Effects of rapid experimental temperature increases on acute physiological stress and behaviour of stream dwelling juvenile chinook salmon

We experimentally heated small streams in summer and investigated the short-term behavioural changes and physiological stress responses of juvenile chinook salmon (Oncorhynchus tshawytscha). We rapidly raised temperatures ∼1–4 °C for 1.5 h above ambient levels of ∼7–15 °C in groundwater fed tributary streams and ∼19–23 °C in side-channel streams. Juvenile chinook rearing in groundwater fed tributaries were generally unaffected behaviourally; however, we found that temperature increase caused fish in the tributary trials to be physiologically stressed (elevations in mean cortisol concentrations ranged from 116% to 253%). Side-channel trials caused some mortality of juvenile chinook and a stronger display of behaviours indicative of stress and avoidance such as erratic swimming, abnormal posture, and aggregative behaviour. Foraging rates increased over 56 times in response to heating in side-channel trials. Cortisol levels did not increase in side-channel trials, but rather showed a trend to levels below control values suggesting an impaired stress response possibly due to chronic stress. Our results may reflect conservative responses in terms of what we may find with other salmonid species since juvenile chinook have been described as the most tolerant of the Pacific salmon species to elevated temperatures.