Pequi: a Brazilian fruit with potential uses for the fat industry.

Pequi is a native fruit from Brazil, found in the Amazon, Caatinga, Cerrado and Atlantic Rain Forest regions. It is one of the main plants with great potential for sustainable use in Central Brazil. Among 16 species comprising Caryocar genus, three are highlighted: C. brasiliense, C. villosum, and C. coriaceum, of economic importance for families in small communities of Brazilian Cerrado. They are generally organized in cooperatives and use the leaves for preparing medicinal extracts, and the fruits for culinary purposes. When the sale of fresh fruits is reduced, they produce and commercialize fruit preserves, and liqueur products, as well as extract the oil. Harvesting of mature fruits after falling from the tree while keeping some fruits at the plant is the best way for its sustainable production. The internal mesocarp contains from 36 to 66% dry weight of oil having traditional culinary, medicinal and cosmetic uses. This oil has 60% of oleic acid and 35% palmitic acid, thus suitable for industrial fat hardstocks. The presence of the triacylglycerols POO and POP makes the oil of interest for cosmetic and food industries. Both pulp and kernel oils have been studied for their health effects. By physical, enzymatic or chemical modification, the oil has shown potential uses as cocoa butter substitute and zero trans fat product

Composição química da glicerina produzida por usinas de biodiesel no Brasil e potencial de uso na alimentação animal.

Com a crescente produção de biodiesel no Brasil, aumenta também a produção de glicerina, co-produto dessa indústria. O principal componente da glicerina é o glicerol, altamente energético e, por isso, ela já vem sendo usada como alimento animal em vários países. O objetivo deste trabalho foi avaliar a composição química da glicerina produzida por indústrias de biodiesel no Brasil e discutir seu potencial de utilização na alimentação animal. Dezesseis usinas, responsáveis por 85,1% do biodiesel produzido no país, forneceram 41 amostras para análise. Cromo, cádmio e chumbo não foram detectados em nenhuma das amostras estudadas. Apenas quatro usinas, responsáveis por 36,8% da produção, produzem glicerina que atendem os parâmetros estabelecidos pelo Ministério da Agricultura, Pecuária e Abastecimento para os teores de umidade e glicerol. Apenas uma usina, responsável por 14,1% da produção, produz glicerina apta para uso na alimentação de ruminantes, por não utilizar sebo bovino como matéria prima para o biodiesel

The Copepod Acartia tonsa as live feed for fat snook (Centropomus parallelus) larvae from notochord flexion to advanced metamorphosis.

From early development until the completion of metamorphosis, fat snook (Centropomus parallelus) larvae are commonly fed the rotifers Brachionus spp. and Artemia spp. nauplii. In this study, cultivated copepods Acartia tonsa were evaluated as feed for 15-to 45-day-old larvae. Two experiments were performed using twelve 30-L tanks stocked with 3.3 fat snook larvae L-1. Their initial mean weight and length were 1.35 ± 0.01 mg (mean ± standard deviation) and 3.83 ± 0.33 mm for 15-day-old larvae and 2.79 ± 1.2 mg and 6.99 ± 0.88 mm for 31-day-old larvae. Three dietary treatments were carried out in four replicates, including Rotifer (R), Artemia (A) and/or Copepod (C). Experiment 1 included Diet RA (control), Diet RC and Diet RCA; while experiment 2 included Diet A (control), Diet C and Diet AC. The survival and growth of larvae fed the Diet RCA in experiment 1 were significantly higher than the others. In experiment 2, the inclusion of copepods in the diet did not improve survival and growth, however, larvae fed Diet C had the highest DHA/EPA ratio. We conclude that the copepod Acartia tonsa provides an important nutritional benefit to fat snook larvae undergoing metamorphosis