回声定位蝙蝠在杂乱环境中导航穿越间隙时声凝视的时空模式。

Spatiotemporal patterning of acoustic gaze in echolocating bats navigating gaps in clutter.

作者信息

Tuninetti Amaro, Ming Chen, Hom Kelsey N, Simmons James A, Simmons Andrea Megela

机构信息

Department of Cognitive, Linguistic, & Psychological Sciences, Brown University, Providence, RI 02912, USA.

Department of Neuroscience, Brown University, Providence, RI 02912, USA.

出版信息

iScience. 2021 Mar 23;24(4):102353. doi: 10.1016/j.isci.2021.102353. eCollection 2021 Apr 23.

DOI:10.1016/j.isci.2021.102353

PMID:33870143

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8047172/

Abstract

We challenged four big brown bats to maneuver through abrupt turns in narrow corridors surrounded by dense acoustic clutter. We quantified bats' performance, sonar beam focus, and sensory acquisition rate. Performance was excellent in straight corridors, with sonar beam aim deviating less than 5° from the corridor midline. Bats anticipated an upcoming abrupt turn to the right or left by slowing flight speed and shifting beam aim to "look" proactively into one side of the corridor to identify the new flightpath. All bats mastered the right turn, but two bats consistently failed the left turn. Bats increased their sensory acquisition rate when confronting abrupt turns in both successful and failed flights. Limitations on biosonar performance reflected failures to switch beam aim and to modify a learned spatial map, rather than failures to update acquisition rate.

摘要

我们让四只大棕蝠在被密集声学干扰物包围的狭窄走廊中进行急转弯机动。我们对蝙蝠的表现、声纳波束聚焦和感官采集率进行了量化。在直走廊中，蝙蝠的表现非常出色，声纳波束的指向与走廊中线的偏差小于5°。蝙蝠通过降低飞行速度并将波束指向转向即将转弯的右侧或左侧，以主动“查看”走廊一侧来识别新的飞行路径，从而预判即将到来的急转弯。所有蝙蝠都掌握了向右转，但有两只蝙蝠始终无法完成向左转。在成功和失败的飞行中，当遇到急转弯时，蝙蝠都会提高它们的感官采集率。生物声纳性能的限制反映在无法切换波束指向和修改习得的空间地图上，而不是无法更新采集率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a0da/8047172/62b1f2f89e70/fx1.jpg

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回声定位蝙蝠在杂乱环境中导航穿越间隙时声凝视的时空模式。

Spatiotemporal patterning of acoustic gaze in echolocating bats navigating gaps in clutter.

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