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1.
Ciênc. rural (Online) ; 48(9): e20180190, 2018. tab
Artículo en Inglés | LILACS | ID: biblio-1045202

RESUMEN

ABSTRACT: Body composition (total crude protein, lipid, ash, dry matter and moisture) and fatty acid profiles were compared between wild and farmed brown trout and between farmed rainbow trout. Farmed brown trout contained the highest amount of crude protein (18.39%), whereas farmed rainbow trout contained higher levels of crude lipid (2.35%). Thirty six fatty acids were found, including sixteen saturated fatty acids (SFA), nine monounsaturated fatty acids (MUFA) and eleven polyunsaturated fatty acids (PUFA). The most abundant SFA in all fish were palmitic acid and stearic acid. However, the most abundant fatty acids in all trout samples were MUFA and PUFA. MUFA were the most abundant fatty acid in farmed brown trout because of high abundance of oleic acid in this samples (35.46g / 100g fatty acids). PUFA were predominating in the samples of wild brown trout and of rainbow trout 56.16 and 56.29g/100g fatty acids, respectively). Linoleic acid was the most abundant fatty acid reported in the rainbow trout (47.17g/100g fatty acids). Significantly higher amounts of docosahexaenoic acid, α-linolenic acid, arachidonic acid and eicosapentaenoic acid were observed in the wild trout samples. Wild brown trout contained significantly more docosahexaenoic acid, α-linolenic acid, Eicosapentaenoic acidArachidonic acid. Sensory quality evaluation, by a consumers' panel, revealed all samples were equally well accepted.


RESUMO: A composição corporal (teores de proteína, gordura total, cinzas, matéria seca e humidade) e os perfis de ácidos gordos da truta-fário (selvagem e proveniente de aquacultura) e da truta-arco-íris (cultivada) foram comparados. A truta-fário cultivada continha a maior quantidade de proteína bruta (18,39%), enquanto a truta arco-íris possuía teores mais elevados de lípidos (2,35%). Foram detectados 36 ácidos graxos, incluindo 16 ácidos graxos saturados (SFA), nove ácidos graxos monoinsaturados (MUFA) e 11 ácidos graxos poliinsaturados (PUFA). Os SFA mais abundantes foram o ácido palmítico e o ácido esteárico. No entanto, os ácidos graxos mais abundantes em todas as amostras de truta foram os MUFA e os PUFA. A grande abundância de ácido oleico existente nas amostras de truta-fário cultivada (35,46g/100g de ácidos graxos) faz com que os MUFA sejam os ácidos graxos mais abundantes nesta variedade de truta (42,43g/100g de ácidos graxos) Nas amostras de truta-fário selvagem e nas de truta arco-íris predominaram os PUFA (56,16 e 56,29g/100g de ácidos graxos, respetivamente), sendo o ácido linoleico o mais abundante na truta-arco-íris (47,17g/100g de ácidos graxos). Nas amostras truta-fário selvagem foram observadas quantidades significativamente mais elevadas de ácido docosahexaenóico, ácido α-linolênico, ácido acidoaraquidônico e ácido eicosapentaenóico. Todas as amostras foram igualmente bem aceitas por um painel de consumidores.

2.
Br Biotechnol J ; 2014 Oct; 4(10): 1077-1087
Artículo en Inglés | IMSEAR | ID: sea-162520

RESUMEN

Aims: Evaluate the in vitro effects of essential oils and water extracts of Laurus nobilis, Rosmarinus officinalis, Mentha suaveolens and Fraxinus angustifolia on the growth of Anabaena cylindrica and Chlorella vulgaris. Study Design: Experimental research. Place and Duration of Study: The cyanobacterium Anabaena cylindrica and the green alga Chlorella vulgaris were used as test strains to evaluate the effects of plant extracts on algal growth. All experiments were undertaken in the Agricultural School of Bragança - Polytechnic Institute, from September 2010 to July 2011. Methodology: Essential oils were obtained by means of hydrodistillation of the plants. The oils and the water that remained, after the hydrodistillation, were further used for the growth screening of Anabaena cylindrica and Chlorella vulgaris under axenic cultures. Both types of extracts were tested at different concentrations. The essential oil effects were evaluated by disc diffusion method and water extracts effects were evaluated in batch cultures. Results: Essential oils had an algaecide effect in all tested concentrations (1:1; 1:3; 1:4 and 1:10) for both algal strains. Contrarily, none of the water extracts evidenced a complete algaecide effect. Nevertheless, promising results were obtained with rosemary water extract since the highest concentrations (1:4) had an algaestatic effect on C. vulgaris. Conversely, the observed effects on A. cylindrica varied from cellular density decrease to an algaestatic effect. Therefore, the tested algal strains presented distinct responses to both extract types and concentrations. Conclusions: Comparing the different extracts’ activity, it can be concluded that essential oils mostly influenced algal growth.

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