Static electric field detection and behavioural avoidance in cockroaches
Static electric field detection and behavioural avoidance in cockroaches
Electric fields are pervasively present in the environment and occur both as a result of man-made activities and through natural occurrence. We have analysed the behaviour of cockroaches to static electric fields and determined the physiological mechanisms that underlie their behavioural responses. The behaviour of animals in response to electric fields was tested using a Y-choice chamber with an electric field generated in one arm of the chamber. Locomotory behaviour and avoidance were affected by the magnitude of the electric fields with up to 85% of individuals avoiding the charged arm when the static electric field at the entrance to the arm was above 8–10kVm–1. Electric fields were found to cause a deflection of the antennae but when the antennae were surgically ablated, the ability of cockroaches to avoid electric fields was abolished. Fixation of various joints of the antennae indicated that hair plate sensory receptors at the base of the scape were primarily responsible for the detection of electric fields, and when antennal movements about the head–scape joint were prevented cockroaches failed to avoid electric fields. To overcome the technical problem of not being able to carry out electrophysiological analysis in the presence of electric fields, we developed a procedure using magnetic fields combined with the application of iron particles to the antennae to deflect the antennae and analyse the role of thoracic interneurones in signalling this deflection. The avoidance of electric fields in the context of high voltage power lines is discussed.
electric fields, high voltage, sensory, mechanoreception, behaviour, cockroach
3682-3690
Newland, Phillip L.
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Hunt, Edmund
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Sharkh, Suleiman M.
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Hama, Noriyuki
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Takahata, Masakazu
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Jackson, Christopher W.
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1 December 2008
Newland, Phillip L.
7a018c0e-37ba-40f5-bbf6-49ab0f299dbb
Hunt, Edmund
7ca45baa-8373-4fcd-bf1a-f224adf86a7a
Sharkh, Suleiman M.
c8445516-dafe-41c2-b7e8-c21e295e56b9
Hama, Noriyuki
be843f46-ac30-4a71-ac50-56079927695e
Takahata, Masakazu
377d0d49-f0bd-4274-8be1-135fbaf4566b
Jackson, Christopher W.
ab14e7be-1b25-4425-9e8f-6ccee5b984a8
Newland, Phillip L., Hunt, Edmund, Sharkh, Suleiman M., Hama, Noriyuki, Takahata, Masakazu and Jackson, Christopher W.
(2008)
Static electric field detection and behavioural avoidance in cockroaches.
Journal of Experimental Biology, 211 (23), .
(doi:10.1242/jeb.019901).
Abstract
Electric fields are pervasively present in the environment and occur both as a result of man-made activities and through natural occurrence. We have analysed the behaviour of cockroaches to static electric fields and determined the physiological mechanisms that underlie their behavioural responses. The behaviour of animals in response to electric fields was tested using a Y-choice chamber with an electric field generated in one arm of the chamber. Locomotory behaviour and avoidance were affected by the magnitude of the electric fields with up to 85% of individuals avoiding the charged arm when the static electric field at the entrance to the arm was above 8–10kVm–1. Electric fields were found to cause a deflection of the antennae but when the antennae were surgically ablated, the ability of cockroaches to avoid electric fields was abolished. Fixation of various joints of the antennae indicated that hair plate sensory receptors at the base of the scape were primarily responsible for the detection of electric fields, and when antennal movements about the head–scape joint were prevented cockroaches failed to avoid electric fields. To overcome the technical problem of not being able to carry out electrophysiological analysis in the presence of electric fields, we developed a procedure using magnetic fields combined with the application of iron particles to the antennae to deflect the antennae and analyse the role of thoracic interneurones in signalling this deflection. The avoidance of electric fields in the context of high voltage power lines is discussed.
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Static_electric_field_detection_and_behavioural_avoidance_in_cockroaches.pdf
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Published date: 1 December 2008
Keywords:
electric fields, high voltage, sensory, mechanoreception, behaviour, cockroach
Identifiers
Local EPrints ID: 73640
URI: http://eprints.soton.ac.uk/id/eprint/73640
ISSN: 0022-0949
PURE UUID: 69d2047e-0149-4dca-98a7-081ecbebca4f
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Date deposited: 11 Mar 2010
Last modified: 14 Mar 2024 02:41
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Contributors
Author:
Edmund Hunt
Author:
Noriyuki Hama
Author:
Masakazu Takahata
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