南极鱼类侧线感受器对浮游猎物运动的感觉调节。

Sensory tuning of lateral line receptors in antarctic fish to the movements of planktonic prey.

作者信息

Montgomery J C, Macdonald J A

出版信息

Science. 1987 Jan 9;235(4785):195-6. doi: 10.1126/science.235.4785.195.

DOI:10.1126/science.235.4785.195

Abstract

The suitability of the lateral line system of fish and aquatic amphibia for the detection of planktonic prey was examined in the antarctic fish Pagothenia borcgrevinki (family Nototheniidae). The best responses of primary afferent lateral line neurons to waterborne vibrations were recorded at frequencies within the range of those produced by swimming crustacea. Simultaneous recordings from a swimming zooplankter held close to the fish and from primary afferent neurons provided direct confirmation that swimming movements of crustaceans are a potent natural stimulus of the lateral line system.

摘要

在南极鱼类博氏南冰䲢（南极鱼科）中，研究了鱼类和水生两栖动物的侧线系统对浮游猎物的探测适用性。初级传入侧线神经元对水体振动的最佳反应记录在游泳甲壳类动物产生的频率范围内。对靠近鱼的游动浮游动物和初级传入神经元进行同步记录，直接证实了甲壳类动物的游动是侧线系统强大的自然刺激源。

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南极鱼类侧线感受器对浮游猎物运动的感觉调节。

Sensory tuning of lateral line receptors in antarctic fish to the movements of planktonic prey.

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