Titlebook: Insect Chronobiology; Hideharu Numata,Kenji Tomioka Book 2023 The Editor(s) (if applicable) and The Author(s), under exclusive license to

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Circabidian Rhythm activity of the cool-weather mosquito . under constant darkness. In both humans and mosquitoes, the appearance of the circabidian rhythm is labile under constant conditions, and the rhythm does not continue for a long time. In contrast, the black chafer . exhibited a rigid 2-day circabidian rhythm

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Circadian Behavioral Rhythms in Social Insectst has been devoted to examining the chronobiology of social insects, likely because the lifestyle of most insects involves dense cohabitation of many individuals within small, dark places. This chapter reviews the circadian behavioral rhythms of social insects such as bees, ants, and termites, focus

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Environmental Adaptation and Evolution of Circadian Clocksevelopmental events such as hatching, pupariation, and eclosion. While the abiotic environment poses risks such as death or sterility due to extreme temperatures or desiccation, interactions with the biotic environment also give rise to other stressors such as energy expenditure, starvation, and pre

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Lunar and Tidal Rhythms and Clockscies managed to colonize this dynamic interface between marine and terrestrial habitats, displaying tidal and lunar rhythms. These rhythms are caused by endogenous time-keeping mechanisms, namely, circatidal and circalunar clocks, but to date, the molecular mechanisms of lunar and tidal time-keeping

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General Features of Photoperiodismd. Both responses coexist in some insects, and some threshold responses also show quantitative properties. Moreover, there are responses to gradual changes in photoperiod without crossing the threshold value. To explain all these responses, the mechanism of photoperiodism must retain quantitative in

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Neural Mechanism of Photoperiodismd counter in the brain. The processed signals are then switched to the endocrine organs. Neuroanatomy, microsurgery, and electrophysiology, in combination with RNA interference, have revealed plausible photoperiodic neural circuitries that employ circadian clock cells and neurosecretory cells in the

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