Browsing by Author "Yúfera, M."
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- Cortisol response to air exposure in Solea senegalensis post-larvae is affected by dietary arachidonic acid-to-eicosapentaenoic acid ratioPublication . Martins, Dulce Alves; Engrola, S.; Morais, S.; Bandarra, N.; Coutinho, J.; Yúfera, M.; Conceição, L. E. C.An experiment was conducted in order to evaluate the effects of feeding frozen Artemia diets differing in arachidonic acid-to-eicosapentaenoic acid ratios (ARA/EPA) on growth, survival and stress coping ability of Senegalese sole post-larvae (19–31 days after hatch). Two experimental diets presenting high (‘High’; 3.0) or low (‘Low’; 0.7) ARA/EPA ratios were tested under two rearing conditions: undisturbed (C) and stressed by a 2-min air exposure every two days (S). Growth, survival and basal cortisol levels were similar between groups indicating that independently of dietary ARA/EPA ratios, fish were able to cope with the repeated stress imposed. Also, cortisol levels at 3 h past air exposure were determined in all groups at the end of the experiment. Among fish fed the ‘Low’ diet, Cgroups seemed to present a quicker recovery from the acute stress (basal-like levels) than S groups. Repeated stress effects were not apparent in fish fed the ‘High’ diet and, relative to basal levels, twofold higher cortisol concentrations were detected at 3 h, in both C and S groups. This study suggests the importance of ARA in steroidogenesis regulation and the modulatory role of EPA in this process. Despite the tolerance to a wide range of dietary ARA/EPA as indicated by growth and survival results, acute stress coping response may be more efficient in Senegalese sole post-larvae fed low ARA/EPA ratios and, under these particular conditions, a faster recovery of cortisol to basal values could be indicative of rearing conditions (undisturbed vs. repeatedly stressed).
- Dietary taurine supplementation enhances metamorphosis and growth potential of Solea senegalensis larvaePublication . Pinto, W.; Figueira, L.; Ribeiro, L.; Yúfera, M.; Dinis, Maria Teresa; Aragão, C.The effect of dietary taurine supplementation on growth performance, metamorphosis success and amino acid metabolism of Senegalese sole (Solea senegalensis) larvae was investigated. These parameters were assessed in larvae fed control and taurine supplemented microcapsules during the pelagic phase. Subsequently, a similar evaluation was carried out in newly settled larvae fed upon Artemia, in order to verify the effect of earlier dietary taurine supplementation in larvae reared under improved feeding conditions. Results showed that dietary taurine supplementation did not affect larval growth performance and metamorphosis during the pelagic phase. However, by the end of the trial, Senegalese sole previously fed taurine supplemented microcapsules had a significantly higher growth performance and metamorphosis completion success than larvae fed control microcapsules. These differences were likely related to the improvement of feeding conditions upon settlement, which probably helped revealing the positive effects of earlier dietary taurine supplementation on Senegalese sole performance. Additionally, Senegalese sole may have benefited from taurine antioxidant properties during metamorphosis, since larval antioxidant defences may saturate at this stage. Furthermore, results from metabolic trials have shown that dietary taurine supplementation significantly increased amino acid retention in Senegalese sole larvae when a concomitant increase of taurine body levels was found. Therefore, an increase in larval growth potential and metamorphosis success was observed under dietary taurine supplementation and these results may help understanding why dietary taurine supplementation has been reported to simultaneously increase taurine body levels and growth performance in other fish species, leading to a better comprehension on the role of taurine during fish development.
