Smithson H E, Mollon J D
Institute of Ophthalmology, University College London, 11-43 Bath Street, EC1V 9EL, UK.
Vision Res. 2004 Nov;44(25):2919-29. doi: 10.1016/j.visres.2004.06.022.
The S-opponent pathway has a reputation for being sluggish relative to the L/M-opponent pathway. Cottaris and De Valois [Nature 395 (1998) 896] claim that S-opponent signals are available in Macaque V1 only after 96-135 ms whereas L/M-opponent signals are available after 68-95 ms. Our experiments tested whether this large latency difference could be observed psychophysically. We measured reaction times to S/(L + M) and L/(L + M) increments. Both the equiluminant plane and the tritan line were empirically determined and we used spatio-temporal luminance noise to mask luminance cues. An adaptive staircase progressed according to observers' performance on a 'go, no-go' task and provided concomitant estimates of threshold and of reaction time. When brief stimuli are confined to chromatic channels and presented at equivalent (threshold) levels and when latency is estimated from visually triggered reaction times, we find that the difference between the L/M-opponent and S-opponent sub-systems is, at most, 20-30 ms.
相对于L/M拮抗通路,S拮抗通路一向以反应迟缓著称。科塔里斯和德瓦洛伊斯[《自然》395 (1998) 896]称,猕猴V1区中S拮抗信号在96 - 135毫秒后才出现,而L/M拮抗信号在68 - 95毫秒后就已出现。我们的实验测试了这种较大的潜伏期差异是否能通过心理物理学方法观察到。我们测量了对S/(L + M)和L/(L + M)增量的反应时间。等亮度平面和短波线均通过实验确定,并且我们使用时空亮度噪声来掩盖亮度线索。一个自适应阶梯程序根据观察者在“是/否”任务中的表现进行,同时提供阈值和反应时间的估计值。当短暂刺激局限于颜色通道并以等效(阈值)水平呈现,且从视觉触发的反应时间估计潜伏期时,我们发现L/M拮抗子系统和S拮抗子系统之间的差异最多为20 - 30毫秒。
