Scanning behaviour in ants: an interplay between random-rate processes and oscillators.

Sudhakar Deeti, Ken Cheng, Paul Graham, Antoine Wystrach
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引用次数: 3

Abstract

At the start of a journey home or to a foraging site, ants often stop, interrupting their forward movement, turn on the spot a number of times, and fixate in different directions. These scanning bouts are thought to provide visual information for choosing a path to travel. The temporal organization of such scanning bouts has implications about the neural organisation of navigational behaviour. We examined (1) the temporal distribution of the start of such scanning bouts and (2) the dynamics of saccadic body turns and fixations that compose a scanning bout in Australian desert ants, Melophorus bagoti, as they came out of a walled channel onto open field at the start of their homeward journey. Ants were caught when they neared their nest and displaced to different locations to start their journey home again. The observed parameters were mostly similar across familiar and unfamiliar locations. The turning angles of saccadic body turning to the right or left showed some stereotypy, with a peak just under 45°. The direction of such saccades appears to be determined by a slow oscillatory process as described in other insect species. In timing, however, both the distribution of inter-scanning-bout intervals and individual fixation durations showed exponential characteristics, the signature for a random-rate or Poisson process. Neurobiologically, therefore, there must be some process that switches behaviour (starting a scanning bout or ending a fixation) with equal probability at every moment in time. We discuss how chance events in the ant brain that occasionally reach a threshold for triggering such behaviours can generate the results.

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蚂蚁的扫描行为:随机速率过程和振荡器之间的相互作用。
在回家或去觅食地点的旅程开始时,蚂蚁经常停下来,打断他们前进的运动,在原地转几圈,盯着不同的方向。这些扫描被认为是为选择旅行路径提供视觉信息。这种扫描的时间组织暗示了导航行为的神经组织。我们研究了(1)这种扫描回合开始的时间分布,(2)在澳大利亚沙漠蚂蚁Melophorus bagoti中,当它们从一个有围墙的通道进入回家之旅的开阔地带时,组成扫描回合的眼球转动和注视的动态。蚂蚁在接近巢穴时被抓住,并被转移到不同的地方,重新开始回家的旅程。观察到的参数在熟悉和不熟悉的地点大多相似。跳眼体向右或向左的转角呈现一定的立体性,在45°以下有一个峰值。这种扫视的方向似乎是由一个缓慢的振荡过程决定的,就像在其他昆虫物种中描述的那样。然而,在时间上,扫描间隔和个体注视持续时间的分布都表现出指数特征,这是随机速率或泊松过程的特征。因此,从神经生物学的角度来看,每时每刻都必须有某种过程以相同的概率改变行为(开始扫描或结束注视)。我们讨论了蚂蚁大脑中偶尔达到触发此类行为阈值的偶然事件如何产生结果。
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来源期刊
CiteScore
4.80
自引率
14.30%
发文量
67
审稿时长
1 months
期刊介绍: The Journal of Comparative Physiology A welcomes original articles, short reviews, and short communications in the following fields: - Neurobiology and neuroethology - Sensory physiology and ecology - Physiological and hormonal basis of behavior - Communication, orientation, and locomotion - Functional imaging and neuroanatomy Contributions should add to our understanding of mechanisms and not be purely descriptive. The level of organization addressed may be organismic, cellular, or molecular. Colour figures are free in print and online.
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