Muller Melissa D, Fountain Stephen B
Department of Psychology, University of Mount Union, Alliance, OH 44601-3993, USA.
Learn Motiv. 2010 Nov;41(4):252-272. doi: 10.1016/j.lmot.2010.08.003.
Three experiments examined the processes mediating rat serial pattern learning for rule-consistent versus rule-violating pattern elements ("violation elements"). In all three experiments, rats were trained to press retractable levers in a circular array in a specific sequence for brain stimulation reward (BSR). Experiment 1 examined the role of lever location (L) and element serial position (SP) cues in rats' ability to learn to anticipate a violation element positioned at the end of a 24-element serial pattern. Rats with L cues either alone or in combination with SP cues learned to anticipate the violation element, whereas those with SP cues alone did not. Rats in groups L and L+SP underwent a series of transfers designed to remove various cues that might have controlled their performance on the violation element. Results indicated that intra-chamber lever location cues mediated performance on the violation element whereas performance on rule-consistent elements within pattern chunks was mediated by an internal mnemonic representation that was insensitive to changes in lever location cues. Experiment 2 examined whether rats could learn to use SP cues alone to anticipate a violation element if it was positioned earlier in a serial pattern. Rats learned to anticipate the violation element based on SP cues alone when it was located in SP6 in a 24-element pattern, but not when it was in SP12. Experiment 3 examined whether or not rats spontaneously encode information about chunk length and the serial position of phrasing cues in serial patterns. Rats were trained to a high criterion on the serial pattern used in Experiment 1, then were challenged with three probe patterns that manipulated both chunk length and overall pattern length. Results indicated that rats spontaneously encoded information regarding the serial position of phrasing cues in relation to chunk length. Thus, rats appear to use at least three cognitive processes concurrently in serial pattern learning tasks, namely, item memory involving external discriminative cues, counting- or timing-like processes for encoding serial position, and rule abstraction for encoding an internal representation of pattern structure.
三项实验研究了大鼠对规则一致与违反规则的模式元素(“违反元素”)进行序列模式学习的中介过程。在所有三项实验中,训练大鼠按特定顺序按压圆形阵列中的可伸缩杠杆以获得脑刺激奖励(BSR)。实验1研究了杠杆位置(L)和元素序列位置(SP)线索在大鼠学习预测位于24元素序列模式末尾的违反元素的能力中的作用。仅具有L线索或同时具有L和SP线索的大鼠学会了预测违反元素,而仅具有SP线索的大鼠则没有。L组和L + SP组的大鼠接受了一系列转移测试,旨在消除可能控制其对违反元素表现的各种线索。结果表明,实验箱内的杠杆位置线索介导了对违反元素的表现,而模式组块内规则一致元素的表现则由对杠杆位置线索变化不敏感的内部记忆表征介导。实验2研究了如果违反元素位于序列模式中较早位置,大鼠是否能够学会仅使用SP线索来预测它。当违反元素位于24元素模式的SP6位置时,大鼠学会了仅基于SP线索来预测它,但当它位于SP12位置时则没有。实验3研究了大鼠是否会自发编码关于组块长度和序列模式中措辞线索的序列位置的信息。大鼠在实验1中使用的序列模式上训练至高标准,然后用三种操纵组块长度和整体模式长度的探测模式进行挑战。结果表明,大鼠自发编码了与组块长度相关的措辞线索的序列位置信息。因此,大鼠在序列模式学习任务中似乎同时使用至少三种认知过程,即涉及外部辨别线索的项目记忆、用于编码序列位置的计数或计时样过程,以及用于编码模式结构内部表征的规则抽象。