Emma Weschke, Jules Schligler, Isla Hely, Thibaut Roost, Jo-Ann Schies, Ben Williams, Bartosz Dworzanski, Suzanne C. Mills, Ricardo Beldade, Stephen D. Simpson, Andrew N. Radford
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引用次数: 0
摘要
夜间人造光(ALAN)是一种人为污染物,在海洋环境中不断加剧和扩大,但普遍缺乏对群落效应的实验研究。珊瑚礁的近岸、浅水和清水位置及其多种多样的光敏居民使这些生态系统极易受到生物干扰;同时,它们的生物多样性和可及性使其成为更广泛深入研究的示范系统。在这里,我们利用波利尼西亚珊瑚礁系统的水下 LED 灯对 ALAN 进行了实验性操纵,以研究与不使用 ALAN 的对照地点相比,ALAN 对局部夜间鱼类群落的影响。我们在操作前收集了基线群落的红外视频普查,并在短期(平均三晚)和长期(平均 25 晚)暴露于 ALAN 后进行了重复。短期暴露于 ALAN 不会引起夜间鱼类群落的任何显著变化,但长期暴露于 ALAN 会增加夜间物种的丰富度。与对照地点相比,长期暴露于 ALAN 的物种组成与基线更为不同。长期暴露于ALAN的地点与对照地点群落组成的差异在科级上并不明显,而是从性状行会的组成上观察到的。长期暴露于 ALAN 后,更多的日间和夜间捕食性物种(食鱼类、无脊椎动物和浮游动物)--特别是那些附着在礁石上或在礁石内移动的物种--出现在夜间群落中。我们的实验结果表明,沿岸 ALAN 可导致局部夜间珊瑚礁鱼类群落的营养失衡和昼夜节律紊乱。鉴于整个群落的后果只有在长时间暴露于 ALAN 后才会显现,这表明人工照明的持续时间管理有可能用来减少对海洋生态系统的影响。
Artificial Light Increases Nighttime Prevalence of Predatory Fishes, Altering Community Composition on Coral Reefs
Artificial light at night (ALAN) is an anthropogenic pollutant that is intensifying and expanding in marine environments, but experimental studies of community-level effects are generally lacking. The inshore, shallow, and clear-water locations of coral reefs and their diverse photosensitive inhabitants make these ecosystems highly susceptible to biological disturbances; at the same time, their biodiversity and accessibility make them model systems for wider insight. Here, we experimentally manipulated ALAN using underwater LED lights on a Polynesian reef system to investigate the influence on localised nighttime fish communities compared to control sites without ALAN. We collected infrared video censuses of baseline communities prior to manipulation, which we repeated following short-term (mean of three nights) and prolonged (mean of 25 nights) exposures to ALAN. Short-term ALAN exposure did not induce any significant alterations to the nighttime fish community, but prolonged ALAN exposure increased nighttime species richness. Species compositions exposed to prolonged ALAN were more dissimilar from their baseline compared to control sites. The difference between community compositions at prolonged ALAN exposure and control sites was not apparent at the family level; instead, it was observed from the composition of trait guilds. Following prolonged ALAN exposure, more diurnal and nocturnal predatory species (piscivores, invertivores, and planktivores)—particularly those that are site-attached or mobile within reefs—were present in nighttime assemblages. Our experimental findings show that coastal ALAN could cause trophic imbalances and circadian disturbances in localised nighttime reef fish communities. Given that community-wide consequences were only apparent after prolonged ALAN exposure suggests that management of the duration of artificial lighting could potentially be used to reduce impacts on marine ecosystems.
期刊介绍:
Global Change Biology is an environmental change journal committed to shaping the future and addressing the world's most pressing challenges, including sustainability, climate change, environmental protection, food and water safety, and global health.
Dedicated to fostering a profound understanding of the impacts of global change on biological systems and offering innovative solutions, the journal publishes a diverse range of content, including primary research articles, technical advances, research reviews, reports, opinions, perspectives, commentaries, and letters. Starting with the 2024 volume, Global Change Biology will transition to an online-only format, enhancing accessibility and contributing to the evolution of scholarly communication.
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