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The relationship between plasma testosterone concentrations and the seasonal variation in voluntary feed intake in fallow bucks (Dama dama)

Published online by Cambridge University Press:  01 May 1998

R. E. NEWMAN
Affiliation:
CSIRO Division of Animal Production, Locked Bag 1, Delivery Centre, Blacktown NSW 2148, Australia Department of Animal Science, University of Sydney, Camden NSW 2570, Australia
S. J. McCONNELL
Affiliation:
CSIRO Division of Animal Production, Locked Bag 1, Delivery Centre, Blacktown NSW 2148, Australia
R. H. WESTON
Affiliation:
CSIRO Division of Animal Production, Locked Bag 1, Delivery Centre, Blacktown NSW 2148, Australia
M. REEVES
Affiliation:
Department of Animal Science, University of Sydney, Camden NSW 2570, Australia
C. BERNASCONI
Affiliation:
Department of Physiology and Pharmacology, University of NSW, Kensington NSW 2033, Australia
P. J. BAKER
Affiliation:
CSIRO Division of Animal Production, Locked Bag 1, Delivery Centre, Blacktown NSW 2148, Australia
P. C. WYNN
Affiliation:
Department of Animal Science, University of Sydney, Camden NSW 2570, Australia

Abstract

In two experiments conducted at Badgery's Creek, NSW (Latitude 34°S) the roles of testosterone and the thyroid hormones triiodothyronine (T3) and thyroxine (T4) as possible initiators of the change in voluntary feed intake (VFI) associated with the seasonal reproductive behaviour (rut) in male fallow deer were investigated.

In Expt 1, the association between changes in these hormones with the onset of the rut was assessed in deer in which the timing of this event was manipulated by changing the photoperiod, or by melatonin administration. Groups were maintained under either natural photoperiod (n=6; control), a constant long daylength (16 h light[ratio ]8 h dark; n=9; LD group) or a constant long daylength and implanted with melatonin capsules (n=5; LD+M group) for 7 months from December until the following July. Blood samples were obtained weekly and VFI recorded.

Feed intake decreased by 94% from the last week of March for 3 weeks in the control group. Changes of a similar magnitude were measured in the LD and LD+M groups but these changes were advanced by 1 and 9 weeks respectively in these groups. In all groups, circulating testosterone concentrations increased markedly at a time corresponding with the decrease in VFI. The concentrations returned to basal levels with the resumption in VFI. A distinct decrease in plasma concentrations of T3 and T4 in all three groups was associated with the decrease in VFI, however, the relationship with T3 was less apparent.

In Expt 2, the role of testosterone in the regulation of the decline in VFI was investigated. Fallow bucks were treated with testosterone enanthate every 4 or 5 days for 28 days up to 6 weeks prior to the expected onset of the rut. Plasma testosterone concentrations, which were increased 13-fold, resulted in a decline in VFI which was comparable to that observed in the subsequent rut. Plasma free fatty acid concentrations were correlated negatively with the decline in VFI.

Thus, the seasonal increase in circulating testosterone concentrations plays an important role in initiating the fall in VFI associated with the rut. As the rut was still apparent in animals maintained under an extended photoperiod, it is possible that factors other than decreasing daylength act as the cue for the timing of the rut.

Type
Research Article
Copyright
© 1998 Cambridge University Press

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