Nonadjacent dependencies and sequential structure of chimpanzee action during a natural tool-use task.
IF 2.3 3区 生物学Q2 MULTIDISCIPLINARY SCIENCESPeerJPub Date : 2024-12-05eCollection Date: 2024-01-01DOI:10.7717/peerj.18484
Elliot Howard-Spink, Misato Hayashi, Tetsuro Matsuzawa, Daniel Schofield, Thibaud Gruber, Dora Biro
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引用次数: 0
Abstract
Many of the complex behaviours of humans involve the production of nonadjacent dependencies between sequence elements, which in part can be generated through the hierarchical organization of sequences. To understand how these structural properties of human behaviours evolved, we can gain valuable insight from studying the sequential behaviours of nonhuman animals. Among the behaviours of nonhuman apes, tool use has been hypothesised to be a domain of behaviour which likely involves hierarchical organization, and may therefore possess nonadjacent dependencies between sequential actions. However thus far, evidence supporting hierarchical organization of great-ape tool use comes from methodologies which have been criticised in their objectivity. Additionally, the extent to which nonadjacent dependencies appear in primate action sequences during tool use has not been formally investigated. We used estimations of mutual information (MI)-a measure of dependency strength between sequence elements-to evaluate both the extent to which wild chimpanzees produce nonadjacent dependencies during a naturalistic tool-use task (nut cracking), as well as how sequences of actions are likely organized during tool use. Half of adult chimpanzees produced nonadjacent dependencies at significantly greater sequential distances than comparable, nonhierarchical Markov models once repeated actions had been accounted for. Additionally, for the majority of chimpanzees, MI decay with increasing sequential distance included a power-law relationship, which is a key indicator that the action sequences produced by chimpanzees likely entail some degree of hierarchical organization. Our analysis offered the greatest support for a system of organization where short subroutines of actions (2-8 actions long) are hierarchically arranged into longer sequences-a finding which is consistent with previous qualitative descriptions of ape tool-use behaviours. Interindividual variability was detected within our analysis in both the maximum distance dependencies were detected, and the most likely structuring mechanism for sequential action organization. We discuss these results in light of possible interindividual variation in the systems of action organization used by chimpanzees during tool use, in addition to methodological considerations for applications of MI estimations to sequential behaviours. Moreover, we discuss our main findings alongside hypotheses for the coevolution of complex syntax in language and tool-action across hominin evolutionary history.
人类的许多复杂行为都涉及序列元素之间非相邻依赖关系的产生,而这种非相邻依赖关系部分是通过序列的分层组织产生的。为了了解人类行为的这些结构特性是如何进化的,我们可以从研究非人类动物的序列行为中获得宝贵的启示。在非人类类人猿的行为中,使用工具被假定为可能涉及等级组织的行为领域,因此可能具有顺序动作之间的非相邻依赖性。然而,迄今为止,支持巨猿使用工具的等级组织的证据来自于客观性受到批评的方法学。此外,在灵长类动物使用工具的过程中,非相邻的依赖关系在多大程度上出现在动作序列中还没有正式研究过。我们使用互信息(MI)的估计值--一种衡量序列元素之间依赖强度的方法--来评估野生黑猩猩在自然工具使用任务(敲击坚果)中产生非相邻依赖的程度,以及在工具使用过程中可能如何组织动作序列。一旦考虑到重复动作,半数成年黑猩猩产生非相邻依赖关系的顺序距离明显大于可比的非层次马尔可夫模型。此外,对于大多数黑猩猩来说,随着序列距离的增加,MI 衰减呈幂律关系,这是一个关键指标,表明黑猩猩产生的动作序列可能包含一定程度的等级组织。我们的分析最大程度地支持了一种组织系统,即短小的动作子程序(2-8 个动作)按等级排列成较长的序列,这一发现与以前对猿类工具使用行为的定性描述相一致。在我们的分析中发现,个体间的差异既体现在所发现的最大距离依赖上,也体现在顺序动作组织最可能的结构机制上。我们将根据黑猩猩在使用工具过程中所使用的动作组织系统中可能存在的个体间差异来讨论这些结果,此外还将从方法论的角度考虑将 MI 估计应用于连续行为。此外,我们还讨论了我们的主要发现以及在整个类人进化史中语言和工具使用中复杂句法共同进化的假设。
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