Artificial Light at Night, Higher Brain Functions and Associated Neuronal Changes: An Avian Perspective

Q4 Agricultural and Biological Sciences Western Birds Pub Date : 2022-01-21 DOI:10.3390/birds3010003
S. T. Taufique
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引用次数: 2

Abstract

In recent times, there has been an unprecedented increase in usage of electrical lightning. This has led to increase in artificial light at night (ALAN), and it has been suggested as a source of environmental pollution. ALAN exposure has been reported to be associated with disruption of daily rhythms and serious health consequences, such as immune, metabolic, and cognitive dysfunctions in both birds and mammals. Given the worldwide pervasiveness of ALAN, this research topic is also important from an ecological perspective. In birds, daily timings and appropriate temporal niches are important for fitness and survival. Daily rhythms in a wide array of functions are regulated by the circadian clock(s) and endogenous oscillators present in the body. There is accumulating evidence that exposure to ALAN disrupts clock-regulated daily rhythms and suppresses melatonin and sleep in birds. Circadian clock, melatonin, and sleep regulate avian cognitive performance. However, there is limited research on this topic, and most of the insights on the adverse effects of ALAN on cognitive functions are from behavioural studies. Nevertheless, these results raise an intriguing question about the molecular underpinning of the ALAN-induced negative consequences on brain functions. Further research should be focused on the molecular links between ALAN and cognitive performance, including the role of melatonin, which could shed light on the mechanism by which ALAN exposures lead to negative consequences.
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夜间人造光,高级脑功能和相关神经元变化:鸟类视角
近年来,闪电的使用出现了前所未有的增长。这导致了夜间人造光(ALAN)的增加,并被认为是环境污染的一个来源。据报道,接触ALAN会导致鸟类和哺乳动物的日常节律紊乱和严重的健康后果,如免疫、代谢和认知功能障碍。鉴于ALAN在世界范围内的普遍性,从生态学的角度来看,这一研究课题也很重要。在鸟类中,每天的时间和适当的时间对健康和生存很重要。多种功能的日常节律是由生理时钟和体内存在的内源性振荡器调节的。越来越多的证据表明,接触ALAN会扰乱生物钟调节的日常节奏,抑制褪黑素和鸟类的睡眠。生物钟、褪黑素和睡眠调节鸟类的认知能力。然而,关于这一主题的研究有限,大多数关于ALAN对认知功能不利影响的见解都来自行为研究。然而,这些结果提出了一个有趣的问题,即alan诱导的对大脑功能的负面影响的分子基础。进一步的研究应该集中在ALAN和认知表现之间的分子联系上,包括褪黑激素的作用,这可能会揭示ALAN暴露导致负面后果的机制。
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来源期刊
Western Birds
Western Birds Agricultural and Biological Sciences-Animal Science and Zoology
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0.60
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