Marshall N J, Land M F, Cronin T W
Queensland Brain Institute, The University of Queensland, , Brisbane, Queensland 4072, Australia.
Philos Trans R Soc Lond B Biol Sci. 2014 Jan 6;369(1636):20130042. doi: 10.1098/rstb.2013.0042. Print 2014.
Discovering that a shrimp can flick its eyes over to a fish and follow up by tracking it or flicking back to observe something else implies a 'primate-like' awareness of the immediate environment that we do not normally associate with crustaceans. For several reasons, stomatopods (mantis shrimp) do not fit the general mould of their subphylum, and here we add saccadic, acquisitional eye movements to their repertoire of unusual visual capabilities. Optically, their apposition compound eyes contain an area of heightened acuity, in some ways similar to the fovea of vertebrate eyes. Using rapid eye movements of up to several hundred degrees per second, objects of interest are placed under the scrutiny of this area. While other arthropod species, including insects and spiders, are known to possess and use acute zones in similar saccadic gaze relocations, stomatopods are the only crustacean known with such abilities. Differences among species exist, generally reflecting both the eye size and lifestyle of the animal, with the larger-eyed more sedentary species producing slower saccades than the smaller-eyed, more active species. Possessing the ability to rapidly look at and assess objects is ecologically important for mantis shrimps, as their lifestyle is, by any standards, fast, furious and deadly.
发现一只虾能将眼睛转向一条鱼,然后跟踪它,或者再转回去观察其他东西,这意味着它具有一种我们通常不会将其与甲壳类动物联系起来的“类似灵长类动物”的对周围环境的感知能力。由于多种原因,口足类动物(螳螂虾)不符合它们所属亚门的一般模式,在这里,我们将扫视性、获取性眼球运动添加到它们不同寻常的视觉能力库中。从光学角度来看,它们的并列复眼中有一个敏锐度更高的区域,在某些方面类似于脊椎动物眼睛的中央凹。通过每秒高达几百度的快速眼球运动,感兴趣的物体被置于这个区域的仔细观察之下。虽然已知包括昆虫和蜘蛛在内的其他节肢动物物种在类似的扫视性注视重新定位中拥有并使用敏锐区域,但螳螂虾是已知唯一具有这种能力的甲壳类动物。不同物种之间存在差异,这通常反映了动物的眼睛大小和生活方式,眼睛较大、行动较迟缓的物种产生的扫视动作比眼睛较小、更活跃的物种要慢。拥有快速注视和评估物体的能力对螳螂虾在生态方面很重要,因为无论以何种标准衡量,它们的生活方式都是快速、激烈且致命的。