Corticosterone, fear behaviour and plasma corticosterone responses to stressors in Japanese quail : a thesis presented in partial fulfilment of the requirements for the degree of Doctor of Philosophy in Physiology at Massey University, Palmerston North, New Zealand
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Date
2010
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Massey University
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Abstract
Stress responses involve activation of the hypothalamo-pituitary-adrenal (HPA) axis
and the secretion of glucocorticoid hormones, and can help animals cope with changes
in their environments. Corticosterone is the primary glucocorticoid in birds and has
metabolic actions, and can affect behaviour and reproduction. Stimuli that activate the
HPA axis are called stressors, and stressors can be classified as either physical or
emotional. When animals respond to emotional stressors they also experience fear, and
the magnitude of a corticosterone response to an emotional stressor is thought to be
related to the degree of fearfulness that is experienced by a bird. The great majority of
studies have measured plasma corticosterone responses of birds to emotional rather than
physical stressors, and corticosterone responses to emotional stressors are assumed to
reflect the responsiveness of the HPA axis of birds to stressors in general. The aims of
the research described in this thesis were to determine the effects of corticosterone on
fear behaviour, reproductive function, and plasma corticosterone responses to stressors
in Japanese quail (Coturnix coturnix japonica), both during and after treatment, and to
examine if plasma corticosterone responses to similar emotional stressors, and to
different types of emotional and physical stressors are related in individual quail.
Plasma corticosterone concentrations were significantly higher in quail treated with
corticosterone in their drinking water compared with controls during a 21 day treatment
period, and concentrations remained elevated eight days after treatment ended.
Corticosterone had little or no effect on the fearfulness of quail in tonic immobility,
novel object or open field tests of fear behaviour. Body weight, food intake, egg
production and egg weight were significantly lower in some corticosterone treatment
groups than in controls during treatment and for up to 22 days after treatment ended.
Corticosterone concentrations in quail were generally unaffected after 24 h of fasting, so
the effects of elevated plasma corticosterone on corticosterone responses to a natural
stressor in quail could not be determined. Corticosterone had marked effects on the
physiology of quail for several weeks after treatment ended, suggesting that chronic
elevations in plasma corticosterone resulting from climate change or human disturbance
could have negative affects in birds even after exposure to a stressor ends.
There were significant positive relationships between the magnitudes of plasma
corticosterone responses to the emotional stressors of 15, 30 or 60 min handling
followed by 45, 30 or 0 min confinement respectively in individual Japanese quail.
Plasma corticosterone responses to 15 min handling followed by 45 min confinement
are commonly measured in domesticated species of birds, and the findings of the
present study suggest that magnitudes of responses to this standardised stressor may
reflect the responsiveness of the HPA axis of birds to emotional stressors in general.
Treatment with insulin and treatment with lipopolysaccharide (LPS) were shown to be
physical stressors in quail, and doses and blood sampling times determined in insulin
and LPS dose-response tests were used in a study of plasma corticosterone responses to
emotional and physical stressors in quail. There were no relationships between
corticosterone responses of individual birds subjected to emotional (handling) and
physical (insulin and LPS) stressors, whereas there were significant correlations in
responses of the birds to the two physical stressors. These results suggest that
corticosterone responses of birds to standardised emotional stressors such as handling
and confinement in domesticated species or capture and restraint in free-living species
may not reflect the responsiveness of the HPA axis of birds to stressors in general.
Given that quail displayed consistent individual differences in their plasma
corticosterone responses to emotional stressors and to physical stressors, but magnitudes
of corticosterone responses to both classes of stressor were unrelated in individual quail,
these findings suggest that birds may possess at least two quite distinct stress responses
to help them cope with changes in their environments.
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Keywords
Japanese quail, Coturnix coturnix japonica, Stress response, Fear behaviour, Corticosterone plasma, Hypothalamo-pituitary-adrenal (HPA) axis