Pitanga (Eugenia uniflora L.) cultivation has increased rapidly around the world, but most seedlings come from sexual propagation and thus present high genetic variability and respond differently to environmental conditions. This work studied the phenology and thermal requirement of pitanga genotypes in the Brazilian semiarid. Forty‐eight genotypes were evaluated in 2017 and 2018 in an experimental farm at the Federal Rural University of Semiarid, Mossoró, Brazil. The time and thermal requirement for phenological stages from fruit pruning to harvesting, and fruit production were evaluated. Highly productive and precocious genotypes were identified, and six groups were arranged based on dissimilarity.
The present study was carried out to evaluate the antioxidant activity of and the content of bioactive compounds in camu-camu fruits harvested at different maturation stages and stored. The fruits were harvested in the municipality of Cantá, Roraima State, Brazil. The experimental design was completely randomized, with three replications, in a factorial arrangement consisting of three different maturation stages (immature, semi-mature and mature) and eight days of storage (3 x 8). The fruits were analysed every day regarding total vitamin C, carotenoids, anthocyanins, flavonoids, total phenolic compounds, and antioxidant activity (FRAP and DPPH). According to the results obtained, the interaction of maturation stages x eight days of storage had a significant effect according to the F test at 5% probability. The highest antioxidant activity (FRAP) was observed in the fruits harvested in the semi-mature stage, providing a longer shelf life. The carotenoid pigment, flavonoid, anthocyanin, and vitamin C contents were higher in the fruits harvested in the mature stage, and this stage was the most suitable for obtaining these functional biocompounds. Additionally, in mature fruits, the highest mean content of total phenolics and antioxidant activity (DPPH) were observed during storage. It was concluded that the mature stage is the most recommended for the extraction of pigments and antioxidant biocompounds from camu-camu fruits.
The Amazon region is an important center of origin and diversification of fruit species, which produce fruits with unique characteristics in flavor, aroma, and high pharmacological, food and nutraceutical capacity. The camu-camu (Myrciaria dubia (Kunth) Mc Vaugh), also known as caçari, guinea fowl, or sarão is a species belonging to the Myrtaceae family, native to Amazonian floodplains and lakes (Roberto Nobuyuki Maeda et al., 2007). Today camu-camu is seen as an important alternative for local social and economic development. This is due to its ability to grow and produce areas of low agronomic value that would generally be unsuitable for crops of other species (Azevêdo et al., 2015). In Peru, it is considered as one of the drivers of economic growth in the country, being considered a good source of income for its producers (Correa Meléndez et al., 2013). Due to growing demand for healthy products and foods, the camu-camu stands out for being a nutraceutical and functional
O cupuaçu pode ser propagado por via sexuada ou assexuada, sendo a via seminífera o processo mais utilizado. Dessa forma, ambientes apropriados para a produção de mudas propiciam melhores condições para o crescimento inicial em campo, colaborando para o aumento da homogeneidade, sanidade e redução da mortalidade de plantas no momento do plantio. Assim, fatores como luz e tipo de substrato são importantes para a germinação de sementes e emergência inicial de plantas. Nesse contexto, objetivou-se com o presente trabalho avaliar o efeito de diferentes substratos, bem como a influência do sombreamento na emergência e no crescimento inicial de plântulas de cupuaçu. O experimento foi conduzido na Embrapa Roraima, utilizando-se delineamento inteiramente casualizado, em esquema fatorial 3 x 7, constituídos de diferentes ambientes (canteiro sem cobertura, canteiro com cobertura tipo sombrite de 50% de luminosidade e canteiro com cobertura plástica transparente de 100 micras), combinados com diferentes substratos (areia, solo, vivatto®, serragem, areia+solo, areia+solo+vivatto® e areia+solo+serragem). Após a semeadura, avaliou-se a porcentagem de emergência e o índice de velocidade de emergência no intervalo de cinco dias, quando, ao final dos 50 dias, avaliou-se o comprimento da parte aérea, o número de folhas, a área foliar, o comprimento do sistema radicular, o diâmetro do caule, a massa seca da parte aérea e do sistema radicular. Observou-se que maior porcentagem de emergência, IVE e desenvolvimento inicial de plântulas de cupuaçuzeiro são obtidos ao se utilizar substrato constituído por areia+solo+serragem. O ambiente com sombreamento de 50% de luminosidade proporciona maior porcentagem de emergência, IVE, diâmetro do colo e massa seca do sistema radicular.
