The non-photic induction of spermatogenic development in European starlings

Abstract

Detailed studies of the photosexual biology of male European starlings (Sturnus vulgaris) document a non-obligatory involvement of photoperiod in the induction of testicular metamorphosis. Although post-winter solstice increases in daily photophase duration are responsible for the ecologically correct chronology of the annual reproductive cycle, starlings maintained in the absence of daily photostimulation under go testicular metamorphosis with complete spermatogenic development. Present experiments reveal that the rate of testicular growth in starlings held in constant darkness (DD) is affected by previous photoperiodic experience. Birds held under a natural northtemperate zone photoperiod and transferred to DD on 13 September require significantly fewer days to achieve spermatogenic testes than birds pretreated under 12-and 14-h photoperiods or in constant light (LL). Complete spermatogenesis in the 14-h group is achieved only after a greater duration of DD exposure than in all other birds. Variations in the extent of the 12-h pretreatment period do not alter the testis growth rate in starlings subsequently transferred to DD. It is suggested that photoperiodic conditions applied prior to the initiation of DD treatment may affect the characteristics of circadian oscillations that occur in the absence of a photoperiodic zeitgeber, and thus change the reproductive response rate through alterations of hormonal secretions from the hypothalamo-hypophyseal axis.