الملخص
The work aimed at determining the effects of applying different blends between liquid molasses and agricultural limestone on water quality and growth performance of Nile tilapia juveniles, Oreochromis niloticus. The study employed 24 indoor tanks of 100 L and 24 outdoor tanks of 250 L. Four control groups were set up (no product applied, only molasses, only limestone, molasses-limestone blend with 48% limestone but no fish) and two experimental groups (molasses-limestone blends with 32% and 48% molasses), with four replicates each. Over 11 weeks, the water quality was monitored systematically. The 24-h cycle monitoring of temperature, pH, specific conductance, dissolved O2 and total alkalinity were carried out at the 8th week. The blends between molasses and limestone accelerated the dissolution rate of the agricultural limestone in water. The blend containing 48% molasses led to greater increases in water alkalinity and pH in relation to tanks with only limestone applications. However, the molasses-limestone blend applications impaired the Nile tilapia growth performance, especially in the outdoor tanks. While the fish yield was 25.1 g m-3 day-1 in the molasses outdoor tanks, it was equal to 22.8 g m-3 day-1 in the molasses (32%)-limestone units (P<0.05). It has been concluded that the blending between limestone and molasses brings no clear benefits to Nile tilapia's rearing tanks when compared to the limestone-only tanks.
الملخص
The present research aimed to assess a lab-scale model to study periphyton-based systems for fish culture. Twenty-five liters plastic aquaria were stocked with three Nile tilapia, Oreochromis niloticus, juveniles (0.77±0.09g; 12 fish m-2) for 6 weeks in a 2x2 factorial design. Small plastic bottles were placed in some aquaria for periphyton development. Two feeding regimes were employed: "full-fed" (standard feeding rates were fully adopted) and "half-fed" (50 percent of standard feeding rates). Growth performance and limnological variables were observed in each aquarium. There werefive replicates per treatment. Fish have fed actively on periphyton, especially in the half-fed aquaria. The placement of periphyton bottles had no significant effects on the water quality variables, except by the gross primary productivity which became lower. Half-fed aquaria presented lower concentrations of ammonia (0.28-0.29mg L-1), nitrite (0.33-0.37mg L-1) and phosphorus (0.42-0.43mg L-1) than full-fed aquaria (0.57-0.60mg L-1; 0.75-0.77mg L-1; 0.67-0.70mg L-1, respectively). The final body weight of fish in half-fed aquaria with periphyton bottles (6.22±0.64g) was significantly higher than in aquaria without bottles (4.65±0.36g). Although the growth rate of fish was lower in the half-fed aquaria (4.27-4.72 vs. 5.29-5.61 percent BW day-1), survival was significantly higher when compared to the full-fed aquaria (93.3-100.0 vs. 80.0-83.4 percent). Only in the aquaria with periphyton the feed conversation ratio was improved by the feeding restriction regime.
O presente trabalho teve como objetivo avaliar um modelo laboratorial para estudo de sistemas de cultivo de peixes baseados em perifíton. Aquários de 25L foram estocados com três juvenis de tilápia do Nilo, Oreochromis niloticus (0,77±0,09g; 12 peixes m-2) por seis semanas, em arranjo fatorial 2x2. Pequenas garrafas plásticas foram colocadas em determinados aquários para o desenvolvimento de perifíton. Dois regimes alimentares foram empregados: "cheio", no qual taxas alimentares padrões foram integralmente adotadas e "metade", em que 50 por cento das taxas alimentares regulares foram empregadas. Variáveis limnológicas e de desempenho zootécnico foram observadas em cada aquário. Havia cinco repetições por tratamento. Os peixes ingeriram ativamente perifíton, especialmente os que receberam metade do arraçoamento padrão. A colocação de garrafas para o crescimento de perifíton não teve efeito significativo nas variáveis de qualidade de água, excetuando-se na produtividade primária bruta que foi menor. Os aquários arraçoados pela metade apresentaram menores concentrações de amônia (0,28-0,29mg L-1), nitrito (0,33-0,37mg L-1) e fósforo (0,42-0,43mg L-1) que os aquários arraçoados integralmente (0,57-0,60mg L-1; 0,75-0,77mg L-1; 0,67-0,70mg L-1, respectivamente). O peso corporal final dos peixes nos aquários arraçoados pela metade, mas com garrafas para perifíton (6,22±0,64g), foi significativamente maior que nos respectivos aquários sem garrafas (4,65±0,36g). Embora a taxa de crescimento dos peixes alimentados com metade das taxas regulares tenha sido menor (4,27-4,72 vs. 5,29-5,61 por cento PC dia-1), a sobrevivência foi significativamente maior para estes, quando comparados com os peixes alimentados com taxas regulares (93,3-100,0 vs. 80,0-83,4 por cento). Apenas nos aquários com perifíton a conversão alimentar foi melhorada pela restrição alimentar imposta.