极端温度对潮间带影响的迹象和程度取决于环境和生物背景

Jennifer Jorve Hoos , Christopher D.G. Harley
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引用次数: 1

摘要

与气候变化相关的平均温度和极端温度的预测变化可能对生物产生不同的影响,这些影响的迹象和幅度可能取决于当地情况。对于形成生境的潮间带海带Hedophyllum sessile来说,增温的影响可能随潮间带局部密度和位置的不同而不同。为了评估变暖的潜在环境依赖性,我们在潮间带梯度上控制了H. sessile的密度,并通过实验在野外施加周期性热应力。无柄青虫的补充与海岸高度呈单峰关系,在垂直分布的中心附近达到顶峰,在分布的上下限下降。实验增温对低岸地区和高密度地区的增温有轻微的正向影响,而与成虫密度无关。增温对高纬度低密度样地的增收有明显的负面影响。温度调节对成虫的生长也有特定环境的影响;增温对高密度样地叶片数和冠层盖度的季节性增加有轻微的促进作用,而对低密度样地则有明显的抑制作用。最后,实验加热对林下植食性石鳖(Katharina tunicata)具有环境依赖效应,在高密度样地加热后丰度增加,在低密度样地加热后丰度减少。我们的研究结果表明,极端温度事件可以影响多个物种和多个生活史阶段,并且这些事件的影响可能取决于环境(如潮间带高度)和生物(如成虫密度)背景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The sign and magnitude of the effects of thermal extremes on an intertidal kelp depend on environmental and biological context

Predicted shifts in mean and extreme temperatures associated with climate change can have variable impacts on organisms, and the sign and magnitude of these impacts may depend upon local context. For Hedophyllum sessile, a habitat-forming intertidal kelp, the impacts of warming may vary with local density and position in the intertidal zone. To assess the potential context-dependence of warming, we manipulated H. sessile densities across an intertidal gradient and experimentally imposed periodic thermal stress in the field. The recruitment of H. sessile juveniles was unimodally related to shore level, peaking near the center of the species’ vertical distribution and falling off at the upper and lower distributional limits. Experimental warming tended to have mildly positive effects on recruitment lower on the shore regardless of adult density, and in upper zone, high density plots. However, warming had strongly negative effects on recruitment in upper zone, low density plots. Temperature manipulations also had context-specific effects on adult plant growth; seasonal increases in blade number and canopy cover were slightly enhanced by warming in high-density plots but greatly reduced by warming in low-density plots. Finally, experimental heating had context-dependent effects on an understory herbivore, the chiton Katharina tunicata, which increased in abundance following heating in high density plots but decreased in low density plots. Our results demonstrate that extreme temperature events can affect multiple species and multiple life history stages, and that the impacts of such events can depend upon both environmental (e.g. intertidal height) and biological (e.g. adult density) context.

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