Photophysiological cycles in Arctic krill are entrained by weak midday twilight during the Polar Night

Light plays a fundamental role in the ecology of organisms in nearly all habitats on Earth and is central for processes such as vision and the entrainment of the circadian clock. The poles represent extreme light regimes with an annual light cycle including periods of Midnight Sun and Polar Night. T...

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Veröffentlicht in:	PLoS biology 2021-10, Vol.19 (10), p.e3001413-e3001413
Hauptverfasser:	Cohen, Jonathan H, Last, Kim S, Charpentier, Corie L, Cottier, Finlo, Daase, Malin, Hobbs, Laura, Johnsen, Geir, Berge, Jørgen
Format:	Artikel
Sprache:	eng
Schlagworte:	Acoustics Animals Aquatic Organisms - physiology Atmosphere Auroras Biological clocks Biology and Life Sciences Circadian rhythm Circadian Rhythm - radiation effects Circadian rhythms Darkness Earth Sciences Ecology and Environmental Sciences Electroretinograms Entrainment Euphausiacea - physiology Euphausiacea - radiation effects Krill Light Matematikk og Naturvitenskap: 400 Mathematics and natural science: 400 Migratory species Models, Biological Night North Pole Observatories Organisms Physical Sciences Physiological aspects Physiology Polar environments Research ships Sensitivity Short Reports Social Sciences Sun Thysanoessa inermis VDP Vertical migrations Vision Vision, Ocular - physiology Visual observation Zoologiske og botaniske fag: 480 Zoology and botany: 480 Zooplankton Zooplankton - physiology
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creator	Cohen, Jonathan H Last, Kim S Charpentier, Corie L Cottier, Finlo Daase, Malin Hobbs, Laura Johnsen, Geir Berge, Jørgen
description	Light plays a fundamental role in the ecology of organisms in nearly all habitats on Earth and is central for processes such as vision and the entrainment of the circadian clock. The poles represent extreme light regimes with an annual light cycle including periods of Midnight Sun and Polar Night. The Arctic Ocean extends to the North Pole, and marine light extremes reach their maximum extent in this habitat. During the Polar Night, traditional definitions of day and night and seasonal photoperiod become irrelevant since there are only "twilight" periods defined by the sun's elevation below the horizon at midday; we term this "midday twilight." Here, we characterize light across a latitudinal gradient (76.5° N to 81° N) during Polar Night in January. Our light measurements demonstrate that the classical solar diel light cycle dominant at lower latitudes is modulated during Arctic Polar Night by lunar and auroral components. We therefore question whether this particular ambient light environment is relevant to behavioral and visual processes. We reveal from acoustic field observations that the zooplankton community is undergoing diel vertical migration (DVM) behavior. Furthermore, using electroretinogram (ERG) recording under constant darkness, we show that the main migratory species, Arctic krill (Thysanoessa inermis) show endogenous increases in visual sensitivity during the subjective night. This change in sensitivity is comparable to that under exogenous dim light acclimations, although differences in speed of vision suggest separate mechanisms. We conclude that the extremely weak midday twilight experienced by krill at high latitudes during the darkest parts of the year has physiological and ecological relevance.
doi_str_mv	10.1371/journal.pbio.3001413
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We reveal from acoustic field observations that the zooplankton community is undergoing diel vertical migration (DVM) behavior. Furthermore, using electroretinogram (ERG) recording under constant darkness, we show that the main migratory species, Arctic krill (Thysanoessa inermis) show endogenous increases in visual sensitivity during the subjective night. This change in sensitivity is comparable to that under exogenous dim light acclimations, although differences in speed of vision suggest separate mechanisms. 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We reveal from acoustic field observations that the zooplankton community is undergoing diel vertical migration (DVM) behavior. Furthermore, using electroretinogram (ERG) recording under constant darkness, we show that the main migratory species, Arctic krill (Thysanoessa inermis) show endogenous increases in visual sensitivity during the subjective night. This change in sensitivity is comparable to that under exogenous dim light acclimations, although differences in speed of vision suggest separate mechanisms. 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subjects	Acoustics Animals Aquatic Organisms - physiology Atmosphere Auroras Biological clocks Biology and Life Sciences Circadian rhythm Circadian Rhythm - radiation effects Circadian rhythms Darkness Earth Sciences Ecology and Environmental Sciences Electroretinograms Entrainment Euphausiacea - physiology Euphausiacea - radiation effects Krill Light Matematikk og Naturvitenskap: 400 Mathematics and natural science: 400 Migratory species Models, Biological Night North Pole Observatories Organisms Physical Sciences Physiological aspects Physiology Polar environments Research ships Sensitivity Short Reports Social Sciences Sun Thysanoessa inermis VDP Vertical migrations Vision Vision, Ocular - physiology Visual observation Zoologiske og botaniske fag: 480 Zoology and botany: 480 Zooplankton Zooplankton - physiology
title	Photophysiological cycles in Arctic krill are entrained by weak midday twilight during the Polar Night
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