导航蚂蚁在没有地图式空间表征的情况下进行潜在学习

Leo CLEMENT, Sebastian Schwarz, Antoine Wystrach
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引用次数: 0

摘要

沙漠蚂蚁是出色的导航员。每只蚂蚁都会在自然栖息地的树木和灌木丛间蜿蜒觅食。众所周知,昆虫的大脑是如何记忆和识别景物的,以及这种识别是如何指引它们前进的。然而,人们对引导空间学习的规则却知之甚少。在这里,我们记录了沙漠蚂蚁在各种位移条件下在自然栖息地中的导航路径。我们证明,蚂蚁会不断学习它们所走过的路线,并在一次试验中记住这些路线,无需奖惩,即使这些路线蜿蜒曲折,并不通往感兴趣的地方:这一概念被称为 "潜在学习",通常与脊椎动物形成类似地图的表征有关。然而,蚂蚁无法解决简单的人工导航任务(即使目标清晰可见),这表明它们依赖的是以自我为中心的视觉记忆,而没有对周围空间的地图式表征。我们的研究结果揭示了潜在记忆的形成和回忆规则。一个模型显示,它可以通过短期记忆和长期记忆之间的动态互动在昆虫的蘑菇体脑区实现。
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Latent learning without map-like representation of space in navigating ants
Desert ants are excellent navigators. Each individual learns long foraging routes meandering between the trees and bushes in their natural habitat. It is well-known how the insect brain memorizes and recognizes views, and how this recognition can guide their way. However, little is known about the rule that guide spatial learning in the first place. Here we recorded the paths of desert ants navigating in their natural habitat under various displacement conditions. We demonstrate that ants learn continuously the routes they travel and memorize them in one trial, without the need for reward or punishment, and even if these routes are meandering and do not lead to places of interest: a concept called "latent learning", which is typically associated with the formation of map-like representation in vertebrates. Yet, the failure of ants to solve simple artificial navigation tasks -even with the goal being clearly visible- reveals that they relied on egocentric visual memories without map-like representation of the surrounding space. Our results unveil the rules governing the formation and recall of latent memories. A model shows that it can be implemented in the insect's Mushroom bodies brain area through dynamic interactions between short- and long-lasting memories.
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