-This study aimed at evaluating the effects of bovine biofertilizer on passion fruit production and fruit quality. We carried out an experiment in the city of Nova Floresta, Paraíba State, Brazil. It was carried out in a randomized block design with three replications and three plants per plot. We adopted a 3 x 5 factorial scheme, which evaluated three passion fruit genotypes and five cattle biofertilizer doses. The assessed genotypes consisted of a local one (Guinezinho -LG) and two hybrids (BRS Gigante Amarelo -GA and BRS Sol do Cerrado -SC). We applied five rates of cattle biofertilizer (B) monthly at a constant volume of 5 L plant -1 , after diluting in irrigation water (W) at an electrical conductivity of 1.4 dS m -1 . The evaluated rates were 0% (100% irrigation water -0B + 5W), 10% (1B + 9W), 20% (2B + 8W), 30% (3B + 7W) and 40% (4B + 6W). Every week, we sampled, counted and weighed fruit to gather data on fruit number per plant, pant production, and yield. At peak production, we also sampled two fruit randomly from each plot floor area. These fruits were used for determinations of the average mass in fruit, peel and pulp (seeds + juice), peel thickness, fruit diameter and length, pulp yield, soluble solid content, titratable acidity, vitamin C, pH and pulp electrical conductivity. As a result, we observed that the biofertilizer did not compromise both LG and GA production capacity. Overall, the biofertilizer doses provided quality characteristics superior to those required by the fruit market.Keywords: Passiflora edulis Sims. Organic input. Productivity. Post-harvest. EFEITO DA BIOFERTILIZAÇÃO NA PRODUÇÃO E QUALIDADE DE FRUTOS DO MARACUJAZEIRO AMARELORESUMO -Com o objetivo de avaliar os efeitos de doses de biofertilizante bovino na produção e qualidade e frutos um experimento foi conduzido no município de Nova Floresta, PB, em delineamento de blocos ao acaso, com três repetições e três plantas por parcela, adotando o esquema fatorial 3G x 5B, referente a três genótipos: Genótipo Local (Guinezinho) e dois híbridos, o BRS Sol do Cerrado e BRS Gigante Amarelo e cinco doses de biofertilizante bovino (B) aplicados mensalmente em volume constante de 5 L planta -1 , após diluído em água de irrigação (A) de condutividade elétrica 1,4 dS m -1 nos níveis percentuais de 0% (água de irrigação -0B + 5A), 10% (1B + 9A), 20% (2B + 8A), 30% (3B + 7A) e 40% (4B + 6A). Semanalmente os frutos foram colhidos, contados e pesados para obtenção do número de frutos por planta, produção por planta, e produtividade. No pico da produção, foram colhidos ao acaso, dois frutos por parcela da área útil, para determinação da massa média do fruto, casca e polpa (sementes + suco), espessura da casca, diâmetro e comprimento dos frutos. Além do rendimento em polpa, teor de sólidos solúveis, acidez titulável, vitamina C, valores de pH e da condutividade elétrica da polpa. A aplicação do biofertilizante não comprometeu a capacidade produtiva dos genótipos Guinezinho e Gigante Amarelo. As doses de biofertilizante proporcionaram carac...
RESUMO -A Caatinga nordestina apresenta diversificada riqueza em espécies vegetais. No entanto, a potencialidade dessas espécies como fonte de nutrientes importantes para dieta humana ainda é muito pouco conhecida. Dentre estas espécies, encontra-se a ameixa silvestre (Ximenia americana L.). O presente trabalho teve como objetivo caracterizar os frutos da ameixa silvestre em dois estádios de maturação. Os frutos foram colhidos na Caatinga próxima ao município de Mossoró-RN, em dois estádios de maturação, verde (casca verde) e maduro (casca amarela), sendo 90 frutos para cada estádio. Para a caracterização do fruto, realizaram-se as seguintes análises: massa fresca, comprimentos longitudinal e transversal, rendimento de polpa, vitamina C, sólidos solúveis (SS), acidez titulável (AT), pH e relação SS/AT. Adotou-se o delineamento inteiramente casualizado, com dois tratamentos e seis repetições de 15 frutos para cada parcela. O fruto da ameixa silvestre é de formato arredondado, suculento e apresenta uma única semente tipo amêndoa. Considerando a polpa, ocorre mudança de coloração, passando da cor verde para a amarela, à medida que o fruto amadurece. Este fruto é considerado rica fonte de vitamina C que se encontra naturalmente na Caatinga nordestina, assim como um fruto com elevados teores de sólidos solúveis e acidez. Palavras chaves: Ximenia americana L., vitamina C, Caatinga. WILD PLUM FRUIT CHARACTERIZATION (Ximenia americana L.)ABSTRACT -The Brazilian Caatinga vegetation presents a large variety of vegetal species. However, the potentiality of these species as an important source of nutrients for the human diet is still not so known. Among these species, there is the wild plum (Ximenia americana L.). The present work aimed to characterize the fruits of the wild plum in two ripening stages. The fruits were harvested in the Brazilian Caatinga vegetation next to the Mossoró-RN city, in two ripening stages, green (green rind) and ripe (yellow rind), being 90 fruits for each stage. For the fruit characterization, the following analyses were done: fresh mass, longitudinal and transversal lengths, pulp yield, vitamin C, soluble solids (SS), titritable acidity (TA), pH and ratio SS/TA. The completely randomized design was used with two treatments and six replications of 15 fruits for each part. The wild plum fruit has a round shape, succulent and presents only seed of almond type. Considering the pulp, coloration change occurs, changing from green to yellow color, as the fruit becomes ripe. This fruit is considered rich vitamin C source that can naturally be found in the Brazilian northeastern region, as well as a fruit with high contents of soluble solid and acidity.
One of the biggest challenges in the intercropping system of two crops is to obtain the optimal dose of green manure and the adequate population density of the crops. So, the objective of this work was to evaluate the performance of beet and arugula intercropping, influenced by green manuring with Merremia aegyptia and Calotropis procera and arugula population densities in two cultivation years, in semi-arid environment. The experimental design used was in randomized complete blocks, with the treatments arranged in a 4 x 4 factorial scheme, with 4 repetitions. The first factor of this scheme consisted of equitable amounts of M. aegyptia and C. procera biomass (20, 35, 50 and 65 t ha-1 on a dry basis) and the second factor, by arugula population densities (40, 60, 80 and 100% of the recommended density for single cropping, corresponding to 400, 600, 800 and 1,000 thousand arugula plants ha-1). The production and its components were evaluated on beet and arugula. In addition to these characteristics, the following agro-economic indicators were also determined for each treatment: system productivity index (SPI), land equivalent coefficient (LEC) and monetary equivalent ratio (MER). The greatest agro-economic advantages of the beet with arugula intercropping were achieved with a system productivity index (SPI) of 53.47 t ha-1, land equivalent coefficient (LEC) of 0.84 and a monetary equivalent ratio (MER) of 1.56, respectively, combining 65 t ha-1 of M. aegyptia and C. procera biomass with the arugula population density of 1,000 thousand plants ha-1. The maximum optimized commercial productivity of beetroots in the system intercropped with arugula was 23.20 t ha-1 using 65 t ha-1 of M. aegyptia and C. procera and in the arugula population density of 1,000 thousand plants ha-1, while the maximum arugula productivity intercropped with beet was 9.65 t ha-1, in the same combination of green manures amount and arugula population density.
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