Department of Organismal and Environmental Biology, Christopher Newport University, Newport News, Virginia, USA.
J Fish Biol. 2020 Mar;96(3):755-767. doi: 10.1111/jfb.14273. Epub 2020 Feb 17.
Fast-start predator-escape performance of mummichogs Fundulus heteroclitus was tested across field-informed variation in temperature (24, 30 and 36°C) and salinity (2, 12 and 32 ppt). Performance was similar across temperatures and salinities when fish were allowed to acclimate to these conditions. However, when mummichogs experienced acute temperature changes, performance exhibited thermal dependence in two contrasting ways. Fast-start turning rates and linear speeds varied directly with the temperature at which the manoeuvre was executed, but these aspects of performance varied inversely with acclimation temperature, with cool-acclimated fish exhibiting faster starts across test temperatures. Temperature effects were consistent across salinities. These results suggest that while mummichogs increase performance with acute temperature increases, long-term rises in sea temperature may cause these fish to become more susceptible to predation during abrupt cooling events, such as when storm events flood shallow water estuaries with cool rainwater.
研究人员在野外调查的温度(24、30 和 36°C)和盐度(2、12 和 32 ppt)范围内,测试了翻车鱼(Fundulus heteroclitus)的快速启动逃避捕食者的性能。当鱼适应这些条件时,它们在不同温度和盐度下的表现相似。然而,当翻车鱼经历急性温度变化时,其表现以两种截然不同的方式表现出对温度的依赖性。快速启动的转弯率和直线速度与执行动作时的温度直接相关,但这些性能方面与驯化温度成反比,即较冷驯化的鱼在整个测试温度范围内表现出更快的启动。温度的影响在盐度范围内是一致的。这些结果表明,虽然翻车鱼随着急性温度升高而提高性能,但长期海水温度上升可能会使这些鱼类在突然降温事件(例如暴风雨事件将凉爽的雨水冲入浅海水域)中更容易受到捕食。
