Assessment of nutritional and metabolic profiles of pea shoots: The new ready-to-eat baby-leaf vegetable

Pea-shoots are a new option as ready-to-eat baby-leaf vegetable. However, data about the nutritional composition and the shelf-life stability of these leaves, especially their phytonutrient composition is scarce. In this work, the macronutrient, micronutrient and phytonutrients profile of minimally processed pea shoots were evaluated at the beginning and at the end of a 10-day storage period. Several physicochemical characteristics (color, pH, total soluble solids, and total titratable acidity) were also monitored. Standard AOAC methods were applied in the nutritional value evaluation, while chromatographic methods with UV–vis and mass detection were used to analyze free forms of vitamins (HPLC-DAD-ESI-MS/MS), carotenoids (HPLC-DAD-APCI-MSn) and flavonoid compounds (HPLC-DAD-ESI-MSn). Atomic absorption spectrometry (HR-CS-AAS) was employed to characterize the mineral content of the leaves. As expected, pea leaves had a high water (91.5%) and low fat (0.3%) and carbohydrate (1.9%) contents, being a good source of dietary fiber (2.1%). Pea shoots showed a high content of vitamins C, E and A, potassium and phosphorous compared to other ready-to-eat green leafy vegetables. The carotenoid profile revealed a high content of β-carotene and lutein, typical from green leafy vegetables. The leaves had a mean flavonoid content of 329 mg/100 g of fresh product, mainly composed by glycosylated quercetin and kaempferol derivatives. Pea shoots kept their fresh appearance during the storage being color maintained throughout the shelf-life. The nutritional composition was in general stable during storage, showing some significant (p < 0.05) variation in certain water-soluble vitamins.

Effect of peel and seed removal on the nutritional value and antioxidant activity of tomato (Lycopersicon esculentum L.) fruits

The effect of peel and seed removal, two commonly practiced procedures either at home or by the processing industry, on the physicochemical properties, bioactive compounds contents and antioxidant capacity of tomato fruits of four typical Portuguese cultivars (cereja, chucha, rama and redondo) were appraised. Both procedures caused significant nutritional and antioxidant activity losses in fruits of every cultivar. In general, peeling was more detrimental, since it caused a higher decrease in lycopene, bcarotene, ascorbic acid and phenolics contents (averages of 71%, 50%, 14%, and 32%, respectively) and significantly lowered the antioxidant capacity of the fruits (8% and 10%, using DPPH. and b-carotene linoleate model assays, correspondingly). Although seeds removal favored the increase of both color and sweetness, some bioactive compounds (11% of carotenoids and 24% of phenolics) as well as antioxidant capacity (5%) were loss. The studied cultivars were differently influenced by these procedures. The fruits most affected by peeling were those from redondo cultivar (-66% lycopene, -44% b-carotene, -26% ascorbic acid and -38% phenolics). Seeds removal, in turn, was more injurious for cereja tomatoes (-10% lycopene, -38% b-carotene, -25% ascorbic acid and -63% phenolics). Comparatively with the remaining ones, the rama fruits were less affected by the trimming procedures.

Impact of boiling on phytochemicals and antioxidant activity of green vegetables consumed in the Mediterranean diet

The effect of boiling (10 minutes) on eleven green vegetables frequently consumed in the Mediterranean diet was evaluated. For that, some physicochemical parameters and the contents of vitamin C, phenolics and carotenoids, as well as the antioxidant activity, were determined in raw and boiled samples. The raw vegetables analysed in this study were good sources of vitamin C, carotenoids and phenolic compounds, with contents ranging from 10.6 to 255.1 mg/100 g, 0.03 to 3.29 mg/100 g and 202.9 to 1010.7 mg/100 g, respectively. Boiling promoted losses in different extensions considering both the different bioactive compounds and the distinct vegetables analysed. Contrary to phenolics (more resistant), vitamin C was the most affected compound. Boiling also originated significant losses in the antioxidant activity of the vegetables. Considering all the parameters analysed, the vegetables most affected by boiling were broccoli and lettuce. The least affected ones were collard and tronchuda cabbage.

Cultivo e avaliação do potencial da microalga Chlorella zofingiensis para a produção de biodiesel e produtos de valor acrescentado

O presente trabalho tem como objetivo o cultivo da microalga Chlorella zofingiensis, e a avaliação da sua potencial aplicação na produção de biodiesel e de produtos de valor acrescentado, de entre os quais se destacam os antioxidantes. Com o intuito da produção de biocombustível é necessário efetuar o cultivo da microalga num volume que permita a obtenção de elevada quantidade de biomassa para a concretização do trabalho. Além deste biocombustível, existe ainda a possibilidade de valorização de alguns produtos com valor comercial, como é o caso da astaxantina, a saber na área farmacêutica, alimentar ou até mesmo cosmética. O cultivo da microalga foi feito em meio Bold’s Basal Medium (BBM), inicialmente em matrazes de 5 L e, quando se obteve uma cultura suficientemente densa, inocularam-se fotobiorreatores de 50 L. Conseguiu-se atingir uma concentração máxima de 0,76 g/L, no reator de 5 L, após cerca de 6 semanas de ensaio. Por sua vez, em fotobiorreatores de 50 L, a concentração máxima obtida foi de 0,4 g/L, após 4 semanas de ensaio. Nestas culturas foi possível obter-se uma percentagem lipídica de 7 %, apresentado concentração de pigmentos por litro de cultura na ordem dos 10 mg/L, 4 mg/L e 2 mg/L de clorofila a, clorofila b e carotenoides totais, respetivamente. Com esta percentagem lipídica recuperaram-se 400 mg de óleo, obtendo-se posteriormente 280 mg de biodiesel. Pela análise à amostra de biodiesel obtida foi possível obter o perfil lipídico desta microalga, quando cultivada em meio BBM, sendo 41% de ácido palmítico (C16:0), 9% de ácido esteárico (C18:0), 27% de ácido oleico (C18:1) e 23% de ácido linoleico (C18:2). Os resultados obtidos mostram que a Chlorella zofingiensis é uma microalga com interesse potencial para a produção de clorofila e carotenóides, mas não para o óleo para a produção de biodiesel.