- Digestive and metabolic consequences of on-growing greater amberjack (Seriola dumerili) juveniles at different temperatures. In-vivo and ex-vivo assessmentPublication . Navarro-Guillén, C.; Perera, E.; Pérez-Hilario, D.; Martos-Sitcha, J.A.; Molina-Roque, L.; Gregorio, Silvia; Fonseca, Filomena; Fuentes, J.; Yúfera, M.Aiming to elucidate the effects of temperature on different aspects of the fish digestive physiology that may affect the growth, we examined, firstly, variations in growth performance, feed intake, digestive enzyme activities, expression of transport related genes, metabolites in plasma and liver, and oxidative stress response in juveniles of greater amberjack (Seriola dumerili) growing during two months at 18, 22 and 26 degrees C of water temperature. Secondly, we analysed the epithelial function of the intestinal mucosa by electrophysiological ex-vivo experiments. As expected, body growth increased with increasing temperature in the tested range. Highest relative feed intake was observed at 26 degrees C, but the food conversion ratio was the same at 22 and 26 degrees C and less favourable at 18 degrees C. Digestive proteases activities were similar at 22 and 26 degrees C, while an evident effect of temperature was observed on lipids digestive capacity, being lipase activity undetectable at 18 degrees C. Electrophysiological assays revealed a relationship between temperature and intestinal mucosa plasticity. Temperature increase promoted epithelial functionality through higher tissue resistance and short-circuit current in mid-intestine at 26 degrees C, as well as better electrogenic amino acids transport. On the other hand, mRNA expression of peptide transporters tended to be higher in fish that grew at 18 degrees C, probably to reinforce the transport capacity. Plasma circulating levels of metabolites demonstrated higher energy and protein mobilization with the increasing temperature, where a hypometabolic state was denoted by lower cortisol levels at 18 degrees C together with an apparent switch from lipids to carbohydrate usage as energy source and increased oxidative stress in the liver at the lowest temperature. Altogether indicates that the tested temperatures are within the tolerance range for the species, although 22 and 26 degrees C appear as optimal temperatures for on-growing greater amberjack juveniles. Changes in nutrient digestion and absorption induced by temperature are related with both hydrolytic activity and remodelling of the intestinal mucosa. Impairing growth capacity and initial evidences of welfare compromise were observed at 18 degrees C.
- Do dietary amino acid profiles affect performance of larval gilthead seabream?Publication . Aragão, C.; Conceição, L. E. C.; Lacuisse, M.; Yúfera, M.; Dinis, Maria TeresaLive preys commonly used in fish larval rearing seem to be imbalanced in terms of amino acids. Manipulation of their amino acid composition is di fficult, but the use of microencapsulated diets allows this manipulation. This study analysed the effect of amino acid supplementation, in order to compensate for dietary amino acid imbalances, on growth and survival of gilthead seabream ( Sparus aurata ) larvae.
- Effect of increased rearing temperature on digestive function in cobia early juvenilePublication . Yúfera, M.; Nguyen, M.V.; Navarro-Guillén, Carmen; Moyano, F.J.; Jordal, A.-E.O.; Espe, M.; Conceição, L.E.C.; Engrola, Sofia; Le, M.H.; Rønnestad, I.The present study is focused to elucidate the main characteristics of the digestive function of this carnivorous fast-growing fish living at high temperatures. With this aim, we have examined the effects of an increased temperature from 30 to 34 °C on the daily pattern of gastrointestinal pH, enzymatic proteolytic digestive activity and the feed transit time in early juveniles of cobia (Rachycentron canadum), a species living in tropical and subtropical waters with an increasing aquaculture production. Fish were fed two meals a day. Gastric luminal pH was permanently acidic (mean pH values: 2.76-4.74) while the intestinal pH increased from neutral/slightly acidic to slightly alkaline when the digesta was present, with an increasing alkalinity from proximal to distal intestine (mean pH values: 6.05 to 7.69). The temperature did not affect the gastric pH but a slightly higher acidity was induced in the intestine at 34 °C. Pepsin activity showed a daily rhythm at 30 °C with maximum in the middle of the light period, while at 34 °C some hourly changes coinciding with feed adding without a clear daily trend during the 24-h period were observed. The trypsin activity exhibited a daily rhythm at both temperatures with an increase after morning feeding to reach a maximum several hours later. Average pepsin activity during the daily cycle was slightly higher at 34 °C (6.1 and 7.3 U mg-1 BW at 30 and 34 °C respectively), but values were significantly different only at 8 and 24 h after the morning meal. Similarly, the trypsin activity was significantly affected by the temperature only at 8 and 16 h after the morning meal, but daily activity averages were similar (1.20 and 1.29 U g-1 BW at 30 and 34 °C respectively). The partial transit rates of the first meal in the stomach for each period inter-samplings were higher during the first 4-h period and decreased progressively along the rest of the 24-h cycle at both temperatures, but no significant differences were detected at 30 °C. In addition, the transit was notably faster at 34 °C particularly during the first 8 h after feeding, with rates between 100 and 65% of total volume displaced (intake or released) during each 4-h period. In the intestine the transit rate was relatively constant and similar at both temperatures during 12 h after feeding. Then the rates remained very low during the following 12 h. Residence time of the first meal was longer at 30 than at 34 °C, particularly in the stomach (12 h:02 min vs 4 h:54 min respectively). In the intestine the difference was not so large (8 h:18 min vs 6 h:24 min respectively). In a parallel study under same conditions, cobia reared at 30 °C grew faster and showed a more favorable feed conversion ratio than those at elevated temperature (34 °C). The present results indicate that at 34 °C, a subtle increase of proteolytic activity cannot compensate for the faster gut transit rate. Therefore, 30 °C is more appropriate temperature for the early on-growing of cobia because at higher temperatures the digestion efficiency decrease being one of the causes for a lower growth.
