Temporal Integrity of an Airborne Odor Stimulus is Greatly Affected by Physical Aspects of the Odor Delivery System

doi:10.1093/chemse/bjj040

Chemical Senses Advance Access originally published online on March 1, 2006
Chemical Senses 2006 31(4):359-369; doi:10.1093/chemse/bjj040

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Temporal Integrity of an Airborne Odor Stimulus is Greatly Affected by Physical Aspects of the Odor Delivery System

Richard S. Vetter¹, Amy E. Sage¹, Kristine A. Justus¹, Ring T. Cardé¹ and C. Giovanni Galizia¹^,2

¹ Department of Entomology, University of California, Riverside, CA 92521, USA and ² Universität Konstanz, D-78457 Konstanz, Germany

Correspondence to be sent to: C. Giovanni Galizia, Universität Konstanz, D-78457 Konstanz, Germany. e-mail: giovanni.galizia{at}uni-konstanz.de

There is currently a debate about the role played by temporalpatterns in neural activity in olfactory coding. An accurateanalysis of this question, however, is only possible if thetemporal properties of a stimulus itself are well defined. Sofar, no technique with sufficient temporal resolution has beenavailable to accomplish this. Using a photoionization detector(PID), we show that the configuration of the odor delivery apparatusand the airflow settings greatly influence the integrity ofa stimulus profile within an odor delivery apparatus. In a situationwhere pulsatile odor stimuli are applied to a stationary preparation,we tested the effect of 1) axial and off-center location withinthe airstream, 2) airflow of the odor delivery, 3) exit tubelength, 4) exit tube diameter, 5) orientation of the odor deliverydevice in relation to the exhaust flow, and 6) exhaust tubeair speed. This has important implications for the study oftime in olfaction; significant planning must be incorporatedinto the design of the experiment to provide a well-definedodor delivery system.

Key words: odor delivery, olfactometer, photoionization detector, temporal patterns, turbulence

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