Light at Night and Disrupted Circadian Rhythms Alter Physiology and Behavior

Overview

Journal Integr Comp Biol

Publisher Oxford University Press

Specialty Biology

Date 2021 Mar 31

PMID 33787878

Citations 18

Authors

Jacob R Bumgarner

Randy J Nelson

Affiliations

Soon will be listed here.

Abstract

Life on earth has evolved during the past several billion years under relatively bright days and dark nights. Virtually all organisms on the planet display an internal representation of the solar days in the form of circadian rhythms driven by biological clocks. Nearly every aspect of physiology and behavior is mediated by these internal clocks. The widespread adoption of electric lights during the past century has exposed animals, including humans, to significant light at night (LAN) for the first time in our evolutionary history. Importantly, endogenous circadian clocks depend on light for synchronization with the external daily environment. Thus, LAN can derange temporal adaptations. Indeed, disruption of natural light-dark cycles results in several physiological and behavioral changes. In this review, we highlight recent evidence demonstrating how LAN exposure can have serious implications for adaptive physiology and behavior, including immune, endocrine, and metabolic function, as well as reproductive, foraging, and migratory behavior. Lastly, strategies to mitigate the consequences of LAN on behavior and physiology will be considered.

Citing Articles

Dim light at night unmasks sex-specific differences in circadian and autonomic regulation of cardiovascular physiology.

Prabhat A, Sami D, Ehlman A, Stumpf I, Seward T, Su W Commun Biol. 2024; 7(1):1191.

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Blue Light and Temperature Actigraphy Measures Predicting Metabolic Health Are Linked to Melatonin Receptor Polymorphism.

Gubin D, Danilenko K, Stefani O, Kolomeichuk S, Markov A, Petrov I Biology (Basel). 2024; 13(1).

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Association between exposure to outdoor artificial light at night and the risk of preterm birth.

Sun Q, Yang Y, Liu J, Ye F, Chen Y, Liu D Front Public Health. 2024; 11:1280790.

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Energy deficiency promotes rhythmic foraging behavior by activating neurons in paraventricular hypothalamic nucleus.

Wu S, Wang J, Xu Y, Zhang Z, Jin X, Liang Y Front Nutr. 2023; 10:1278906.

PMID: 37899828 PMC: 10600490. DOI: 10.3389/fnut.2023.1278906.

Acute exposure to artificial light at night alters hippocampal vascular structure in mice.

Bumgarner J, Walker 2nd W, Quintana D, White R, Richmond A, Melendez-Fernandez O iScience. 2023; 26(7):106996.

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