Sugar apples have attracted attention in recent years due to their medicinal and nutritional properties. However, the shelf life of sugar apples is one of the most concerning problems owing to their perishability. This work aimed to determine the ideal harvest time for sugar apple fruits in relation to different classes of carpel interspaces. Therefore, fruits were classified into three stages according to the carpel interspace: stage 1 (0.0 - 2.0 mm); stage 2 (2.1 - 3.0 mm); and stage 3 (3.0 - 4.0 mm). After harvesting, the fruits were evaluated daily in the laboratory regarding their physical and physicochemical aspects until they reached the point of consumption (horticultural maturation). The following variables were evaluated: fruit diameter and length (mm); fruit, peel, pulp, and seed masses (g); color index, including the chromatic attributes L* (luminosity), C* (chroma), and h* (hue angle); bark firmness (N); soluble solids (°Brix); titratable acidity (g citric acid 100 g-1 of pulp-1); pulp yield; and ratio SS/TA. Fruits at stage 3 showed larger diameters, less firmness, and better chromaticity means. Fruits at stages 2 and 3 had eight days of postharvest life. However, fruits at stage 2 took longer for 50% of the fruits to be ready for consumption. The results demonstrate that stages 2 and 3 can be determinants for the harvest time of sugar apples.
Araçà-boi is a fruit, which awakes great interest for presenting pulp of quality. Their seeds are recalcitrant and present a relatively short period of viability. The water absorption by seeds is a mechanism of growth resuming of the embryo with a subsequent of the tegument breakage by the radical. The seed electric conductivity is a vigor testing is directly related to the membrane permeability. Study of the curve of water absorption by the araçá-boi seeds will contribute to characterize their germination process. In this context, studies concerned with seeds were conducted, which characterized the mass, biometrics, water content, electric conductivity and water imbibition by seeds. It was found that the population of plants established in Manaus-AM produces small, medium and large seeds and which present 70.2, 68.2 and 47.5% of moisture. The greatest water increase takes place in the first hour of absorption, regardless of the size of seeds and water absorption velocity is not influenced by their size. The imbibition curves characterized in the 144-hour period, independent of the size of seeds, show changes of two physiological phases. Both the large and medium seeds present smaller conductivity values, obtaining smaller percentages of germination for possessing increased vigor indices.
The success in the application of artificial pollination techniques, aspects of floral biology should receive special attention, especially regarding the viability studies of pollen grains. In this sense, two experiments were carried out, aiming to determine the floral stages: floral opening (anthesis), female, male and senescence stages of A. squamosa L flowers under tropical climate conditions, and to evaluate the germination and viability of pollen grains submitted to different storage conditions. In the first experiment, observations and data collection began when flowers were still closed. Readings were taken every two hours for 46 hours until all the flowers reached the senescence stage. For the second, the experimental design was completely randomized, in a 2 x 7 factorial scheme, with 2 storage conditions (environment at 27 ± 2°C and refrigerated at 5 ± 2°C) and 7 pollen grain conditioning times (0, 4, 8, 12, 16, 20 and 24 hours), with 4 repetitions for the analysis of pollen grain germination and 3 repetitions for the analysis of pollen grain viability, and each repetition consisted of one blade. The variables evaluated were percentage of viable and non-viable pollen grains and percentage of germinated and non-germinated pollen grains. For tropical climatic conditions, the flower anthesis (female stage) of the sugar-apple begins at 00:00 h, extending until 12:00h on the same day. The flowers of the tree reach a functionally staminate stage (male stage) from 6 a.m. the next day. Pollen grains stored at room conditions (27 ± 2°C) remain viable for up to 24 hours after collection, showing that storage in a cold environment at low temperatures (5 ± 2°C) is not necessary. Seed pollen grains have a germination percentage of 51.25% when stored under ambient conditions (27 ± 2°C) for up to 4 hours after collection.
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