Antioxidant capacity of anthocyanins from acerola genotypes

Anthocyanins from 12 acerola genotypes cultivated at the Active Germplasm Bank at Federal Rural University of Pernambuco were isolated for antioxidant potential evaluation. The antioxidant activity and radical scavenging capacity of the anthocyanin isolates were measured according to the β-carotene bleaching method and 1,1-diphenyl-2-picrylhydrazyl (DPPH) free radical scavenging assay, respectively. The antioxidant activity varied from 25.58 to 47.04% at 0.2 mg.mL-1, and it was measured using the β-carotene bleaching method. The free radical scavenging capacity increased according to the increase in concentration and reaction time by the DPPH assay. At 16.7 μg.mL-1 concentration and after 5 minutes and 2 hours reaction time, the percentage of scavenged radicals varied from 36.97 to 63.92% and 73.27 to 94.54%, respectively. Therefore, the antioxidant capacity of acerola anthocyanins varied amongst acerola genotypes and methods used. The anthocyanins present in this fruit may supply substantial dietary source of antioxidant which may promote health and produce disease prevention effects.

Obtenção e caracterização de extrato microencapsulado de resíduo agroindustrial de acerola

Acerola (Malpighia emarginata D.C.) is a red fruit widely cultivated in Brazil, especially in the Northeastern region. Its increasing demand is attributed to its high ascorbic acid contents. Besides ascorbic acid, widely known by its health-benefit effects, acerola is rich in anthocyanins, which contribute for the antioxidant power of the fruit. Acerola processing produces a bright-red pomace, usually discarded. The further processing of this pomace, in order to explore its antioxidant compounds, could enhance acerola market value and rentability of its processing. Both ascorbic acid and anthocyanins are highly susceptible to degradation, that can be delayed by microencapsulation, which consists on packing particles (core) in an edible matrix (wall material). This work has been made with the purpose of producing a microencapsulated acerola pomace extract, which could be used by the food industry as a functional ingredient with antioxidant and coloring properties. Antioxidant compounds were recovered by pressing the pomace diluted in a solvent (a citric acid aqueous solution), by using a central composite design, with two variables: citric acid concentration in the solvent (0-2%), and solvent: pomace mass ratio (2:1-6:1). The acerola pomace extract was then microencapsulated by spray drying. A central composite design was adopted, with three variables: inlet temperature of the spray dryer (170o-200oC), wall material: acerola solids mass ratio (2:1-5:1), and degree of maltodextrin replacement by cashew tree gum as wall material (0-100%). The cashew tree gum was used because of its similarity to arabic gum, which is regarded as the wall material by excellence. The following conditions were considered as optimal for extraction of anthocyanins and ascorbic acid: solvent/pomace ratio, 5:1, and no citric acid in the solvent. 82.47% of the anthocyanins were recovered, as well as 83.22% of the ascorbic acid. Anthocyanin and ascorbic acid retentions were favored by lower inlet temperatures, higher wall material: acerola solids mass ratio and higher maltodextrin replacement by cashew tree gum, which was presented as a promising wall material. The more adequate microencapsulation conditions, based not only on retention of antioxidant compounds but also on physical properties of the final powder, were the following: inlet temperature, 185oC; wall material: acerola solids mass ratio, 5:1, and minimum degree of maltodextrin replacement by cashew tree gum, 50%

Acerola: importance, culture conditions, production and biochemical aspects

Origin and importance. Acerola, or Malpighia emarginata D. C., is native to the Caribbean islands, Central America and the Amazonian region. More recently, it has been introduced in subtropical areas (Asia, India and South America). The vitamin C produced by acerola is better absorbed by the human organism than synthetic ascorbic acid. Exportation of acerola crops is a potential alternative source of income in agricultural businesses. In Brazil, the commercial farming of acerola is quite recent. Climatic conditions. Acerola is a rustic plant. It can resist temperatures close to 0 degrees C, but it is well adapted to temperatures around 26 degrees C with rainfall between (1200 and 1600) mm per year. Fruit characteristics. Acerola fruit is drupaceous, whose form can vary from round to conic. When ripe, it can be red, purple or yellow. The fruit weight varies between (3 and 16) g. Maturation. Acerola fruit presents fast metabolic activity and its maturation occurs rapidly. When commercialised in ambient conditions, it requires fast transportation or the use of refrigerated containers to retard its respiration and metabolism partially. Production and productivity. Flowering and fruiting are typically in cycles associated with rain. Usually, they take place in 25-day cycles, up to 8 times per year. The plant can be propagated by cuttings, grafting or seedlings. Harvest. Fruits produced for markets needs to be harvested at its optimal maturation stage. For distant markets, they need to be packed in boxes and piled up in low layers; transportation should be done in refrigerated trucks in relatively high humid conditions. Biochemical constituents. Acerola is the most important natural source of vitamin C [(1000 to 4500) mg.100(-1) g of pulp], but it is also rich in pectin and pectolytic enzymes, carotenoids, plant fibre, vitamin B, thiamin, riboflavin, niacin, proteins and mineral salts. It has also shown active anti-fungal properties. Products and market. Acerola is used in the production of juice, soft drinks, gums and liqueurs. The USA and Europe are great potential markets. In Europe, acerola extracts are used to enrich pear or apple juices. In the USA, they are used in the pharmaceutical industry. Conclusions. The demand for acerola has increased significantly in recent years because of the relevance of vitamin C in human health, coupled with the use of ascorbic acid as an antioxidant in food and feed. Acerola fruit contains other significant components, which are likely to lead to a further increase in its production and trade all over the world.

