Circadian Rhythm Disturbances Due to Exposure to Acidified Conditions and Different Photoperiods in Juvenile Olive Flounder (Paralichthys olivaceus)

Carbon dioxide (CO 2 ) is being continuously discharged into the atmosphere and is now at a concentration sufficient to cause ocean acidification. In particular, it has been reported that changes in carbonate concentration in seawater by ocean acidification can inhibit olfactory function and predato...

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Published in	Ocean science journal Vol. 56; no. 2; pp. 198 - 206
Main Authors	Lee, Dae-Won, Song, Jin Ah, Park, Heung-Sik, Choi, Cheol Young
Format	Journal Article
Language	English
Published	Seoul Korea Institute of Ocean Science & Technology and The Korean Society of Oceanography 01.06.2021 Springer Nature B.V 한국해양과학기술원
Subjects	Acidification Aquatic Pollution Carbon dioxide Carbonates Circadian rhythm Circadian rhythms Earth and Environmental Science Earth Sciences Environmental factors Fish Juveniles Marine & Freshwater Sciences Marine fishes Ocean acidification Oceanography Olfaction Paralichthys olivaceus Photoperiods Predators Seawater Survival Waste Water Technology Water Management Water Pollution Control 해양학 Ocean acidification Melatonin
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ISSN	1738-5261 2005-7172
DOI	10.1007/s12601-021-00018-y

