猎物在较暖水域中更加显眼,减轻了浑浊度对捕食者视觉的限制

Costanza Zanghi, Jolyon Troscianko, Christos C Ioannou
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摘要

环境条件的变化通过感官和非感官途径改变行为,从而影响捕食者与猎物之间的相互作用。众所周知,水温和浑浊度的升高会改变猎物鱼类的活动水平和反捕食反应,而且由于人为活动的影响,全球范围内的水温和浑浊度都在不断升高。对于温度和浑浊度如何直接影响捕食者发现猎物的能力,或通过改变猎物行为间接影响捕食者发现猎物的能力,人们知之甚少。我们从静止的视觉捕食者(模拟为水下摄像机)的角度量化了特立尼达河豚(Poecilia reticulata)在大型竞技场自由游动时的可探测性。我们采用了全因子实验设计,测试温度升高和浑浊度增加的独立效应和综合效应。我们发现,这两种压力因素对猎物的出现(客观量化为视频中光流的平均值)都有很大影响。正如预期的那样,浑浊度降低了河豚与模拟捕食者之间的探测频率,即在清澈的水中,光流幅度超过 "探测事件 "阈值的频率更高。浑浊水体中的事件持续时间也较短,从而减少了捕食者发现猎物的时间。然而,在事件发生期间,在较暖的水域中猎物更容易被探测到(即平均幅度更大)。尽管我们没有发现浊度和温度对响应变量有交互影响的证据,但它们的累积主效应表明它们对捕获猎物的总体速率有拮抗作用。
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Enhanced conspicuousness of prey in warmer water mitigates the visual constraint of turbidity for predators
Changes in environmental conditions impact predator-prey interactions by altering behaviour through sensory and non-sensory pathways. Elevated water temperature and turbidity are known to alter activity levels and anti-predator responses in prey fish, and are increasing globally as a result of anthropogenic activities. Less is known about how temperature and turbidity impact predators' ability to detect prey directly, or indirectly via changes to prey behaviour. We quantified the detectability of Trinidadian guppies (Poecilia reticulata) free-swimming in a large arena from the perspective of a stationary visual predator (simulated as an underwater camera). We used a fully factorial experimental design testing the independent and combined effects of increased temperature and turbidity. We found that both stressors had a strong influence on the appearance of prey (objectively quantified as the mean magnitude of the optical flow in the videos). As expected, turbidity reduced the frequency of detection between the guppies and the simulated predator, i.e. the magnitude of optical flow exceeded the threshold for a 'detection event' more often in clear water. Events were also shorter in duration in turbid water, reducing the time available for a predator to detect the prey. However, during an event, prey were more detectable in warmer water (i.e. the mean magnitude was greater). Although we found no evidence of interactive effects of turbidity and temperature on the response variables, their cumulative main effects suggest an antagonistic effect on the overall rate of prey capture.
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