Dietary N and P levels, effluent water characteristics and performance in rainbow trout

Abstract

Two trials with rainbow trout have been performed to study the effect of dietary protein and phosphorus levels on growth rate and N and P balance. In the first trial, 702 rainbow trout (RT) (106.4 ± 1.26 g initial live weight) were fed for 86 days with three diets with the same ether extract (EE) content [20.45 % dry matter (DM)l but differing in protein and P content: [(36.7, 0.86 (A); 39.0, 0.97 (B) and 43.0%, 1.04% DM (C)]. Specific Growth Rate (SGR) and Feed Conversion Efficiency (FCE) were 0.94 and 1.31; 0.98 and 1.27; 1.05 and 1.17, respectively for treatments A, B and C. Feeding level significantly influenced SCR but not FCE. Nitrogen released into the environment was 46.0, 47.6 and 49.7 kg/t offish produced for diets A, B and C respectively with no significant differences between treatments. P released into the environment was significantly lower with diet A (6.5 kg/t fish produced vs_7.5 and 7.6 with diets B and C). In the second trial, 360 RT (175 t 2.5 g initial live weight) were fed 3 extruded diets at 0.94% live weigbt/d for 56 days. Each diet contained 28% EE and 39.4 (D), 42.0 (E) or 45.0 (E) % crude protein (CP). SGR and FCE increased significantly as dietary protein increased (1.03 and 0.94; 1.07 and 0.90; 1.15 and 0.84, respectively for treatments D, E and F, P<0.05). N load in the effluents was not affected by dietary treatment (D: 29.9, E: 29.8 and E: 29.1 kg/t) whereas P load per t produced fell from diet E to E (D: 7.3, E: 6.7 and E: 5.9 kg, P<0.05). The results of these experiments where food intake was restricted showed that the dietary level of N and P play an important role in determining the effluent load of these nutrients. At the same time, extrusion is a valid means of controlling N and P discharge, favourably improving growth rate, feed utilisation and gross protein retention.