were analyzed between 2020 and 2022 in terms of chemical composition. The study aimed to determine the concentrations of some compounds with antioxidant activity, highlight the most valuable cultivar, encourage the consumption of honeysuckle berries, and indirectly stimulate growers’ interest in this little-known species in Romania. Some phenolic compounds—lycopene, β-carotene, and vitamin C—were quantified. As a result of the study, the ‘Loni’ cultivar’s high total phenolic content, flavonoids, anthocyanins, vitamin C, lycopene, chlorogenic and neochlorogenic acids, catechin, and rutin are to be noted. ‘Cera’ cultivar had the highest cryptochlorogenic acid content, and ‘Kami’ summarized the highest carotenoid level. These characteristics indicated that the three honeysuckle cultivars’ berries could have multiple uses, from fresh consumption, as part of a diet focused on maintaining human health, to being used as raw materials in the para-pharmaceutical industry, to obtain food supplements. The novelty characteristics and the nutritional value of its berries highlighted by this study have indicated that honeysuckle can become a crop of interest and profitability.
This paper’s aim was to study how the antioxidant activity and the level of certain phenolic complexes and carotenoids vary in the pomace obtained from the fruits of two cultivars of chokeberry at different times of harvest after reaching the stage of maturity. The influence of the cultivar, harvest moment, and the combined effect of these two factors on the antioxidant activity and the dehydrated pomace content in components with antioxidant potentials, such as total phenolics, total tannins, total flavonoids, lycopene, and β-carotene was analyzed. The methanolic extract from the pomace obtained from the ‘Melrom’ cultivar had the highest efficiency (92.14 ± 5.02%). The antiradical activity of the pomace was maximal (93.27 ± 4.32%) after the middle of the harvest season (3 September). The pomace obtained from the ‘Nero’ cultivar displayed superior levels of phenolic content (13,030.16 ± 1414.46 mg/100 g), flavonoids (4627.83 ± 509.63 mg CE/100 g), tannins (7458.56 ± 529.43 mg/100 g), and lycopene (1.171 ± 0.388 mg/100 g). The ‘Melrom’ cultivar presented superior content of β-carotene (0.313 ± 0.07 mg/100 g). On average, a positive significant correlation between radical scavenging activity with total phenolic content and β-carotene was observed. The combined cultivar × harvest moment effect was reflected in the variations in the total tannins content and the total flavonoid content, but also in the antiradical activity of the methanolic extracts. Dehydrated pomace from chokeberry fruit can be an important source of antioxidant biological compounds and can be used to make innovative foods.
Introduction: This paper presents the preliminary results of a study that aims to emphasize the compost effect, when used as fertilizer, in Aronia melanocarpa crops [...]
This paper aimed to study the adaptation of a crop to the specific climatic conditions of southern Romania, Pitești-Mărăcineni, Romania, in terms of the phenology of two chokeberry (Aronia melanocarpa) cultivars (‘Melrom’ and ‘Nero’). The BBCH (Biologische Bundesantalt, Bundessortenamt and Chemische Industrie) scale was used for phenological observations. The recorded data were statistically processed, calculating the average onset time and duration of fruiting phenophases and dormancy duration, average air temperatures, total solar radiation, and the cold and heat accumulation. Bud swelling was registered between 28 January and 8 February, budburst occurred starting on 3 March, while flowering began in stages, between 15 April and 1 May, and was completed between 27 April and 14 May. During the 154 days of 53–87 BBCH, the average air temperature, 16.1 °C, ranged between the extremes of −6.1 and 36.8 °C. The onset data and spring–summer phenophases were mainly related to the minimum air-temperature oscillations. The flowering timing shortened as the maximum temperature and total solar radiation increased. The relation between the environmental factors and the flowering strategy indicates the A. melanocarpa as a species adapted to the temperate continental climate of southern Romania.
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