Effects of recent thermal history on thermal behaviour, thermal tolerance and oxygen uptake of Yellowtail Kingfish (Seriola lalandi) juveniles.

Abstract

This study determined the physiological and metabolic responses of cultivated Yellowtail Kingfish (Seriola lalandi) juveniles in accordance with their recent thermal history. The fish were acclimated at 20, 23, 26, 29 and 32°C for 21 days to determine the final preferred temperature, thermal tolerance and the effect of acclimation temperatures on their oxygen uptake and aerobic scope. The final preferred temperature of juveniles was established at 26°C. The critical thermal maximum (CTmax) ranged from 34.2 to 36.9°C, while the critical thermal minimum (CTmin) ranged from 10.9 to 17.3°C, depending on acclimation temperature. With the CTmax and CTmin values, the thermal window was determined to have an area of 258°C2, which is characteristic of subtropical organisms. Although, the metabolic rate was relatively constant (ranging 390.6-449.8mg O2 kg-0.8 h-1) between 20 and 26°C (Q10=1.6, 1.0), an increase to 544.8mg O2 kg-0.8h-1at 29°C (Q10=1.9) and decrease of 478.4mg O2 kg-0.8h-1at 32°C (Q10=0.6) were observed. The maximum value obtained for aerobic scope was 310.9mg O2 kg-0.8h-1at 26°C. These results suggest that the acclimation temperature of 26°C is an optimum thermal condition for a physiological and metabolic performance of yellowtail kingfish juveniles. On the contrary, the response observed during the evaluation of critical temperatures, oxygen uptake and aerobic scope indicated that yellowtail kingfish in the juvenile state could be vulnerable when it experiences for long periods (e.g., >21 days) temperatures above 29°C. According to our results, the thermoregulatory behaviour of yellowtail kingfish in the juvenile stages could be one of the most important mechanisms to maintain its optimal physiological performance by actively selecting a stable thermal environment close to 26°C. In addition, it was determined the limits of the pejus state of juvenile yellowtail kingfish at 29°C, where an increase of oxygen uptake to maintain the aerobic energy metabolism was observed, this could certainly affect the growth of juveniles in culture systems if they do not return in a thermal range of 23-26°C. These results can contribute to infer the different effects of acclimation temperature on the growth, thermal tolerance and respiratory capacity of S. lalandi juveniles on aquaculture systems.