Department of Bioscience-Zoophysiology, Aarhus University, Build. 1131, Århus, Denmark.
J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 2013 Jun;199(6):451-69. doi: 10.1007/s00359-013-0824-8. Epub 2013 May 1.
Here we use sound and movement recording tags to study how deep-diving Blainville's beaked whales (Mesoplodon densirostris) use echolocation to forage in their natural mesopelagic habitat. These whales ensonify thousands of organisms per dive but select only about 25 prey for capture. They negotiate their cluttered environment by radiating sound in a narrow 20° field of view which they sample with 1.5-3 clicks per metre travelled requiring only some 60 clicks to locate, select and approach each prey. Sampling rates do not appear to be defined by the range to individual targets, but rather by the movement of the predator. Whales sample faster when they encounter patches of prey allowing them to search new water volumes while turning rapidly to stay within a patch. This implies that the Griffin search-approach-capture model of biosonar foraging must be expanded to account for sampling behaviours adapted to the overall prey distribution. Beaked whales can classify prey at more than 15 m range adopting stereotyped motor patterns when approaching some prey. This long detection range relative to swimming speed facilitates a deliberate mode of sensory-motor operation in which prey and capture tactics can be selected to optimize energy returns during long breath-hold dives.
在这里,我们使用声音和运动记录标签来研究深海潜水的柏氏中喙鲸(Mesoplodon densirostris)如何在其自然中层栖息环境中利用回声定位觅食。这些鲸鱼在每次潜水时都会对数千个生物体进行声纳探测,但只为大约 25 种猎物进行捕获。它们通过在狭窄的 20°视野中辐射声音来应对杂乱的环境,每移动 1.5-3 米就会对其进行 1.5-3 次点击采样,每次寻找、选择和接近猎物只需要大约 60 次点击。采样率似乎不是由与单个目标的距离定义的,而是由捕食者的运动决定的。当鲸鱼遇到猎物群时,它们会更快地进行采样,从而能够在快速转向以保持在猎物群内的同时搜索新的水体。这意味着,必须扩展 Griffin 搜索-接近-捕获生物声纳觅食模型,以解释适应整体猎物分布的采样行为。喙鲸可以在超过 15 米的距离对猎物进行分类,在接近某些猎物时采用刻板的运动模式。与游泳速度相比,这种长的探测范围有利于一种深思熟虑的感觉-运动操作模式,在这种模式下,可以选择猎物和捕获策略,以优化在长时间屏息潜水期间的能量回报。