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Abstract	Carbon dioxide (CO 2 ) is being continuously discharged into the atmosphere and is now at a concentration sufficient to cause ocean acidification. In particular, it has been reported that changes in carbonate concentration in seawater by ocean acidification can inhibit olfactory function and predator avoidance ability in fish and affect their circadian rhythm. However, although increased CO 2 concentration in seawater is an important environmental factor affecting fish survival, only a few studies have been conducted to evaluate the effect of CO 2 and different photoperiods. Therefore, in this study, we investigated changes in the circadian rhythm of juvenile olive flounder ( Paralichthys olivaceus ) under different light conditions (12 h ligh:12 h dark; constant dark; constant light) and CO 2 exposure levels (pH 8.1, 7.8, and 7.5), by analyzing changes in plasma concentrations of Cryptochrome1 and Period2, which are secreted during the day (light conditions), and melatonin, which is secreted at night (dark conditions). CO 2 exposure led to phase shifts (temporarily abolished, phase delayed, or reversed) in the rhythm of juveniles. In conclusion, CO 2 exposure, along with changes in photoperiods, increases the disturbance in the circadian rhythm of juvenile P. olivaceus .
AbstractList	Carbon dioxide (CO2) is being continuously discharged into the atmosphere and is now at a concentration sufficient to cause ocean acidification. In particular, it has been reported that changes in carbonate concentration in seawater by ocean acidification can inhibit olfactory function and predator avoidance ability in fish and affect their circadian rhythm. However, although increased CO2 concentration in seawater is an important environmental factor affecting fish survival, only a few studies have been conducted to evaluate the effect of CO2 and different photoperiods. Therefore, in this study, we investigated changes in the circadian rhythm of juvenile olive flounder (Paralichthys olivaceus) under different light conditions (12 h ligh:12 h dark; constant dark; constant light) and CO2 exposure levels (pH 8.1, 7.8, and 7.5), by analyzing changes in plasma concentrations of Cryptochrome1 and Period2, which are secreted during the day (light conditions), and melatonin, which is secreted at night (dark conditions). CO2 exposure led to phase shifts (temporarily abolished, phase delayed, or reversed) in the rhythm of juveniles. In conclusion, CO2 exposure, along with changes in photoperiods, increases the disturbance in the circadian rhythm of juvenile P. olivaceus. Carbon dioxide (CO2) is being continuously discharged into the atmosphere and is now at a concentration sufficient to cause ocean acidification. In particular, it has been reported that changes in carbonate concentration in seawater by ocean acidification can inhibit olfactory function and predator avoidance ability in fish and affect their circadian rhythm. However, although increased CO2 concentration in seawater is an important environmental factor affecting fish survival, only a few studies have been conducted to evaluate the effect of CO2 and different photoperiods. Therefore, in this study, we investigated changes in the circadian rhythm of juvenile olive flounder (Paralichthys olivaceus) under different light conditions (12 h ligh:12 h dark; constant dark; constant light) and CO2 exposure levels (pH 8.1, 7.8, and 7.5), by analyzing changes in plasma concentrations of Cryptochrome1 and Period2, which are secreted during the day (light conditions), and melatonin, which is secreted at night (dark conditions). CO2 exposure led to phase shifts (temporarily abolished, phase delayed, or reversed) in the rhythm of juveniles. In conclusion, CO2 exposure, along with changes in photoperiods, increases the disturbance in the circadian rhythm of juvenile P. olivaceus. KCI Citation Count: 0 Carbon dioxide (CO 2 ) is being continuously discharged into the atmosphere and is now at a concentration sufficient to cause ocean acidification. In particular, it has been reported that changes in carbonate concentration in seawater by ocean acidification can inhibit olfactory function and predator avoidance ability in fish and affect their circadian rhythm. However, although increased CO 2 concentration in seawater is an important environmental factor affecting fish survival, only a few studies have been conducted to evaluate the effect of CO 2 and different photoperiods. Therefore, in this study, we investigated changes in the circadian rhythm of juvenile olive flounder ( Paralichthys olivaceus ) under different light conditions (12 h ligh:12 h dark; constant dark; constant light) and CO 2 exposure levels (pH 8.1, 7.8, and 7.5), by analyzing changes in plasma concentrations of Cryptochrome1 and Period2, which are secreted during the day (light conditions), and melatonin, which is secreted at night (dark conditions). CO 2 exposure led to phase shifts (temporarily abolished, phase delayed, or reversed) in the rhythm of juveniles. In conclusion, CO 2 exposure, along with changes in photoperiods, increases the disturbance in the circadian rhythm of juvenile P. olivaceus .
Author	Song, Jin Ah Lee, Dae-Won Park, Heung-Sik Choi, Cheol Young
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Cites_doi	10.1016/j.ecoenv.2018.02.068 10.1201/b16110 10.3389/fendo.2019.00279 10.1093/molbev/msl188 10.1016/j.marenvres.2017.01.007 10.1111/j.1095-8649.2001.tb02262.x 10.1038/nclimate3087 10.3390/ijms14047979 10.1371/journal.pone.0144158 10.1016/j.neuron.2015.02.016 10.1530/JOE-16-0330 10.1016/j.jembe.2012.05.017 10.1111/j.1600-079x.2007.00442.x 10.1074/jbc.r600036200 10.1016/s0092-8674(00)80566-8 10.1007/978-3-642-73336-9_8 10.1080/09291016.2017.1385977 10.1016/j.ygcen.2009.04.026 10.1038/425365a 10.1016/s0006-8993(03)03001-4 10.1016/j.marenvres.2018.04.006 10.1371/journal.pbio.0030351 10.1038/nclimate1352 10.1242/jeb.179267 10.3354/meps07823 10.2174/0929867053764635 10.5194/bg-8-1631-2011 10.1111/j.1471-4159.2009.06223.x 10.1111/j.1461-0248.2009.01400.x 10.1073/pnas.0809996106
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Snippet	Carbon dioxide (CO 2 ) is being continuously discharged into the atmosphere and is now at a concentration sufficient to cause ocean acidification. In... Carbon dioxide (CO2) is being continuously discharged into the atmosphere and is now at a concentration sufficient to cause ocean acidification. In particular,...
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SubjectTerms	Acidification Aquatic Pollution Carbon dioxide Carbonates Circadian rhythm Circadian rhythms Earth and Environmental Science Earth Sciences Environmental factors Fish Juveniles Marine & Freshwater Sciences Marine fishes Ocean acidification Oceanography Olfaction Paralichthys olivaceus Photoperiods Predators Seawater Survival Waste Water Technology Water Management Water Pollution Control 해양학
Title	Circadian Rhythm Disturbances Due to Exposure to Acidified Conditions and Different Photoperiods in Juvenile Olive Flounder (Paralichthys olivaceus)
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