Coutinho Mariana V C, Redford Joshua S, Church Barbara A, Zakrzewski Alexandria C, Couchman Justin J, Smith J David
Department of Psychology, University at Buffalo, State University of New York, 208 Park Hall, Buffalo, NY, 14260, USA.
Department of Psychology, Albright College, Reading, PA, USA.
Mem Cognit. 2015 Oct;43(7):990-1006. doi: 10.3758/s13421-015-0527-1.
The uncertainty response has grounded the study of metacognition in nonhuman animals. Recent research has explored the processes supporting uncertainty monitoring in monkeys. It has revealed that uncertainty responding, in contrast to perceptual responding, depends on significant working memory resources. The aim of the present study was to expand this research by examining whether uncertainty monitoring is also working memory demanding in humans. To explore this issue, human participants were tested with or without a cognitive load on a psychophysical discrimination task that included either an uncertainty response (allowing the participant to decline difficult trials) or a middle-perceptual response (labeling the same intermediate trial levels). The results demonstrated that cognitive load reduced uncertainty responding, but increased middle responding. However, this dissociation between uncertainty and middle responding was only observed when participants either lacked training or had very little training with the uncertainty response. If more training was provided, the effect of load was small. These results suggest that uncertainty responding is resource demanding, but with sufficient training, human participants can respond to uncertainty either by using minimal working memory resources or by effectively sharing resources. These results are discussed in relation to the literature on animal and human metacognition.
不确定性反应为非人类动物的元认知研究奠定了基础。最近的研究探索了支持猴子进行不确定性监测的过程。研究发现,与感知反应不同,不确定性反应依赖大量工作记忆资源。本研究的目的是通过检验不确定性监测在人类中是否也需要工作记忆,来扩展这一研究。为探究此问题,人类参与者在一项心理物理学辨别任务中,在有或没有认知负荷的情况下接受测试,该任务包括不确定性反应(允许参与者拒绝困难试验)或中等感知反应(对相同的中间试验水平进行标记)。结果表明,认知负荷减少了不确定性反应,但增加了中等反应。然而,只有当参与者缺乏训练或对不确定性反应的训练很少时,才会观察到不确定性反应和中等反应之间的这种分离。如果提供更多训练,负荷的影响就很小。这些结果表明,不确定性反应需要资源,但经过充分训练后,人类参与者可以通过使用最少的工作记忆资源或有效地共享资源来对不确定性做出反应。将结合关于动物和人类元认知的文献对这些结果进行讨论。