Add to ORKGIn order to better understand insect hearing, different approaches must be combined to investigate how insect ears detect the different properties of a sound wave, how this signal is transmitted to the central nervous system, and how this information translates into an appropriate behavioural response. The tympanal hearing of the desert locust Schistocerca gregaria has already been the subject of numerous studies investigating membrane mechanics, neurophysiology, and ethology over the past few years. In this context, we are studying the impact of tympanal structure on frequency analysis in the locust. Membrane mechanics have already been investigated in locusts using laser Doppler vibrometry to record tympanal displacement in previous studi...
Frequency analysis in the mammalian cochlea depends on the propagation of frequency information in t...
Anatomically, the ears of moths are considered to be among the simplest ears found in animals. Micro...
The ears of insects exhibit a broad functional diversity with the ability to detect sounds across a ...
In order to better understand insect hearing, different approaches must be combined to investigate h...
One of the models of insect tympanal hearing, the desert locust Schistocerca gregaria, has already b...
One of the models of insect tympanal hearing, the desert locust Schistocerca gregaria, has already b...
A salient characteristic of most auditory systems is their capacity to analyse the frequency of soun...
Hearing animals, including many vertebrates and insects, have the capacity to analyse the frequency ...
In the ear of the desert locust frequency analysis arises from the mechanical properties of the tymp...
Poster Session held on Monday 29th June 2009 at the Annual Main Meeting of the Society of Experiment...
Distortion-product otoacoustic emissions (DPOAEs) are present in non-linear hearing organs, and for ...
Frequency analysis in the mammalian cochlea depends on the propagation of frequency information in t...
Anatomically, the ears of moths are considered to be among the simplest ears found in animals. Micro...
The ears of insects exhibit a broad functional diversity with the ability to detect sounds across a ...
In order to better understand insect hearing, different approaches must be combined to investigate h...
One of the models of insect tympanal hearing, the desert locust Schistocerca gregaria, has already b...
One of the models of insect tympanal hearing, the desert locust Schistocerca gregaria, has already b...
A salient characteristic of most auditory systems is their capacity to analyse the frequency of soun...
Hearing animals, including many vertebrates and insects, have the capacity to analyse the frequency ...
In the ear of the desert locust frequency analysis arises from the mechanical properties of the tymp...
Poster Session held on Monday 29th June 2009 at the Annual Main Meeting of the Society of Experiment...
Distortion-product otoacoustic emissions (DPOAEs) are present in non-linear hearing organs, and for ...
Frequency analysis in the mammalian cochlea depends on the propagation of frequency information in t...
Anatomically, the ears of moths are considered to be among the simplest ears found in animals. Micro...
The ears of insects exhibit a broad functional diversity with the ability to detect sounds across a ...