RESUMO
The aim of this study was to produce feed based on locally sourced ingredients for tambaqui farming in Amazon. Diets were formulated with increasing levels (0, 25, 50, 75 and 100%) of defatted black soldier fly larvae meal (BSFL) as a replacement for fish meal (FM), and cassava by-products in the same proportion (tuber residues, peel and leaves). A conventional diet (CO) was used as the control. Juvenile tambaqui (24.61 ± 1.14 g) were housed in 24 tanks in a recirculation aquaculture system. Neither diet rejection nor mortality were observed. Fish fed cassava by-products showed similar feed conversion rates (FCR 1.76); however, these values were worse than those observed in fish fed the CO (FCR 1.33). No differences were observed in the whole-body composition of the fish. The fillets of fish fed cassava by-products had a yellow color due the carotenoids present in the leaves. Dietary BSFL and cassava by-products can contribute to the sustainability of Amazonian aquaculture. Further studies with a lower proportion of cassava leaves in the diet formulation are recommended so as to ensure enhanced diet digestibility and less impact on the color of the fillets.
RESUMO
The green water technique uses microalgae in the water of indoor larviculture, providing a darker environment to favor fish growth, welfare and health. We evaluated growth performance and locomotor activity after light exposure of pirarucu (Arapaima gigas) larvae reared in green or clear water. During one test, pirarucu larvae (3.6 ± 0.3 cm; 0.36 ± 0.1 g) were reared in 50-L circular tanks (n = 3 per treatment, 50 larvae per tank) in a static system containing green water [microalgae (w3algae; Bernaqua® 10 g m-3) added] or clear water (control). Fish weaning was achieved by co-feeding with Artemia nauplii and microdiets for seven days until full microdiet substitution. Larvae were biometrically evaluated on days 10, 17 and 24 to assess growth performance. In a second test, the locomotor activity of the larvae was analyzed before and after light exposure (1400 ± 60 lx) for 48 h according to an ethogram. After 24 days, the larvae reared in the green water were significantly heavier than those from the clear water, and displayed significantly fewer circular swimming movements. Body cortisol increased in both groups after light exposure. The microalgae provided an additional food source for larvae, with positive impact on growth until day 17 of larviculture. Green water can be a strategy to achieve better results in pirarucu larviculture, especially during and up to 10 days after the co-feeding period.(AU)
A técnica de água verde utiliza microalgas na água durante a larvicultura indoor, proporcionando um ambiente mais escuro que favorece o crescimento, bem-estar e saúde dos peixes. Avaliamos o crescimento e a atividade locomotora após exposição à luz de larvas de pirarucu (Arapaima gigas) criadas em água verde ou clara. Em um teste, larvas de pirarucu (3,6 ± 0,3 cm; 0,36 ± 0,1 g) foram criadas em tanques circulares de 50 L (n = 3 por tratamento; 50 larvas por tanque) em sistema estático contendo água verde [microalgas (w3algae; Bernaqua® 10 g m-3) adicionadas] ou água clara (controle). A transição alimentar dos peixes ocorreu por co-alimentação com náuplios de Artemia e microdieta por sete dias até a substituição completa pela microdieta. A biometria das larvas foi avaliada nos dias 10, 17 e 24, para avaliar o crescimento. Um segundo teste avaliou a atividade locomotora das larvas antes e após exposição à luz (1.400 ± 60,47 lx) por 48 horas usando um etograma. Após 24 dias, os peixes criados em água verde pesaram significativamente mais que os da água clara, e apresentaram significativamente menos movimentos circulares de natação. A exposição à luz aumentou o cortisol corporal nos dois grupos depois da exposição à luz. O nível corporal de cortisol aumentou em ambos grupos após exposição à luz. As microalgas forneceram uma fonte adicional de alimento para as larvas, com impacto positivo sobre seu crescimento até o 17º dia de larvicultura. Água verde pode ser uma estratégia para obter melhores resultados na larvicultura de pirarucu, principalmente durante e até 10 dias após o período de co-alimentação.(AU)