UTILIZATION OF METABOLIC SCOPE IN RELATION TO FEEDING AND ACTIVITY BY INDIVIDUAL AND GROUPED ZEBRAFISH, BRACHYDANIO-RERIO (HAMILTON-BUCHANAN)

Metabolic scope and its utilization in relation to feeding and activity were measured in individual and grouped zebrafish (weight range, 430–551 mg) at 24° C by respirometry. Mean maximum metabolic rate, induced by swimming to exhaustion, Rmax(i), was 1223 (s.d., 157) mg O2, kg−1 h−1 for individuals. Standard metabolic rate, Rs. was 364 mg O2 kg−1 h−1, as estimated by extrapolating to zero activity from measurements of unfed, spontaneously active individuals. Mean routine metabolic rate, Rrout, of individuals was 421 (s.d., 58) mg O2, kg‐1 h‐1. The mean voluntary maximum metabolic rate, Rmax(v), following transfer of minimally exercised fish to the respirometer, was 1110 (s.d., 83) mg O2 kg −1 h−1 for groups of six fish, and was not significantly different from the value measured for individuals, 1066 (s.d., 122) mg O2, kg−1 h−1. Grouped fish acclimated to the respirometer more slowly than individual fish and exhibited significantly higher Rrout, apparently a result of greater social interaction and activity in groups. Mean Rrout for groups was 560 (s.d., 78) mg O2, kg−1 h−1. While groups of zebrafish fed a ration of 5% wet body weight day−1 exhibited consistently higher metabolic rates than fish fed rations of 2.5% wet body weight day−1 the high ration group still used only a maximum of 77% of the metabolic scope. Zebrafish of the size studied do not appear to demonstrate a high degree of conflict in utilization of metabolic scope by different respiratory components. The metabolic rates measured for zebrafish are among the highest yet measured for fish of similar size and at similar temperatures. Copyright © 1992, Wiley Blackwell. All rights reserved