Kliegl Oliver, Pastötter Bernhard, Bäuml Karl-Heinz T
Department of Experimental Psychology.
J Exp Psychol Learn Mem Cogn. 2015 Nov;41(6):1778-89. doi: 10.1037/xlm0000096. Epub 2015 Jan 19.
Proactive interference (PI) refers to the finding that memory for recently studied (target) material can be impaired by the prior study of other (nontarget) material. Previous accounts of PI differed in whether they attributed PI to impaired retrieval or impaired encoding. Here, we suggest an integrated encoding-retrieval account, which assigns a role for each of the 2 types of processes in buildup of PI. Employing a typical PI task, we examined (a) the role of encoding processes in PI by recording scalp EEG during study of nontarget and target lists, and (b) the role of retrieval processes in PI by measuring recall totals and response latencies in target list recall. In addition, we measured subjects' working memory capacity (WMC). Behaviorally, the PI effect arose in both recall totals and response latencies, indicating PI at the sampling and the recovery stage of recall. Neurally, we found an increase in electrophysiological activities in the theta frequency band (5-8 Hz) from nontarget to target list encoding, indicating an increase in memory load during target list encoding. The results demonstrate that impaired retrieval and impaired encoding can contribute to PI. They also show that WMC affects PI. For both encoding and retrieval processes, PI was reduced in high-WMC subjects, suggesting that these subjects are able to separate target from nontarget information and create stronger focus on the target material.
前摄干扰(PI)是指这样一种发现:对最近学习的(目标)材料的记忆会受到先前对其他(非目标)材料学习的损害。先前对前摄干扰的解释在将其归因于提取受损还是编码受损方面存在差异。在此,我们提出一种综合的编码 - 提取解释,该解释为前摄干扰形成过程中这两种类型的过程都赋予了作用。采用典型的前摄干扰任务,我们进行了以下研究:(a)通过在学习非目标和目标列表期间记录头皮脑电图来考察编码过程在前摄干扰中的作用;(b)通过测量目标列表回忆中的回忆总量和反应潜伏期来考察提取过程在前摄干扰中的作用。此外,我们测量了受试者的工作记忆容量(WMC)。在行为方面,前摄干扰效应在回忆总量和反应潜伏期方面均出现,表明在前摄干扰发生在回忆的采样和恢复阶段。在神经层面,我们发现从非目标列表编码到目标列表编码过程中,θ频段(5 - 8赫兹)的电生理活动增加,这表明在目标列表编码期间记忆负荷增加。结果表明,提取受损和编码受损都可能导致前摄干扰。它们还表明工作记忆容量会影响前摄干扰。对于编码和提取过程而言,高工作记忆容量的受试者的前摄干扰都有所减少,这表明这些受试者能够将目标信息与非目标信息区分开来,并更强烈地聚焦于目标材料。
