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Effect of two opposing changes in photoperiod upon age at first egg in layer-hybrid pullets

Published online by Cambridge University Press:  05 August 2003

P. D. LEWIS
Affiliation:
Department of Clinical Veterinary Science, University of Bristol, Langford, Bristol, BS18 7DU, UK
T. R. MORRIS
Affiliation:
Department of Agriculture, University of Reading, Earley Gate, Reading, RG6 2AT, UK
G. C. PERRY
Affiliation:
Department of Clinical Veterinary Science, University of Bristol, Langford, Bristol, BS18 7DU, UK

Abstract

An experiment was designed to test the response of growing pullets to two changes in photoperiod (an increase from 8 to 14 h followed 5 weeks later by the reverse change, or a decrease from 14 to 8 h followed by an increase). The first change was made either at 35 days or at 56 days of age, to test the influence of age on the responses observed. Control groups were kept on constant 8-h and constant 14-h photoperiods and the responses to appropriate single changes were also tested. Mean age at first egg varied from 111 days for birds given a single increment at 56 days to 166 days for pullets given an increase in photoperiod at 35 days followed by a reduction at 70 days. Responses to the single changes confirmed earlier reports that sensitivity to change in photoperiod varies with age in a manner that is quantitatively predictable. Responses to the double changes could be explained by postulating that the initial change altered the ‘physiological age’ of the bird to an extent that was also quantitatively predictable. An early increase in photoperiod advances sexual development and makes the bird more sensitive to a subsequent decrease than would be expected by reference to its chronological age. An early decrease in photoperiod delays sexual development, which can have the effect of making the bird more or less sensitive to a subsequent increase since, in layer-strain pullets, sensitivity to an increment in photoperiod normally increases up to about 9 weeks of age but decreases thereafter. Mean age at first egg predicted using these concepts was very highly correlated with observed age at first egg. The results provide a rational basis for constructing a model to predict age at first egg for any combination of increases and decreases in photoperiod applied to growing pullets.

Type
Research Article
Copyright
© 2003 Cambridge University Press

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