The role of contact chemoreception in egg-laying behaviour of locusts.
The role of contact chemoreception in egg-laying behaviour of locusts.
Following selection of an appropriate egg-laying site desert locusts lay their eggs at depths in soil by digging their abdomen into the substrate using rhythmic movements of their abdomen and hard, sclerotised ovipositor valves. We have analysed the role of contact chemoreception on egg-laying behaviour and on the rhythmic digging movements of the valves. All chemicals tested acted aversively and reduced both the duration spent egg-laying and the number of eggs laid, with the concentration at which they became aversive being dependent on whether the chemical was normally present in the diet. Chemicals such as sucrose and a lysine glutamate salt prevented egg-laying only at much higher concentrations than known anti-feedants such as nicotine hydrogen tartrate and hydroquinine. Similarly for animals in which fictive digging movements were induced all chemicals stopped the digging rhythm, with sucrose and sodium chloride inhibiting the rhythm at relatively high concentrations compared to NHT and hydroquinone. We conclude that for both egg-laying behaviour and rhythmic digging that the aversiveness of a chemical rather than its identity per se plays a major role in regulating behaviour.
oviposition, gustation, chemoreception, behaviour, grasshopper
273-85
Newland, Philip L.
7a018c0e-37ba-40f5-bbf6-49ab0f299dbb
Yates, Paul
8af40dea-121b-4204-affd-86d76a2f5ab1
January 2008
Newland, Philip L.
7a018c0e-37ba-40f5-bbf6-49ab0f299dbb
Yates, Paul
8af40dea-121b-4204-affd-86d76a2f5ab1
Newland, Philip L. and Yates, Paul
(2008)
The role of contact chemoreception in egg-laying behaviour of locusts.
Journal of Insect Physiology, 54 (1), .
(doi:10.1016/j.jinsphys.2007.09.011).
Abstract
Following selection of an appropriate egg-laying site desert locusts lay their eggs at depths in soil by digging their abdomen into the substrate using rhythmic movements of their abdomen and hard, sclerotised ovipositor valves. We have analysed the role of contact chemoreception on egg-laying behaviour and on the rhythmic digging movements of the valves. All chemicals tested acted aversively and reduced both the duration spent egg-laying and the number of eggs laid, with the concentration at which they became aversive being dependent on whether the chemical was normally present in the diet. Chemicals such as sucrose and a lysine glutamate salt prevented egg-laying only at much higher concentrations than known anti-feedants such as nicotine hydrogen tartrate and hydroquinine. Similarly for animals in which fictive digging movements were induced all chemicals stopped the digging rhythm, with sucrose and sodium chloride inhibiting the rhythm at relatively high concentrations compared to NHT and hydroquinone. We conclude that for both egg-laying behaviour and rhythmic digging that the aversiveness of a chemical rather than its identity per se plays a major role in regulating behaviour.
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Published date: January 2008
Keywords:
oviposition, gustation, chemoreception, behaviour, grasshopper
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Local EPrints ID: 142255
URI: http://eprints.soton.ac.uk/id/eprint/142255
ISSN: 0022-1910
PURE UUID: 9e6f7cd2-b7e3-41ff-8eaa-134c2b75dd8a
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Date deposited: 01 Apr 2010 14:24
Last modified: 14 Mar 2024 02:41
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Paul Yates
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