Influence of Docosahexaenoic and Eicosapentaenoic Acid Ratio and Temperature on the Growth Performance, Fatty Acid Profile, and Liver Morphology of Dusky Grouper (Epinephelus marginatus) (Teleostei: Serranidae) Juveniles.

An 8-week trial was performed to evaluate the influence of docosahexaenoic (DHA) and eicosapentaenoic acid (EPA) ratios and temperature on the fatty acid (FA) metabolism and liver morphology of Epinephelus marginatus. A basal diet was manufactured, and DHA (D1:0.5%; D2:0.75%; D3:1%; and D4:1.5%) and EPA (D1:1.0%; D2:0.75%; D3:0.5%; and D4:0%) levels were added. E. marginatus were kept in twelve tanks with a lower temperature (LT, 23.17 ± 0.12 °C) and twelve with a higher temperature (HT, 28.63 ± 0.06 °C). The DHA/EPA ratio did not affect performance, regardless of the temperature, but the animals fed with the D4 diet showed better growth at HT. A higher lipid deposition and a large lipid vacuole area in the hepatocytes at HT were observed, regardless of the diet. Triacylglycerol (TG) in reflected the diet FA profile mainly in the muscle and liver, whereas the phospholipid (PL) was less influenced by the diet. The same DHA content in the TG fraction of muscle (D3 and D4) were observed at LT; however, only the DHA/EPA ratio of D4 could be differentially stored in the TG fraction of muscle (HT). Monounsaturated and polyunsaturated FA increased in the PL of the eyes at HT, whereas saturated FA was reduced in the TG and PL fractions at LT. These results evidence the importance of temperature and a balanced DHA/EPA ratio in the diet of marine fish.

Dynamics of ovarian maturation during the annual reproductive cycle of the endangered fish Steindachneridion parahybae (Siluriformes: Pimelodidae) in captivity.

To characterize the female reproductive biology of the endangered species Steindachneridion parahybae in captivity, the authors used the concentration of gonadal steroids and the oocyte development during the annual reproductive cycle (RC) and after artificial induced spawning (AIS) until 48 h. Three stages of gonadal maturation were identified, based on morphological and physiological features: early maturation or previtellogenic (PRV) oocyte, advanced maturation or vitellogenic (VTG) oocyte and regression (REG) or follicular atresia. They identified and characterized the following stages of germ cells: oogonia, perinucleolar and cortical alveoli, and VTG and atretic oocytes during RC. The oestradiol levels were higher in PRV than those in VTG and REG during the RC, whereas androgens showed higher levels of oestradiol in VTG than those in PRV and REG. The progestogen levels remained unchanged during the whole RC. The final oocyte maturation (FOM) was achieved after AIS and postovulatory follicles (POF) were identified. Plasma concentration of progestogens (17α,20ß-dihydroxy-pregnen-3-one and 17α-hydroxyprogesterone) increased considerably after AIS, remaining high up to 6 h after AIS, and progressively decreased over time after AIS. During RC, the lack of FOM and POFs reveals that captivity negatively impacts S. parahybae reproduction. Nonetheless, the VTG stage of oocytes, reached during RC, is suitable for ovulation induction with artificial hormone manipulation, enabling the reproduction of this species in captivity and being essential for the success of fish farming and/or fish conservation programmes (conservationist aquaculture).

Spawning induction and embryonic development of Salminus hilarii (Characiformes: Characidae).

The present study aimed to evaluate two different methods of artificial reproduction induction, and characterize the embryonic development of Salminus hilarii. Different than observed for other tropical fish species, artificial reproduction induction followed by hand-stripping of gametes was considered unfeasible for S. hilarii, as no gamete fertilization was observed. However, females that were induced and spawned naturally presented a fertilization rate of 65.64 ± 0.54%. With a mean temperature of 26.20 ± 0.90ºC it was possible to clearly distinguish a large perivitelline space at 14 min after fertilization (AF) and at 49 min AF more than 50% of the embryos presented two blastomeres, and these cleavages occurred until 1 h 54 min AF. The gastrula phase was characterized at 3 h 56 min AF, and blastopore closure was observed at 8 h 31 min AF. At 9 h 1 min, organogenesis started, with a clear distinction of the yolk mass, embryonic axis, cephalic and caudal regions; at 11 h 51 min AF the embryos already had advanced segmentation and a free tail. Total hatching occurred at 21 h 17 min and after opening the mouth, which occurred at 33 h 9 min, the larvae of S. hilarii presented a strong and characteristic cannibalism. This information can be considered fundamental to improving S. hilarii production in captivity and for collaboration with a conservation programme in the upper Tietê river basin.