- Elevated sea temperature combined with dietary methionine levels affect feed intake and appetite-related neuropeptide expression in the brains of juvenile cobia (Rachycentron canadum)Publication . Nguyen, Minh V.; Pham, Linh P.; Jordal, A-E.O.; Espe, M.; Conceição, L.E.C.; Yúfera, M.; Engrola, Sofia; Le, M.H.; Rønnestad, I.This study aimed to determine the impact of elevated temperature combined with different levels of dietary methionine concentrations on feed intake (FI) and brain expression of selected neuropeptides and one receptor involved in appetite control in juvenile cobia (approximately 3.7 g body weight). The genes studies were neuropeptide y, npy; agouti-related protein, agrp; cocaine- and amphetamine-regulated transcript, cart; cholecystokinin, cck and melanocortin 4 receptor; mc4r. The cobia were reared at typical sea water temperature in Vietnam (30 degrees C) and elevated temperature (34 degrees C; selected as one of the predicted scenarios of climate change). The fish were fed diets with different levels of methionine: deficient (M9; 9.1 g/kg), sufficient (M12; 12.8 g/kg) and surplus (M16, 16.8 g/kg) for 6 weeks (triplicate tanks per treatment). Both dietary methionine concentration and temperature affected FI in cobia. Dietary methionine deficiency (i.e., M9) and elevated temperature reduced FI in cobia. Temperature significantly influenced the mRNA expression of agrp, cart, cck and mc4r. Expression of the orexigenic neuropeptide npy was consistently higher before the meal than after the meal for all diets and at both temperatures. At 30 degrees C, prefeeding levels of npy correlated with both increased methionine levels and FI. The interaction between dietary methionine and temperature on the levels of brain npy expression was significant (P<0.05). There was higher brain expression of agrp, cart and cck in cobia at 34 degrees C than in fish at 30 degrees C, which was correlated with a lower FI. In conclusion, both feeding, temperature and/or dietary methionine levels affected the brain expression of npy and agrp, cart, cck and mc4r. This suggests that these neuropeptides as well as the mc4r receptor are actively involved in adjusting feed intake to compensate for changing energetic demands, as well as metabolic adjustments due to the variable availability of methionine at elevated temperature.
- Fish Larval Research: a tool for sustainable food production and understanding environmental impacts on developing organismsPublication . Pittman, K.; Rønnestad, I.; Gavaia, Paulo J.; Cancela, Leonor; Guerreiro, P. M.; Ribeiro, Laura; Aragão, C.; Hamre, K.; Moren, M.; Yúfera, M.; Conceição, L. E. C.Reliable juvenile production or recruitment requires high numbers of healthy fish larvae. Despite considerable progress in marine fish farming in the past 20 years, juvenile fish production is still fraught with problems which arise during the larval phase. In fisheries, juvenile recruitment in some populations has not recovered despite long-term moratoria on captures and protection of the broodstock. These issues highlight the growing importance of multidisciplinary fish larval research.
