Max Planck Institute for Ornithology, 82319, Seewiesen, Germany.
Max Planck Comparative Cognition Research Station, Loro Parque Fundacion, 38400, Puerto de la Cruz, Tenerife, Spain.
Learn Behav. 2021 Mar;49(1):106-123. doi: 10.3758/s13420-020-00449-y. Epub 2020 Dec 7.
Behavioural innovations with tool-like objects in non-habitually tool-using species are thought to require complex physical understanding, but the underlying cognitive processes remain poorly understood. A few parrot species are capable of innovating tool-use and borderline tool-use behaviours. We tested this capacity in two species of macaw (Ara ambiguus, n = 9; Ara glaucogularis, n = 8) to investigate if they could solve a problem-solving task through manufacture of a multi-stone construction. Specifically, after having functional experience with a pre-inserted stick tool to push a reward out of a horizontal tube, the subjects were required to insert five stones consecutively from one side to perform the same function as the stick tool with the resulting multi-component construction. One Ara glaucogularis solved the task and innovated the stone construction after the experience with the stick tool. Two more subjects (one of each species) did so after having further functional experience of a single stone pushing a reward out of a shortened tube. These subjects were able to consistently solve the task, but often made errors, for example counter-productive stone insertions from the opposing end, even in some of the successful trials. Conversely, multiple trials without errors also suggested a strong goal direction. Their performance in the follow-up tasks was inconclusive since they sometimes inserted stones into un-baited or blocked 'dummy tubes', but this could have been an attention-deficit behaviour as subjects had not encountered these 'dummy tubes' before. Overall, the successful subjects' performance was so erratic that it proved difficult to conclude whether they had functional understanding of their multi-stone constructions.
非习惯性使用工具的物种中具有工具样物体的行为创新被认为需要复杂的物理理解,但潜在的认知过程仍知之甚少。一些鹦鹉物种能够创新使用工具和边缘工具行为。我们在两种金刚鹦鹉(Ara ambiguus,n = 9;Ara glaucogularis,n = 8)中测试了这种能力,以调查它们是否能够通过制造多石结构来解决一个解决问题的任务。具体来说,在具有用于将奖励从水平管中推出的预插入棒工具的功能经验后,要求这些主体连续插入五块石头,从一侧执行与棒工具相同的功能,从而形成多组件结构。一只 Ara glaucogularis 在使用棒工具获得经验后解决了任务并创新了石头结构。另外两只(每只一种)在进一步使用单个石头将奖励从缩短的管中推出的功能经验后也这样做了。这些主体能够一致地解决任务,但经常犯错,例如从相反端进行的非生产性石头插入,即使在一些成功的试验中也是如此。相反,多次没有错误的试验也表明了强烈的目标方向。他们在后续任务中的表现尚无定论,因为他们有时会将石头插入无诱饵或堵塞的“假管”中,但这可能是一种注意力缺陷行为,因为这些主体以前没有遇到过这些“假管”。总的来说,成功主体的表现如此不稳定,以至于很难得出他们是否对其多石结构有功能理解的结论。
