Abstract
The position of the Moon in relation to the Earth and the Sun gives rise to several predictable cycles, and natural changes in nighttime light intensity are known to cause alterations to physiological processes and behaviors in many animals. The limited research undertaken to date on the physiological responses of animals to the lunar illumination has exclusively focused on the synodic lunar cycle (full moon to full moon, or moon phase) but the moon's orbit—its distance from the Earth—may also be relevant. Every month, the moon moves from apogee, its most distant point from Earth—and then to perigee, its closest point to Earth. Here, we studied wild barnacle geese (Branta leucopsis) to investigate the influence of multiple interacting lunar cycles on the physiology of diurnally active animals. Our study, which uses biologging technology to continually monitor body temperature and heart rate for an entire annual cycle, asks whether there is evidence for a physiological response to natural cycles in lunar brightness in wild birds, particularly “supermoon” phenomena, where perigee coincides with a full moon. There was a three‐way interaction between lunar phase, lunar distance, and cloud cover as predictors of nighttime mean body temperature, such that body temperature was highest on clear nights when the full moon coincided with perigee moon. Our study is the first to report the physiological responses of wild birds to “supermoon” events; the wild geese responded to the combination of two independent lunar cycles, by significantly increasing their body temperature at night. That wild birds respond to natural fluctuations in nighttime ambient light levels support the documented responses of many species to anthropogenic sources of artificial light, that birds seem unable to override. As most biological systems are arguably organized foremost by light, this suggests that any interactions between lunar cycles and local weather conditions could have significant impacts on the energy budgets of birds.
Highlights
In many animals, alterations to physiological processes and be‐ haviors often occur at times which coincide with optimal condi‐ tions for key life‐history events such as reproduction, migration, or molt (Raible, Takekata, & Essmar‐Raible, 2017)
Our study is the first to report the physiological responses of wild birds to “supermoon” events
The wild geese responded to the com‐ bination of two independent lunar cycles, by significantly increasing their body temperature (Tab) during “supermoon” events
Summary
Alterations to physiological processes and be‐ haviors often occur at times which coincide with optimal condi‐ tions for key life‐history events such as reproduction, migration, or molt (Raible, Takekata, & Essmar‐Raible, 2017) This co‐occur‐ rence can be observed at multiple scales, including annual, diur‐ nal, tidal, and solar cycles (Cheeseman, Fewster, & Walker, 2017). A typical summer full moon, for example, at temperate latitudes provides only about 0.05–0.1 lux, compared a “supermoon” in the tropics directly overhead potentially providing up to 0.36 lux (Kyba et al, 2017) This potential influence has never previously been investigated, and has yet to be integrated into the synodic lunar cycle, in order to fully understand how these two cycles interact to influence the physiology of animals. Our study, which uses biologging technol‐ ogy to study body temperature and heart rate, asks whether there is evidence for a physiological response to natural cycles in lunar brightness, “supermoon” phenomena, in wild birds
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