Perception of infrasound: Difference between revisions

In experiments using heart-rate conditioning, Pigeons have been found to be able to detect sounds in the infrasonic range at frequencies as low as 0.5&nbsp;Hz. For frequencies below 10&nbsp;Hz, the pigeon threshold is at about 55&nbsp;dB which is at least 50&nbsp;dB more sensitive than humans.<ref name="Kreithen & Quine 1979" /> Pigeons are able to discriminate small frequency differences in sounds at between 1&nbsp;Hz and 20&nbsp;Hz, with sensitivity ranging from a 1% shift at 20&nbsp;Hz to a 7% shift at 1&nbsp;Hz.<ref name="Quine 1981" /> Sensitivities are measured through a heart-rate conditioning test. In this test, an anesthetized bird is presented with a single sound or a sequence of sounds, followed by an electric shock. The bird’s heart-rate will increase in anticipation of a shock. Therefore, a measure of the heart-rate can determine whether the bird is able to distinguish between stimuli that would be followed by a shock from stimuli that would not.<ref name="Kreithen & Quine 1979" /><ref name="Quine 1981" /><ref>{{cite journal|last=Delius|first=J. D.|author2=R. M. Tarpy|title=Stimulus control of heart rate by auditory frequency and auditory pattern in pigeons|journal=Journal of the Experimental Analysis of Behavior|year=1974|volume=21|pages=297–306|doi=10.1901/jeab.1974.21-297}}</ref> Similar methods have also been used to determine the pigeon’s sensitivity to barometric pressure changes, polarized light, and UV light.<ref name="Kreithen & Quine 1979" /> These experiments were conducted in sound isolation chambers to avoid the influence of ambient noise. Infrasonic stimuli are hard to produce and are often transmitted through a filter that attenuates higher frequency components. Also, the tone burst stimuli used in these experiments were presented with stimulus onset and offsets ramped on and off gradually in order to prevent initial turn-on and turn-off transients.<ref name="Kreithen & Quine 1979" /> booty