- Impact of dietary protein hydrolysates on skeleton quality and proteome in Diplodus sargus larvaePublication . Vareilles, Mahaut; Richard, Nadège; Gavaia, Paulo J.; Silva, Tomé S.; Cordeiro, O.; Guerreiro, Inês; Yúfera, M.; Batista, I.; Pires, C.; Pousão-Ferreira, P.; Rodrigues, Pedro; Rønnestad, I.; Fladmark, K. E.; Conceição, L. E. C.In order to investigate the effects of dietary protein hydrolysates (PH) on larval growth performance, skeleton quality and proteome expression, triplicate groups of white seabream (Diplodus sargus) larvae were co-fed from first-feeding with live feed and three microencapsulated diets differing in the molecular weight of their PH fraction (Control – inclusion of CPSP-90; H – inclusion of a high amount in 0.5–30 kDa hydrolysates; L – inclusion of a high amount in <0.5 kDa hydrolysates). At 15 days after hatching (DAH), proteome expression changes were assessed in entire larvae by twodimensional gel electrophoresis and the quality of larval skeleton was analysed at 28 DAH through double staining of cartilage and bone. Dietary PH fractions tested affected growth, the larvae fed diet L being significantly larger than those fed diet H, but it did not affect the incidence of deformed larvae, nor the number of deformities per fish. Two-dimensional analysis of larvae proteome allowed the detection and the comparative quantification of a total of 709 protein spots having a pI between 4 and 7, around half of which had an expression significantly affected by dietary treatment, the main difference being between proteome of Control larvae with those of both groups L and H. From these spots, 52 proteins involved in diverse processes such as cytoskeletal dynamics, energetic, lipoprotein, amino acid (AA), and nucleotide metabolisms, protein chaperoning and degradation, and signal transduction, were identified. This study revealed that the molecular weight of the dietary protein hydrolysate fraction had a minor impact on skeletal deformities in white seabream larvae, but affected growth performance and had a strong impact on larvae whole body proteome.
- Inclusion of protein hydrolysates in the diet of white seabream (Diplodus sargus) larvae: impacts on skeleton quality and larvae proteome expressionPublication . Richard, Nadège; De Vareilles, M.; Gavaia, Paulo J.; Silva, Tomé S.; Cordeiro, O.; Yúfera, M.; Rodrigues, Pedro; Conceição, L. E. C.In order to investigate the effects of dietary protein hydrolysate on larval skeleton quality and larvae proteome expression, triplicate groups of white seabream (Diplodus sargus) larvae were co-fed from first-feeding onwards with live feed and three microencapsulated diets ir differing only on the molecular weight of their protein hydrolysate fraction.
- New developments and biological insights into the farming of Solea senegalensis reinforcing its aquaculture potentialPublication . Morais, Sofia; Aragão, C.; Cabrita, Elsa; Conceição, L. E. C.; Constenla, Maria; Costas, Benjamín; Dias, Jorge; Duncan, Neil; Engrola, S.; Estevez, Alicia; Gisbert, Enric; Mañanós, Evaristo; Valente, Luísa M. P.; Yúfera, M.; Dinis, Maria TeresaSenegalese sole was one of the earliest identified candidate species with high potential for aquaculture diversification in the south of Europe. Its culture has been possible, and commercially attempted, for several decades, but intensive production has been slow to take off. This has been explained mostly by serious disease problems, high mortality at weaning, variable growth and poor juvenile quality. However, a strong and sustained research investment that started in the eighties has led to a better understanding of the requirements and particularities of this species. More recently, better management and technical improvements have been introduced, which have led to important progress in productivity and given a new impetus to the cultivation of Senegalese sole. As a result, the last 5 years have marked a probable turning point in the culture of sole towards the development of a knowledge-driven, competitive and sustainable industry. This review will focus on the main technical improvements and advances in the state of knowledge that have been made in the last decade in areas as diverse as reproductive biology, behaviour, physiology, nutritional requirements, modulation of the immune system in response to environmental parameters and stress, and characterization and mitigation of the main disease threats. It is now clear that Senegalese sole has important particularities that differentiate it from other current and candidate marine aquaculture species, which bring about important challenges, some still unsolved, but also notable opportunities (e.g. a nutritional physiology that is better adapted to dietary vegetable ingredients), as will be discussed here.