Abstract It is well-known that an abrupt onset distracter can capture attention and eye movements automatically (Theeuwes et al. 1998). A long-standing debate in the attentional research is the relationship between covert attention and saccadic eye movements. The premotor theory of attention proposes that visual attention and saccade programming are closely interlinked (Sheliga et al. 1995). However, Juan et al. (2004) recently challenged this prevailed theory by showing that the allocation of visual attention can be dissociated with saccade programming in time. In this study, following the same logic of Juan et al., the onset time of the abrupt onset in a visual search task is manipulated attempting to probe the functional dissociability of the oculomotor and the attentional systems in human. The data revealed that the effect on the saccade latency and that on the saccade execution (e.g. curvature, saccade endpoints.) seem to have independent temporal function of the onset time of the AO. In the earlier AO onset time points (SOA: 0,100ms), within the pro-saccade paradigm, the AO can delay saccade latency (F（1,9）=25.224, P<0.01), but cannot influence the saccade curvature (F（1, 9）=0.066, P=0.803 >0.05). In contrast, when an AO was presented in the later time points (SOA: 200, 300 ms), the trajectories of saccades curve away from the abrupt onset location but the saccade latencies were not affected (F（1,9）=2.566, P>0.05). Our data indicate that the saccade latency and the curvature are both affected by the presence of abrupt onset. But there is a little difference in the AO time function. In the early time (SOA= 0,100ms), the abrupt onset of colored-singleton can delay saccade latency but don’t affect the saccade curvature. When a color-singleton abrupt onset presented in the latter time (SOA= 200,300ms), the trajectories of saccades curve away from the abrupt onset location. We dissociate the attetntional selection and the saccade generation. The pattern of the result may indicate that visual attention (measured by the saccade latency) and saccade execution (measured by the saccade curvature) can be dissociated in a temporal domain.