Miyazaki Yosuke, Numata Hideharu
Department of Biology and Geosciences, Graduate School of Science, Osaka City University, Osaka 558-8585, Japan.
J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 2009 Mar;195(3):241-6. doi: 10.1007/s00359-008-0401-8. Epub 2008 Dec 18.
The circannual pupation rhythm of Anthrenus verbasci is entrained to an environmental cycle by changes in photoperiod. Exposure of larvae reared under short-day conditions to 4 weeks of long days can induce phase-dependent phase shifts. In the present study, we examined the range of photoperiodic changes effective for phase shifts at 20 degrees C. For larvae under light/dark (LD) 12:12 conditions, 4-week exposure to LD 14:10 caused a clear phase delay, as great an extent as that brought about by exposure to LD 15:9 and LD 16:8. In contrast, the delay brought about by exposure to LD 13:9 was slight. For larvae under LD 10:14, exposure to LD 14:10 and LD 16:8 for 4 weeks induced a phase delay, but exposure to LD 12:12 did not. These results indicate that a clear phase delay is induced when the photoperiodic change exceeds a critical value in the photophase between 13 and 14 h, regardless of the amplitude of the change. Although phase advances were smaller than phase delays, they depended on the amplitude of photoperiodic changes rather than the absolute photophase duration in contrast to the case of the phase delay.
衣蛾的年周期化蛹节律通过光周期变化与环境周期同步。将在短日照条件下饲养的幼虫暴露于长日照4周可诱导依赖阶段的相位变化。在本研究中,我们研究了在20摄氏度下对相位变化有效的光周期变化范围。对于处于12小时光照/12小时黑暗(LD 12:12)条件下的幼虫,暴露于LD 14:10 4周会导致明显的相位延迟,延迟程度与暴露于LD 15:9和LD 16:8时相同。相比之下,暴露于LD 13:9引起的延迟较小。对于处于LD 10:14条件下的幼虫,暴露于LD 14:10和LD 16:8 4周会诱导相位延迟,但暴露于LD 12:12则不会。这些结果表明,当光周期变化超过13至14小时光期的临界值时,无论变化幅度如何,都会诱导明显的相位延迟。尽管相位提前小于相位延迟,但与相位延迟的情况相反,它们取决于光周期变化的幅度而非绝对光期持续时间。
