Effects of hydroxy-selenomethionine on performance, innate immune system and antioxidant defense of tambaqui (Colossoma macropomum) exposed to a physical stressor.

Selenium (Se) is a mineral with natural antioxidant properties that constitutes a number of enzymes with a fundamental role in the immunity and antioxidant systems and may confer a protective role against oxidative stress in fish following exposure to physical stressors. Adopting an integrated approach, this study investigated simultaneously the role of hydroxy-selenomethionine (OH-SeMet) supplementation in performance, hematological parameters, innate immune, antioxidant capacity and tissue Se retention of tambaqui (Colossoma macropomum) and the possible protective role of dietary selenium when fish are exposed to a physical stressor (transport). Juvenile specimens (15.71 ± 1.90 g) were fed one of five diets: a basal unsupplemented diet (0.0 mg kg-1 Se) or diets supplemented with OH-SeMet to provide 0.3, 0.6, 0.9 and 1.2 mg kg-1 Se of diet for 75 days prior to subjection of fish to transport stress. Dietary supplementation with Se in the form of OH-SeMet for 75 days did not affect the production performance of juvenile tambaqui, but increased innate immunity parameters (oxidative burst) from the Se inclusion level of 0.6 mg kg-1 and induced the activation of the antioxidant defense system (GPX, GSH and GST) especially at the Se inclusion level of 0.9 mg kg-1. In addition, the Se content in the fillet rose significantly, as the OH-SeMet contents in the diet were increased. The stress caused by transport resulted in alterations in hematological parameters, blood protein profile and immune and enzymatic responses in the species. However, Se supplementation at 0.9 mg kg-1 had a positive effect, increasing innate immunity and activating antioxidant defenses (CAT and GPx, especially) after this physical stressor was applied. These results demonstrate that, when submitted to transport stress, juvenile tambaqui use Se stored in the muscle and dietary supplementation with OH-SeMet at 0.9 mg kg-1 improves the innate immunity and antioxidant system parameters of fish after transport. These findings reinforce the need for supplementing hydroxy-selenomethionine in commercial diets for tambaqui to ensure tissue Se reserves as a contingency in cases of stress.

Performance and economic viability of tambaqui, Colossoma macropomum, selectively bred for weight gain

Tambaqui, Colossoma macropomum, is one of the most produced species in Brazilian fish farming, which has boosted the development of new technologies to increase its productivity. The aim of this study was to evaluate production performance in two second-generation tambaqui stocks selectively bred for weight gain in a semi-intensive rearing system and assess its influence on total production cost. We analyzed 300 fish (initial mean weight and standard length of 160 g and 17 cm, respectively) of two families (A and B, 150 fish each). The fish were individually marked with microchips and stocked in an 800-m2 excavated pond. For economic analysis, the obtained performance data were extrapolated for a fish farm with a 10-ha pond, adopting the Total Production Cost methodology. After 270 days of farming, the fish from family B were significantly superior (p < 0.05) for all analyzed performance parameters (final weight = 1965.0 g; weight gain = 1786.7 g; biomass gain = 255.2 kg) and morphometric growth in relation to the fish from family A (final weight = 1881.0 g; weight gain = 1737.5 g; biomass gain: 217.7 kg). The total production cost estimations indicated that fish from family B would allow for a 4% reduction in the average fixed cost and a 1% decrease in the total average production cost. (AU)

Dietary L-tryptophan alters aggression in juvenile matrinxã Brycon amazonicus.

This study evaluated the effect of dietary supplementation with L: -tryptophan (L-TRP), a serotonin precursor, on the aggressiveness of juvenile matrinxã Brycon amazonicus. Fish were kept in individual aquaria for 7 days receiving the diets: D1 (control: 0.47% of TRP), D2 (0.94% of TRP), D3 (1.88% of TRP), and D4 (3.76% of TRP). After this, they were grouped with an intruder fish to establish a resident-intruder relationship during periods of 20 min. Blood cortisol, glucose, chloride, sodium and calcium; hemoglobin, hematocrit, red blood cell count and volume; liver glycogen and lipids were measured. Territoriality had significant effect on the aggressiveness of matrinxã (the residents were more aggressive than intruders, P < 0.001) and tryptophan significantly affected their behavior. Fish fed with the D2 diet presented a longer latency until the first attack (P = 0.0069) and bit the intruder fewer times (P = 0.0136) during the period of observation, compared to the control group. The frequency of bites and chases after the first attack was not affected by the dietary supplementation of TRP. Physiological variables were not significantly affected by the diet, except for a moderate increase in cortisol level in fish fed with D2 diet after the fight, indicating slight activation of the hypothalamus-pituitary-interrenal axis. The results show that juvenile matrinxã have aggressive and territorial behavior and that a diet containing 9.4 g TRP kg(-1) alter their aggressiveness, without affecting the stress-related physiological parameters.

Respostas fisiológicas de estresse no matrinxã (Brycon amazonicus) após exercício físico intenso durante a captura / Physiological stress responses of matrinxã (Brycon amazonicus) after chasing

Para determinar as respostas de estresse do matrinxã após perseguição com puçá, juvenis (26,7±6,7 g) foram aclimatados em caixas plásticas e submetidos aos tratamentos: Controle (sem perseguição), Perseguição por 2 minutos, Perseguição por 5 minutos, Perseguição por 10 minutos (quatro repetições, N=8/tratamento). Amostras de sangue foram coletadas 15, 30 e 60 minutos após a perseguição para determinação do cortisol, glicose, sódio, cloreto, potássio, hematócrito, hemoglobina, número total de eritrócitos e osmolaridade. O perfil das respostas após o exercício físico dos peixes não mostrou as alterações típicas do estresse. Até 60 minutos após o estímulo, não ocorreram alterações nos níveis sanguíneos de cortisol, glicose e potássio nos peixes dos diferentes tratamentos. Os níveis de cloreto foram reduzidos 15 minutos após a natação forçada, enquanto os níveis do sódio mais baixos foram registrados 60 minutos depois. Houve redução da osmolaridade a partir dos 30 minutos após o estímulo, independente do tempo de perseguição. A natação forçada não interferiu nos indicadores hematológicos, corroborando os outros indicadores usados. Dessa forma, o exercício intenso dos peixes por até 10 minutos não foi estímulo suficiente para gerar respostas de estresse, sugerindo que o matrinxã é bastante resistente ao manejo de criação.

This study reports the stress responses of matrinxã after chasing. Juvenile fish (26.7±6.7 g) were adapted to 100L plastic boxes and submitted to the treatments: Control (no chasing), Chasing for 2 min, Chasing for 5 min, Chasing for 10 min (four boxes/treatment, 32 fish). Blood was drawn 15, 30 and 60 min after chasing to determine levels of cortisol, glucose, sodium, chloride, potassium, calcium, hematocrit, hemoglobin, erythrocytes number and osmolality. Matrinxã responses after forced swimming did not show the typical stress responses. There were no changes in blood cortisol, glucose, potassium and calcium levels in fish from any treatment until 60 min after chasing. Blood chloride levels were lower 15 min after chasing while the lowest levels of sodium were registered 60 min after the forced swimming. Osmolality dropped 30min after chasing, regardless the period of chasing. The intense swimming did not affect hematological indicators confirming the other physiological indicators. The results suggest that the intense swimming provoked by chasing up to 10 min was not intense enough to promote stress responses in matrinxã indicating that the species is very resistant to the farming handling.