Department of Anthropology, University of Miami, P.O. Box 248106, Coral Gables, FL, 33124-2005, USA.
Wildlife Conservation Society, Congo Program, B.P. 14537, Brazzaville, Republic of Congo.
Primates. 2024 Nov;65(6):525-539. doi: 10.1007/s10329-023-01106-4. Epub 2023 Dec 16.
Planning is a type of problem solving in which a course of future action is devised via mental computation. Potential advantages of planning for tool use include reduced effort to gather tools, closer alignment to an efficient tool design, and increased foraging efficiency. Chimpanzees (Pan troglodytes troglodytes) in the Goualougo Triangle use a variety of different types of tools. We hypothesized that procurement strategy (brought to the termite nest, manufactured or acquired at the termite nest, or borrowed from others) reflects planning for current needs, with tool transport behavior varying by tool type and by age and sex class. It is also possible that chimpanzees anticipate the need for tools at future times, which would be evidenced by transporting multiple tool types for a sequential task. One year of video recordings at termite nests were systematically screened for tool procurement; data comprised 299 tool procurement events across 66 chimpanzees. In addition, we screened video recordings of leaf sponging and honey gathering, which resulted in another 38 procurement events. Fishing probes, which are typically used during a single visit, were typically transported to termite nests, while puncturing tools, which are durable and remain on site, were more often acquired at termite nests. Most tools transported in multiples were fishing probes, perhaps in anticipation that a single probe might not last through an entire foraging bout or might be transferred to another chimpanzee. We further documented that chimpanzees transported tool sets, comprising multiple different tool types used in sequence. Mature chimpanzees transported tools more often than did immatures. These observations suggest that chimpanzees plan tool use flexibly, reflecting the availability of raw materials and the likelihood that specific tool types will be needed for particular tasks. Developmental studies and further integration of behavioral, spatial, and archaeological data will help to illuminate the decision making and time depth of planning associated with tool technologies in living primates and hominin ancestors.
规划是一种通过脑力计算来设计未来行动方案的问题解决方式。为工具使用而规划的潜在优势包括减少收集工具的努力、更接近高效的工具设计以及提高觅食效率。在 Goualougo 三角地区,黑猩猩(Pan troglodytes troglodytes)使用各种不同类型的工具。我们假设采购策略(带到白蚁巢、在白蚁巢中制造或获取、或从他人那里借来)反映了对当前需求的规划,工具运输行为因工具类型以及年龄和性别类别而异。也有可能是黑猩猩预测到未来需要工具,这将通过为连续任务运输多种工具类型来证明。在白蚁巢进行了一年的视频记录筛选,以获取工具采购数据;数据包括 66 只黑猩猩的 299 次工具采购事件。此外,我们还筛选了树叶海绵和蜂蜜采集的视频记录,这导致了另外 38 次采购事件。钓鱼探针通常在单次访问中使用,通常被运送到白蚁巢,而耐用且留在现场的穿刺工具则更常从白蚁巢获取。大多数以倍数运输的工具是钓鱼探针,可能是因为预测单个探针可能无法持续完成整个觅食过程,或者可能会转移给另一只黑猩猩。我们进一步记录到,黑猩猩运输工具套件,包括按顺序使用的多种不同工具类型。成熟的黑猩猩比未成年的黑猩猩更频繁地运输工具。这些观察结果表明,黑猩猩灵活地规划工具使用,反映了原材料的可用性以及特定工具类型对特定任务的需求可能性。发展研究和进一步整合行为、空间和考古数据将有助于阐明与生活灵长类动物和人类祖先的工具技术相关的决策制定和时间深度规划。
