中文摘要：

采用心理不应期研究范式,三个反应时实验检测了心理旋转任务和其他认知操作任务能否并行加工的问题.在每个实验中要求被试快速、系列地完成对高低音的辨别任务（T1）和不同旋转角度的正反像辨别任务（T2）,T1和T2呈现的时间间隔运用变化的SOA.结果发现：（1）T1的反应选择对T2的反应选择产生了很大的影响,在T2上PRP效应显著.心理旋转的操作成绩随着SOA的缩短而降低.（2）在T1上同样存在随着SOA缩短,反应时增加,正确率下降的趋势.T2的反应选择对T1的反应选择同样产生了显著的影响.（3）T2的反应选择对T1的中枢加工产生了相应的影响,表明当T1的反应选择占据中枢瓶颈时,心理旋转任务和其他认知操作任务在中枢瓶颈中并行得到了有效的加工.

英文摘要：

Introduction Laboratory studies of performance limitations under dual-task conditions typically present two tasks-Taskl （T1） and Task2 （T2） -in rapid succession. The degree of task overlap is varied by manipulating the interval between the onsets of the T1 stimulus and T2 stimulus, known as the stimulus onset asynchrony （SOA）. The standard finding is that RT for T1 （RT1） is constant across SOA, but RT for T2 （RT2） increases dramatically as SOA decreases. This slowing of RT2 at short SOA is commonly known as the psychological refractory period （PRP） effect. The most widely accepted account of the PRP effect is the response-selection bottleneck （RSB） model, which assumes that central operations （such as response selection） are discrete and serial, central operations for T2 do not start until central operations for T1 have finished. According to this model, RT2 is delayed at short SOA because operations for T2 requiring the bottleneck mechanism have to wait until this mechanism is finished with T1. The longer SOA is, the less likely is processing T2 in the bottleneck to have to await the completion of processing T1 in it. Hence, this model makes rather simple predictions for RT1, because T1 gets access to bottleneck processing first, it has completed bottleneck processing by the time T2 requires it, or T2 has to wait for T1 until which has finished with the bottleneck. Regardless, T1 always gets access to the bottleneck as soon as it requires it, so RT1 should be the same at all SOA, also RT1 should not depend on any difficulties ofT2. Thus, the present study aimed to test whether T1 response selection could be affected from T2 response selection information. If it is true, it would suggest that T2 response selection had begun before T1 response selection was completed--that is, response selection processes of both tasks were operating in parallel. Method Three reaction time experiments using a psychological refractory period paradigm examined whether the mental rotation proce