The Sniff as a Unit of Olfactory Processing

doi:10.1093/chemse/bjj016

Chemical Senses Advance Access originally published online on December 8, 2005
Chemical Senses 2006 31(2):167-179; doi:10.1093/chemse/bjj016

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The Sniff as a Unit of Olfactory Processing

Adam Kepecs, Naoshige Uchida and Zachary F. Mainen

Cold Spring Harbor Laboratory, 1 Bungtown Road, Cold Spring Harbor, NY 11724, USA

Correspondence to be sent to: Zachary F. Mainen, Cold Spring Harbor Laboratory, 1 Bungtown Road, Cold Spring Harbor, NY 11724, USA. e-mail: zach{at}cshl.org

Sniffing is a rhythmic motor process essential for the acquisitionof olfactory information. Recent behavioral experiments showthat using a single sniff rats can accurately discriminate betweenvery similar odors and fail to improve their accuracy by takingmultiple sniffs. This implies that each sniff has the potentialto provide a complete snapshot of the local olfactory environment.The discrete and intermittent nature of sniffing has implicationsbeyond the physical process of odor capture as it strongly shapesthe flow of information into the olfactory system. We reviewelectrophysiological studies—primarily from anesthetizedrodents—demonstrating that olfactory neural responsesare coupled to respiration. Hence, the "sniff cycle" might playa role in odor coding, by allowing the timing of spikes withrespect to the phase of the respiration cycle to encode informationabout odor identity or concentration. We also discuss behavioraland physiological results indicating that sniffing can be dynamicallycoordinated with other rhythmic behaviors, such as whisking,as well as with rhythmic neural activity, such as hippocampaltheta oscillations. Thus, the sniff cycle might also facilitatethe coordination of the olfactory system with other brain areas.These converging lines of empirical data support the notionthat each sniff is a unit of olfactory processing relevant forboth neural coding and inter-areal coordination. Further electrophysiologicalrecordings in behaving animals will be necessary to assess theseproposals.

Key words: active sensation, gamma rhythm, hippocampus, neural coding, theta rhythm, whisking

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				D. O. Pimentel and T. W. Margrie Glutamatergic transmission and plasticity between olfactory bulb mitral cells J. Physiol., April 15, 2008; 586(8): 2107 - 2119. [Abstract] [Full Text] [PDF]

				K. C. Catania, J. F. Hare, and K. L. Campbell Water shrews detect movement, shape, and smell to find prey underwater PNAS, January 15, 2008; 105(2): 571 - 576. [Abstract] [Full Text] [PDF]

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