Comprimento de estacas e parte do ramo na formação de mudas de aceroleira

A capacidade rizogênica, a brotação e o vigor de estacas caulinares de aceroleira foram avaliados em condições de casa de vegetação na Empresa Brasileira de Pesquisa Agropecuária (EMBRAPA) Agroindústria Tropical, em Fortaleza-CE, no período de novembro de 2000 a janeiro de 2001, objetivando determinar a parte do ramo e o tamanho mais apropriado para estaquia. O delineamento experimental foi inteiramente casualizado, no esquema fatorial 3x3, correspondendo a três posições no ramo (apical, mediano e basal) e três comprimentos de estacas (10; 15 e 20 cm), com três repetições de 10 estacas por parcela. As estacas, colhidas de plantas com 2,5 anos de idade, foram plantadas em tubetes de 288cm³ contendo uma mistura de casca de arroz carbonizada e vermicomposto, na proporção volumétrica de 2:3, e cultivadas por um período de 60 dias sob condições de nebulização intermitente. Avaliaram-se a percentagem de estacas enraizadas, o peso da matéria seca do sistema radicular e parte aérea, o número de folhas, de gemas sem brotação e as ramificações emitidas por estaca. Os resultados indicaram que estacas caulinares com 10 centímetros de comprimento e colhidas da porção mediana dos ramos são mais apropriadas para a produção de mudas de aceroleira por estaquia, sob condições de casa de vegetação com nebulização intermitente.

Variação sazonal da concentração de macronutrientes em folhas de diferentes genótipos de aceroleira

A aceroleira produz durante o ano inteiro, e seus frutos são ricos em vitaminas e sais minerais. Para a obtenção de produções elevadas e frutos de boa qualidade, é necessário conhecer as necessidades nutricionais e as épocas mais apropriadas para a adubação das plantas. Este trabalho, conduzido em área do Campo Experimental da Empresa Brasileira de Pesquisa Agropecuária (EMBRAPA) Agroindústria Tropical, em Pacajus, Ceará, de dezembro de 1999 a outubro de 2000, teve por objetivo estudar a variação sazonal dos teores de nutrientes (N, P, K, Ca, Mg e S) e determinar a época mais indicada para a análise foliar de seis genótipos (P 52, P 66, P 78, P 91, P 93 e P 97) de aceroleira (Malpighia emarginata D.C.). Adotou-se o delineamento de blocos ao acaso, em esquema de parcelas subdivididas no tempo, com 4 repetições e uma planta por unidade experimental. Existem poucas diferenças no teor de macronutrientes das folhas de distintos genótipos de aceroleiras. O mês de dezembro é a época mais apropriada para diagnosticar os teores de macronutrientes em genótipos de aceroleira no Estado do Ceará, pois é o período menos influenciado pela falta ou excesso de chuva ou pela demanda dos órgãos em formação na planta.

Propagação por garfagem da aceroleira cv. Okinawa sobre diferentes porta-enxertos

Pós-graduação em Agronomia - FEIS

Crash protection systems for handicapped school and transit bus occupants. Volume III: appendices A, B, C and D. Interim report.

National Highway Traffic Safety Administration, Washington, D.C.

De re medica huic volumini insunt, Sorani Ephesij ... in artem medendi Isagoge, hactenus non uisa. D. Oribasii Sardiani, fragmentum, de uictus ratione, quolibet anni tempore utili, antea nunquam aeditum. C. Plinii Secundi de re medica libri V. ... L. Apuleii ... de herbarum uirtutibus, uerè aurea & salutaris historia, è tenebris eruta, & à situ uindicata. Accessit his vice coronidis, Libellus utilissimus de Betonica, quem quidam Antonio Musae, no[m]nulli L. Apuleio adscribendum autumant, nuper excusus ...

Mode of access: Internet.

Věstník - Československá akademie věd.

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In the matter of United Steelworkers of America-CIO and various steel and iron ore companies : case no. D-18-C.

"New York, N.Y. February 13, 1952"--V. 3.

Stories from English history from B. C. 55 to A. D. 1901;

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