Turning up the heat: Effects of temperature on agonistic acoustic communication in the two-spotted goby (Pomatoschistus flavescens)

IF 3 3区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

Marine environmental research Pub Date : 2024-09-02 DOI:10.1016/j.marenvres.2024.106714

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Abstract

Acoustic communication is linked to fitness traits in many animals, but under the current scenario of global warming, sound signals can be affected by rising temperatures, particularly in ectothermic organisms such as fishes. This study examines the effect of water temperature in acoustic communication in the two-spotted goby, Pomatoschistus flavescens. To address this, we looked at the effect of different temperatures on the acoustic features of drums produced by males during territorial defence and related it with their auditory sensitivity. We also analysed the differences in acoustic features between male agonistic drums and previously reported male courtship sounds, to better understand how acoustic communication may be affected by different temperature conditions. We recorded two-spotted goby males during territorial intrusions for 10 min at 16 °C, 19 °C, and 21 °C in the laboratory. We found that agonistic drums were shorter, had fewer pulses and shorter pulse periods at higher temperature, in contrast with the peak frequency that remained unaffected. Male agonistic and mating drums (recorded in a previous study) at 16 °C only differed in pulse period, which was higher in mating drums. Hearing thresholds obtained with Auditory Evoked Potentials at 16 °C, revealed higher sensitivity below 400 Hz, matching the main energy of agonistic and mating sounds. Our findings suggest that increasing temperature could potentially affect acoustic communication in this species by reducing the duration of agonistic drums, which might hinder effective communication. Nevertheless, the impact may not be significant as there was a good match between the best hearing sensitivity and the peak frequency range of their calls, which was not influenced by temperature. As fish and other organisms are increasingly threatened by multiple anthropogenic stressors, including warming, future research should address how changes in water temperature impact acoustic communication within a more realistic multi-stressor scenario.

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加热：温度对双斑虾虎鱼（Pomatoschistus flavescens）激动式声学交流的影响。

声学通讯与许多动物的体能特征有关，但在当前全球变暖的情况下，声音信号可能会受到温度上升的影响，尤其是在鱼类等外温生物中。本研究探讨了水温对双斑虾虎鱼声学通讯的影响。为此，我们研究了不同温度对雄鱼在领地防御时发出的鼓声特征的影响，并将其与雄鱼的听觉灵敏度联系起来。我们还分析了雄性鼓声与之前报道的雄性求偶声在声学特征上的差异，以更好地了解不同温度条件对声学交流的影响。在实验室中，我们分别在16 °C、19 °C和21 °C条件下记录了10分钟两斑虾虎鱼雄性入侵领地时的声音。我们发现，在较高温度下，鼓声更短、脉冲数更少、脉冲周期更短，而峰值频率则不受影响。雄性鼓和交配鼓（在之前的研究中记录）在16 °C下的区别仅在于脉冲周期，交配鼓的脉冲周期更长。听觉诱发电位在 16 °C时获得的听阈显示，400 Hz以下的灵敏度较高，与鼓动声和交配声的主要能量相匹配。我们的研究结果表明，温度升高可能会影响该物种的声学交流，因为温度升高会缩短鼓声的持续时间，从而阻碍有效的交流。不过，这种影响可能并不大，因为最佳听觉灵敏度与它们叫声的峰值频率范围之间的匹配度很高，不受温度的影响。由于鱼类和其他生物正日益受到包括气候变暖在内的多种人为胁迫因素的威胁，未来的研究应探讨水温变化如何在更现实的多重胁迫情景下影响声学交流。

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来源期刊

Marine environmental research 环境科学-毒理学

CiteScore

5.90

自引率

3.00%

发文量

217

审稿时长

46 days

期刊介绍： Marine Environmental Research publishes original research papers on chemical, physical, and biological interactions in the oceans and coastal waters. The journal serves as a forum for new information on biology, chemistry, and toxicology and syntheses that advance understanding of marine environmental processes. Submission of multidisciplinary studies is encouraged. Studies that utilize experimental approaches to clarify the roles of anthropogenic and natural causes of changes in marine ecosystems are especially welcome, as are those studies that represent new developments of a theoretical or conceptual aspect of marine science. All papers published in this journal are reviewed by qualified peers prior to acceptance and publication. Examples of topics considered to be appropriate for the journal include, but are not limited to, the following: – The extent, persistence, and consequences of change and the recovery from such change in natural marine systems – The biochemical, physiological, and ecological consequences of contaminants to marine organisms and ecosystems – The biogeochemistry of naturally occurring and anthropogenic substances – Models that describe and predict the above processes – Monitoring studies, to the extent that their results provide new information on functional processes – Methodological papers describing improved quantitative techniques for the marine sciences.