Fisiologia reprodutiva aplicada ao cultivo de peixes neotropicais / Reproductive physiology applied to neotropical fish rearing

A reprodução dos peixes teleósteos é regulada pela interação dos sistemas nervoso e endócrino, e essa interação é realizada pelo eixo hipotálamo-hipófise-gônadas (H-H-G). No entanto, sabe-se que os sinais ambientais (fotoperíodo, temperatura, pluviosidade entre outros fatores), são responsáveis por modular este processo. O eixo H-H-G, sintetiza e libera fatores internos (neuro-hormônios e neurotransmissores) e hormônios hipotalâmicos, hipofisários e gonadais que permitem a sincronização dos reprodutores aptos, que com condições ambientais adequadas permitem a reprodução em momento propício, com consequentemente maior sobrevivência da prole. O entendimento da fisiologia do eixo H-H-G tem sido muito importante para compreender os mecanismos regulatórios do controle neuroendócrino da reprodução em peixes teleósteos, possibilitando entender as razões do bloqueio da reprodução em cativeiro (piscicultura), ou quando a interrupção da migração reprodutiva (peixes reofílicos) por barragens é bloqueada, o que pode levar à extinção de espécies endêmicas. Esta revisão abordará o controle fisiológico do eixo H-H-G, com ênfase nas espécies neotropicais nacionais (espécies marinhas e dulciaquícolas) e discutirá as disfunções reprodutivas observadas nestes animais, quando em cativeiro. Neste contexto, a partir deste conhecimento teórico na fisiologia reprodutiva, a aplicação e/ou sugestões de tecnologias com o objetivo de obter sucesso na reprodução de espécies ameaçadas de extinção em cativeiro também serão abordados. É importante salientar que esta revisão não pretende cobrir todo o conhecimento sobre a fisiologia reprodutiva dos peixes teleósteos.

Teleost fish reproduction is regulated by the interaction of the nervous and endocrine systems, and this interaction is performed by the hypothalamic-pituitary-gonadal axis (H-H-G). However, it is known that environmental signals (photoperiod, temperature, rainfall, among other factors), are responsible to modulate this entire process. The H-H-G axis, synthesizes and releases internal factors (neurohormones and neurotransmitters) and hypothalamic, pituitary, and gonadal hormones that allow the synchronization of the able broodstocks and that, with adequate environmental conditions allow reproduction in the right time, and consequently, with a greater offspring survival. Understanding the physiology of the H-H-G axis has been important to understand the regulatory mechanisms of neuroendocrine control of reproduction in teleost fish, making it possible to understand the reasons for blocking reproduction in captivity (fish farming), or when the interruption of reproductive migration (reophilic fish) by dams is blocked, taking to the extinction of endemic species. This review will address the physiological control of the H-H-G axis, with an emphasis on National neotropical species (marine and freshwater species) and will discuss the reproductive dysfunctions observed in these animals when they are in captivity. In this context, from this theoretical knowledge about reproductive physiology, the application and/or suggestions of technologies with the objective of obtaining success in the reproduction of endangered species in captivity will also be considered. It is important to note that this review does not intend to cover all knowledge about the reproductive physiology of teleost fish.

Fisiologia reprodutiva aplicada ao cultivo de peixes neotropicais / Reproductive physiology applied to neotropical fish rearing

A reprodução dos peixes teleósteos é regulada pela interação dos sistemas nervoso e endócrino, e essa interação é realizada pelo eixo hipotálamo-hipófise-gônadas (H-H-G). No entanto, sabe-se que os sinais ambientais (fotoperíodo, temperatura, pluviosidade entre outros fatores), são responsáveis por modular este processo. O eixo H-H-G, sintetiza e libera fatores internos (neuro-hormônios e neurotransmissores) e hormônios hipotalâmicos, hipofisários e gonadais que permitem a sincronização dos reprodutores aptos, que com condições ambientais adequadas permitem a reprodução em momento propício, com consequentemente maior sobrevivência da prole. O entendimento da fisiologia do eixo H-H-G tem sido muito importante para compreender os mecanismos regulatórios do controle neuroendócrino da reprodução em peixes teleósteos, possibilitando entender as razões do bloqueio da reprodução em cativeiro (piscicultura), ou quando a interrupção da migração reprodutiva (peixes reofílicos) por barragens é bloqueada, o que pode levar à extinção de espécies endêmicas. Esta revisão abordará o controle fisiológico do eixo H-H-G, com ênfase nas espécies neotropicais nacionais (espécies marinhas e dulciaquícolas) e discutirá as disfunções reprodutivas observadas nestes animais, quando em cativeiro. Neste contexto, a partir deste conhecimento teórico na fisiologia reprodutiva, a aplicação e/ou sugestões de tecnologias com o objetivo de obter sucesso na reprodução de espécies ameaçadas de extinção em cativeiro também serão abordados. É importante salientar que esta revisão não pretende cobrir todo o conhecimento sobre a fisiologia reprodutiva dos peixes teleósteos.(AU)

