Journal article
Northern fowl mite orientation in a thermal gradient and evidence for idiothetic course control
Physiological entomology, Vol.30(3), pp.293-302
09/2005
Handle:
https://hdl.handle.net/2376/117110
Abstract
. The northern fowl mite, Ornithonyssus sylviarum, is an ectoparasite of birds and a poultry pest. The ability of northern fowl mites to orientate to a heat source is investigated with individual mites video‐recorded in two‐dimensional arenas and exposed to spatial or temporal heat gradients. Recorded tracks are digitally analysed for variation in linear velocity, mean direction of movement, and patterns in angular displacement. Mean direction of movement in a spatial gradient is significantly associated with the position of the heat source for 24/29 mites tested (P < 0.05), whereas most control (no heat) mean bearings are randomly distributed (16/25; P > 0.1). Angular displacement that orientates a mite towards the heat source is positively correlated with the preceding deviation from that direction (P < 0.01). Angular displacement away from the heat source is random. The temporal heat gradient is such that no spatial reference to the heat source exists within the plane of the arena. Mites in an ambient (27 °C) to heated (30 °C) transition have angular displacement distributions similar to control mites (ambient to ambient transition). However, mites in a heated to ambient transition execute angular displacements approximately 25° greater than mites in the other treatments (P < 0.03). Mites compare the shift in temperature over time and alter their direction of movement by a programmed (idiothetic) response to a decrease in temperature, rather than through detection of the spatial position of the gradient (allothetic).
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Details
- Title
- Northern fowl mite orientation in a thermal gradient and evidence for idiothetic course control
- Creators
- Jeb P OwenBradley A MullensKristine A JustusRing T Cardé
- Publication Details
- Physiological entomology, Vol.30(3), pp.293-302
- Academic Unit
- Entomology, Department of
- Publisher
- Blackwell Science Ltd; Oxford, UK; Malden, USA
- Identifiers
- 99900548591601842
- Language
- English
- Resource Type
- Journal article