Abstract
The European sea bass (Dicentrarchus labrax) is an economically important fish native to the Mediterranean and Northern Atlantic. Its complex life cycle involves many migrations through temperature gradients that affect the energetic demands of swimming. Previous studies have shown large intraspecific variation in swimming performance and temperature tolerance, which could include deleterious and advantageous traits under the evolutionary pressure of climate change. However, little is known of the underlying determinants of this individual variation. We investigated individual variation in temperature tolerance in 30 sea bass by exposing them to a warm temperature challenge test. The eight most temperature-tolerant and eight most temperature-sensitive fish were then studied further to determine maximal swimming speed (U CAT), aerobic scope and post-exercise oxygen consumption. Finally, ventricular contractility in each group was determined using isometric muscle preparations. The temperature-tolerant fish showed lower resting oxygen consumption rates, possessed larger hearts and initially recovered from exhaustive exercise faster than the temperature-sensitive fish. Thus, whole-animal temperature tolerance was associated with important performance traits. However, the temperature-tolerant fish also demonstrated poorer maximal swimming capacity (i.e. lower U CAT) than their temperature-sensitive counterparts, which may indicate a trade-off between temperature tolerance and swimming performance. Interestingly, the larger relative ventricular mass of the temperature-tolerant fish did not equate to greater ventricular contractility, suggesting that larger stroke volumes, rather than greater contractile strength, may be associated with thermal tolerance in this species.
Highlights
The European sea bass (Dicentrarchus labrax) is an athletic predatory teleost fish found in the North Eastern Atlantic and the Mediterranean
The maximal speed achieved in the constant acceleration test (CAT) (UCAT) varied greatly within our subset experimental population of 16 sea bass; the difference between the fastest and the slowest swimmer was in excess of 1 body length (BL) s−1 (3.14 vs. 2.12 BL s−1, respectively)
The temperature-tolerant fish displayed a significantly lower mean Standard metabolic rate (SMR) compared with the temperature-sensitive group (t = 2.69, P = 0.018), with a mean SMR of 47.8 ± 1.1 mg O2 kg−1 h−1 in the temperature-tolerant group and 52.8 ± 1.6 mg O2 kg−1 h−1 in the temperature-sensitive group (Fig. 3A)
Summary
The European sea bass (Dicentrarchus labrax) is an athletic predatory teleost fish found in the North Eastern Atlantic and the Mediterranean. Sea bass have an elaborate life cycle, which demands strong swimming performance and temperature tolerance. Adults spawn offshore in early spring, where the larvae hatch and drift inshore (Pawson et al, 2007). Once reproductively mature (after 4 years), adult sea bass inhabit highly dynamic environments, with high-energy tidal waves and currents, and undertake long. Conservation Physiology Volume 4 2016 annual migrations from inshore feeding grounds to offshore spawning grounds
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