Cross breeding of native fish species is a technique to produce hybrids that can express higher weight gain and feed efficiency compared to the parental species. The digestible threonine requirement in diets for tambatinga fingerlings (Colossoma macropomum ♀ x Piaractus brachypomus ♂) was determined in this study. For this, 700 fingerlings with an average initial weight of 2.39 ±0.02 g and average final weight of 35.96 ±2.03 g were distributed in a completely randomized design consisting of six treatments (0.600, 0.800, 1.000, 1.200, 1.400, and 1.600% digestible threonine) and five replicates per treatment, with 20 fish per experimental unit. Diets were formulated by the “diet dilution” technique using the ideal protein concept. Performance, feed efficiency, body depositions of protein, ash and fat, and nitrogen retention efficiency of the fish were evaluated. The digestible threonine levels that optimized weight gain, specific growth rate, and feed conversion ratio were 1.40, 1.27 and 1.10%, respectively. Body deposition of fat was reduced in a quadratic manner (p<0.01), and the body depositions of protein and ash, together with the efficiency of nitrogen retention, were optimized by the digestible threonine level of 1.20; 1.33, and 0.82%, respectively. The recommended digestible threonine level in the diet for tambatinga fingerlings is 1.20 to 1.40% (0.40 and 0.47% Mcal DE-1) to obtain higher body deposition of protein and weight gain, respectively.
The aim of this study was to evaluate the effect that reduced crude protein (CP) diets with amino acid supplementation, based on the ideal protein concept, have on the performance of tambaqui fingerlings. In total, 750 fingerlings with an initial weight of 0.44 ± 0.14 g, were used in a completely randomized design, with six treatments, five replications, and 25 fish per experimental unit. Treatments consisted of six isocaloric, isocalcic, isophosphoric, and isolysinic diets containing 32.0, 30.5, 29.0, 27.5, 26.0, and 24.5% CP. Performance parameters, carcass yield, body composition (body humidity, protein, and fat content), and nitrogen retention efficiency (NRE) of the fish were evaluated. When the CP content was reduced to 27.5%, there was an improvement in weight gain, specific growth rate, feed conversion, and protein efficiency rate. Feed intake was higher in fish fed diets containing 26% CP, followed by those fed diets containing 29 and 27.5% CP; diets containing other levels of CP did not differ among themselves. CP intake was reduced by the use of diets containing 24% CP, and the carcass yield was not influenced by the treatments. Reduced CP had no influence on body composition. NRE was higher in response to diets containing 26.0 and 24.5% CP. Reducing dietary CP content, from 32.0 to 24.5%, based on the ideal protein concept, is possible for tambaqui fingerlings, and a decrease of up to 24.5% enhances the fish performance. Key words: Amino acids, Colossoma macropomum, performance, protein nutrition ResumoAvaliou-se os efeitos da redução da proteína bruta (PB) com suplementação de aminoácidos, com base no conceito de proteína ideal, em rações no desempenho de alevinos de tambaqui. Utilizou-se 750 alevinos com peso inicial de 0,44 ± 0,14 g, em delineamento inteiramente casualizado, com 6 tratamentos, 5 repetições e 25 peixes por unidade experimental. Os tratamentos consistiram em 6 rações isoenergéticas, isocálcicas, isofosfóricas e isolisínicas com 32,0; 30,5; 29,0; 27,5; 26,0; 24,5% de PB. Avaliaram-se as variáveis de desempenho, composição corporal (umidade, proteína e gordura corporais) e eficiência de retenção de nitrogênio (ERN). Com a redução da PB a partir de 27,5%, observou-se melhora no ganho de peso, na taxa de crescimento específico, na conversão alimentar e na taxa de eficiência proteica. O consumo de ração foi superior nos peixes alimentados com dietas contendo 26% de PB, seguidos de 29,0 e 27,5% de PB, os demais níveis não variaram entre si. O consumo de proteina bruta reduziu com a utilização da dieta com 24% de PB e o rendimento de carcaça não foi influenciado pelos tratamentos. A redução da PB não influenciou a composição corporal dos peixes. A ERN foi superior nos níveis de 26,0 a 24,5% de PB. É possível reduzir de 32,0 para 24,5% o teor de PB em rações, com base no conceito de proteina ideal, para alevinos de tambaqui, e a redução do teor de PB até o nível de 24,5% potencializa o desempenho dos peixes.
Among a variety of hybrids produced in Brazil, tambatinga is obtained from the crossing of a tambaqui female with a pirapitinga male. Although rapid weight gain in less time is an attractive characteristic from a commercial viewpoint, the information on its nutritional requirements, especially amino acid requirements, is limited. As corn and soybean meal-based diets available for fish contain deficient levels of essential amino acid methionine, our objective was to determine the digestible methionine plus cystine to lysine ratio in diets for tambatinga fingerlings. We used 900 fish with initial weights varying from 1.49 ±0.59 to 4.14 ±1.70 g, and they were fed six types of diets with different digestible methionine plus cystine to lysine ratios (50, 55, 60, 65, 70, and 75%). Performance parameters such as food efficiency, body depositions of protein, fat, and ash, and nitrogen retention efficiency were evaluated. The increase of digestible methionine plus cystine to lysine ratio in the diet improved quadraticly the feed intake, consumption of digestible methionine plus cystine, weight gain, specific growth rate and feed conversion, protein deposition and body ash and retention efficiency nitrogen until the estimated ratios of 57%, 73%, 58%, 58% and 59%, 59%, 58% and 60%, respectively; and reduced linearly the efficiency of using methionine plus cystine for the weight gain. On the other hand, body fat deposition was not affected. We concluded that the digestible methionine plus cystine: lysine ratio in the rations for tambatinga fingerlings is 59%, for provide better performance and body protein deposition.
BackgroundLysine is an essential amino acid and, generally, the first limiting in diets for tambaqui (Colossoma macropomum), main native fish produced in continental aquaculture from South America. However, there is a lack of information on their amino acids requirements, especially for maintenance and efficiency of utilization of lysine.ResultsDiets with increasing levels of digestible lysine significantly increased final weight and the weight gain of tambaqui, for all studied ages. Feed intake decreased significantly only for fish weighing 121 g (p < 0.05), and was not affected for other ages. However, digestible lysine consumption significantly increased in all body weights groups evaluated (p < 0.05). In addition, digestible lysine consumption provided sufficient intervals to obtain of values negative, near zero and positive of retention body protein and lysine, allowing estimation of maintenance requirements without extrapolation. The maintenance lysine requirement was determined at the intersection of the point to maintain body protein retention equal to zero, and the efficiency of lysine utilization was the slope of the line between the digestible lysine consumption and its retention, for different tambaqui body weights (121, 235 and 596 g). Linear responses (p < 0.05) were observed between protein retention and body lysine in function on the consumption of digestible lysine for all evaluated body weights, and the parallelism test showed influences of body weight on the values of the maintenance requirement and efficiency of utilization for lysine, with an increase in the maintenance requirement as the fish grow. However, the efficiency of using lysine decreases with the increase in fish body weight.ConclusionsThe requirement of tambaqui for maintenance lysine and efficiency utilization are directly related to the body weight. The requirement for digestible lysine for tambaqui maintenance was 82.03 mg kg-0.7 day-1 for body weights 121 to 235 g and utilization efficiency of 55%. For weight of 596 g, the requirement of maintenance was 106.85 mg kg-0.7 day-1 and 40% of utilization efficiency of lysine.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
334 Leonard St
Brooklyn, NY 11211
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.