Khan Rehan M, Sobel Noam
Helen Wills Neuroscience Institute, University of California, Berkeley, Berkeley, CA 94720, USA.
Neuron. 2004 Dec 2;44(5):744-7. doi: 10.1016/j.neuron.2004.11.024.
Olfaction is typically described as behaviorally slow, suggesting neural processes on the order of hundreds of milliseconds to seconds as candidate mechanisms in the creation of olfactory percepts. Whereas a recent study challenged this view in suggesting that a single sniff was sufficient for optimal olfactory discrimination, a study by Abraham et al. in this issue of Neuron sets out to negate the challenge by demonstrating increased processing time for discrimination of similar versus dissimilar stimuli. Here we reconcile both studies, which in our view together support the notion of a speed-accuracy tradeoff in olfactory discriminations that are made within about 200 ms. These findings are discussed in light of the challenges related to defining olfactory perceptual similarity in nonhuman animals.
嗅觉通常被描述为行为反应迟缓,这表明在数百毫秒到数秒的时间尺度上的神经过程是产生嗅觉感知的候选机制。虽然最近的一项研究对这一观点提出了挑战,认为单次嗅闻就足以实现最佳嗅觉辨别,但亚伯拉罕等人在本期《神经元》杂志上发表的一项研究旨在通过证明辨别相似与不同刺激的处理时间增加来反驳这一挑战。在这里,我们对这两项研究进行了调和,我们认为这两项研究共同支持了在大约200毫秒内进行嗅觉辨别时速度与准确性权衡的观点。我们根据在非人类动物中定义嗅觉感知相似性所面临的挑战来讨论这些发现。