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Auteurs principaux: Lynn, K Devon, Queirós, Ana, Talbot, Elizabeth, Mesher, Thomas, Pascoe, Christine, Quijón, Pedro A
Format: Artículo científico
Langue:en
Publié: The Science of the total environment 2025
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Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/40527262/
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author Lynn, K Devon
Queirós, Ana
Talbot, Elizabeth
Mesher, Thomas
Pascoe, Christine
Quijón, Pedro A
author_facet Lynn, K Devon
Queirós, Ana
Talbot, Elizabeth
Mesher, Thomas
Pascoe, Christine
Quijón, Pedro A
Lynn, K Devon
Queirós, Ana
Talbot, Elizabeth
Mesher, Thomas
Pascoe, Christine
Quijón, Pedro A
collection PubMed - marine biology
contents The disruption of a symbiotic sea anemone by light pollution: Non-linear effects on zooxanthellae and molecular indicators. Lynn, K Devon Queirós, Ana Talbot, Elizabeth Mesher, Thomas Pascoe, Christine Quijón, Pedro A Animals Sea Anemones Symbiosis Light Dinoflagellida Photosynthesis Oxidative Stress Superoxide Dismutase Artificial Light at Night (ALAN) is a pervasive stressor that may affect coastal organisms, particularly sessile forms associated with photosynthetic symbionts. We examined the effects of ALAN upon the symbiotic snakelocks anemone (Anemonia viridis)'s relationship with photosynthetic zooxanthellae, as well as molecular indicators of oxidative stress and metabolism. Anemones were exposed to natural daylight/night or either mild or strong ALAN intensities for four weeks, before quantifying zooxanthellae, superoxide dismutase (SOD) enzymes, and respiration rates. In comparison to natural conditions, anemones exposed to ALAN showed significantly higher and lower zooxanthellae counts, under mild and strong ALAN, respectively. In turn, SOD concentrations were lower and much higher when exposed to mild and strong ALAN, respectively, with no change in respiration rates. Concurrent bleaching suggests that ALAN is harmful to this, and possibly other species associated with symbiotic microalgae. And while we didn't measure heat stress, such bleaching may potentially act synergistically with other larger-scale forms of bleaching associated with rising ocean temperatures.
format Artículo científico
id pubmed_40527262
institution PubMed
language en
publishDate 2025
publisher The Science of the total environment
record_format pubmed
spellingShingle The disruption of a symbiotic sea anemone by light pollution: Non-linear effects on zooxanthellae and molecular indicators.
Lynn, K Devon
Queirós, Ana
Talbot, Elizabeth
Mesher, Thomas
Pascoe, Christine
Quijón, Pedro A
Animals
Sea Anemones
Symbiosis
Light
Dinoflagellida
Photosynthesis
Oxidative Stress
Superoxide Dismutase
The disruption of a symbiotic sea anemone by light pollution: Non-linear effects on zooxanthellae and molecular indicators. Lynn, K Devon Queirós, Ana Talbot, Elizabeth Mesher, Thomas Pascoe, Christine Quijón, Pedro A Animals Sea Anemones Symbiosis Light Dinoflagellida Photosynthesis Oxidative Stress Superoxide Dismutase Artificial Light at Night (ALAN) is a pervasive stressor that may affect coastal organisms, particularly sessile forms associated with photosynthetic symbionts. We examined the effects of ALAN upon the symbiotic snakelocks anemone (Anemonia viridis)'s relationship with photosynthetic zooxanthellae, as well as molecular indicators of oxidative stress and metabolism. Anemones were exposed to natural daylight/night or either mild or strong ALAN intensities for four weeks, before quantifying zooxanthellae, superoxide dismutase (SOD) enzymes, and respiration rates. In comparison to natural conditions, anemones exposed to ALAN showed significantly higher and lower zooxanthellae counts, under mild and strong ALAN, respectively. In turn, SOD concentrations were lower and much higher when exposed to mild and strong ALAN, respectively, with no change in respiration rates. Concurrent bleaching suggests that ALAN is harmful to this, and possibly other species associated with symbiotic microalgae. And while we didn't measure heat stress, such bleaching may potentially act synergistically with other larger-scale forms of bleaching associated with rising ocean temperatures.
title The disruption of a symbiotic sea anemone by light pollution: Non-linear effects on zooxanthellae and molecular indicators.
topic Animals
Sea Anemones
Symbiosis
Light
Dinoflagellida
Photosynthesis
Oxidative Stress
Superoxide Dismutase
url https://pubmed.ncbi.nlm.nih.gov/40527262/