Teleost fish reproduction is regulated by the interaction of the nervous and endocrine systems, and this interaction is performed by the hypothalamic-pituitary-gonadal axis (H-H-G). However, it is known that environmental signals (photoperiod, temperature, rainfall, among other factors), are responsible to modulate this entire process. The H-H-G axis, synthesizes and releases internal factors (neurohormones and neurotransmitters) and hypothalamic, pituitary, and gonadal hormones that allow the synchronization of the able broodstocks and that, with adequate environmental conditions allow reproduction in the right time, and consequently, with a greater offspring survival. Understanding the physiology of the H-H-G axis has been important to understand the regulatory mechanisms of neuroendocrine control of reproduction in teleost fish, making it possible to understand the reasons for blocking reproduction in captivity (fish farming), or when the interruption of reproductive migration (reophilic fish) by dams is blocked, taking to the extinction of endemic species. This review will address the physiological control of the H-H-G axis, with an emphasis on National neotropical species (marine and freshwater species) and will discuss the reproductive dysfunctions observed in these animals when they are in captivity. In this context, from this theoretical knowledge about reproductive physiology, the application and/or suggestions of technologies with the objective of obtaining success in the reproduction of endangered species in captivity will also be considered. It is important to note that this review does not intend to cover all knowledge about the reproductive physiology of teleost fish.(AU)

Common moist diet replacement to promote sustainable Cobia Rachycentron canadum (Linnaeus) near - shore farming in Brazil

Cobia is one of the most promising warm water aquaculture species. In Brazil, cobia farming began in 2008 in the state of Rio de Janeiro from experimental scale facilities to regular near-shore farms based on fresh/frozen fish diets composed mostly of Sardinella sp. Despite the encouraging results achieved in the promotion of sustainable cobia farming, we advocate the replacement of fresh/frozen fish by a practical formulated feed. This experiment evaluated the zootechnical performance and environmental efficiency of moist and practical formulated feeds in early grow-out phases in the cycle of cobia nearshore cage culture. Four hundred and twenty juvenile cobia (151 ± 7 g) were fed with moist feed and practical formulated feed for 56 days. Biometrics were taken every two weeks and diets were analyzed for proximate composition, fatty acid composition and pellet quality. Although growth performance was equivalent between treatments, feed consumption and feed conversion ratios (FCR) were different (p < 0.05) and varied according to water temperature. Cobia fed moist feed exhibited an FCR two times higher than those fed formulated feed. Elevated settling speed and low floatability contributed to higher heterogeneity and lower efficiency of fish fed moist diet. Nitrogen excretion rate was reduced (64 %) and protein efficiency ratio elevated (27 %) within formulated diet groups in comparison to those fed moist diet (79 % and 15 %, respectively). The fatty acid profile of cobia muscle was similar across the groups. With no negative effects of diet substitution on production performance and improvement of environmental efficiency, this approach can be applied and advocated globally and contribute to the responsible intensification of sustainable marine fish culture.(AU)

Common moist diet replacement to promote sustainable Cobia Rachycentron canadum (Linnaeus) near - shore farming in Brazil

Cobia is one of the most promising warm water aquaculture species. In Brazil, cobia farming began in 2008 in the state of Rio de Janeiro from experimental scale facilities to regular near-shore farms based on fresh/frozen fish diets composed mostly of Sardinella sp. Despite the encouraging results achieved in the promotion of sustainable cobia farming, we advocate the replacement of fresh/frozen fish by a practical formulated feed. This experiment evaluated the zootechnical performance and environmental efficiency of moist and practical formulated feeds in early grow-out phases in the cycle of cobia nearshore cage culture. Four hundred and twenty juvenile cobia (151 ± 7 g) were fed with moist feed and practical formulated feed for 56 days. Biometrics were taken every two weeks and diets were analyzed for proximate composition, fatty acid composition and pellet quality. Although growth performance was equivalent between treatments, feed consumption and feed conversion ratios (FCR) were different (p < 0.05) and varied according to water temperature. Cobia fed moist feed exhibited an FCR two times higher than those fed formulated feed. Elevated settling speed and low floatability contributed to higher heterogeneity and lower efficiency of fish fed moist diet. Nitrogen excretion rate was reduced (64 %) and protein efficiency ratio elevated (27 %) within formulated diet groups in comparison to those fed moist diet (79 % and 15 %, respectively). The fatty acid profile of cobia muscle was similar across the groups. With no negative effects of diet substitution on production performance and improvement of environmental efficiency, this approach can be applied and advocated globally and contribute to the responsible intensification of sustainable marine fish culture.