School of Biological Sciences, The University of Queensland, St Lucia, QLD, 4072, Australia.
J Comp Physiol B. 2012 Feb;182(2):199-207. doi: 10.1007/s00360-011-0611-1. Epub 2011 Sep 1.
In nature, many organisms alter their developmental trajectory in response to environmental variation. However, studies of thermal acclimation have historically involved stable, unrealistic thermal treatments. In our study, we incorporated ecologically relevant treatments to examine the effects of environmental stochasticity on the thermal acclimation of the fall field cricket (Gryllus pennsylvanicus). We raised crickets for 5 weeks at either a constant temperature (25°C) or at one of three thermal regimes mimicking a seasonal decline in temperature (from 25 to 12°C). The latter three treatments differed in their level of thermal stochasticity: crickets experienced either no diel cycle, a predictable diel cycle, or an unpredictable diel cycle. Following these treatments, we measured several traits considered relevant to survival or reproduction, including growth rate, jumping velocity, feeding rate, metabolic rate, and cold tolerance. Contrary to our predictions, the acclimatory responses of crickets were unrelated to the magnitude or type of thermal variation. Furthermore, acclimation of performance was not ubiquitous among traits. We recommend additional studies of acclimation in fluctuating environments to assess the generality of these findings.
在自然界中,许多生物会根据环境变化改变其发育轨迹。然而,热驯化的研究历史上涉及到稳定的、不现实的热处理。在我们的研究中,我们采用了生态相关的处理方法来研究环境随机性对秋季田野蟋蟀(Gryllus pennsylvanicus)热驯化的影响。我们将蟋蟀饲养了 5 周,要么在恒温(25°C)下,要么在模拟温度季节性下降的三种热环境中(从 25°C 到 12°C)。后三种处理在热随机性水平上有所不同:蟋蟀经历了无昼夜周期、可预测的昼夜周期或不可预测的昼夜周期。在这些处理之后,我们测量了一些被认为与生存或繁殖相关的特征,包括生长率、跳跃速度、进食率、代谢率和耐寒性。与我们的预测相反,蟋蟀的适应反应与热变化的幅度或类型无关。此外,适应性能并不是所有特征都普遍存在的。我们建议对波动环境中的适应进行更多的研究,以评估这些发现的普遍性。
