The effect of spectral composition and light intensity on melatonin, stress and retinal damage in post-smolt Atlantic salmon, Salmo salar
Metal halide lights are currently used as standard in commercial Atlantic salmon sea cages as a means of enhancing productivity through grilse inhibition. However, such systems create bright point light sources that are neither environment specific nor species specific and could potentially compromi...
Published in: | Aquaculture |
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Language: | English |
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2007
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Online Access: | https://pure.uhi.ac.uk/en/publications/3ca8b941-70de-4ef3-b126-97adb6eb19a0 https://doi.org/10.1016/j.aquaculture.2007.04.064 http://www.mendeley.com/research/effect-spectral-composition-light-intensity-melatonin-stress-retinal-damage-postsmolt-atlantic-salmo |
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ftuhipublicatio:oai:pure.atira.dk:publications/3ca8b941-70de-4ef3-b126-97adb6eb19a0 2024-04-28T08:13:26+00:00 The effect of spectral composition and light intensity on melatonin, stress and retinal damage in post-smolt Atlantic salmon, Salmo salar Migaud, Herve Cowan, Mairi Taylor, John Ferguson, Hugh W. 2007-09-28 https://pure.uhi.ac.uk/en/publications/3ca8b941-70de-4ef3-b126-97adb6eb19a0 https://doi.org/10.1016/j.aquaculture.2007.04.064 http://www.mendeley.com/research/effect-spectral-composition-light-intensity-melatonin-stress-retinal-damage-postsmolt-atlantic-salmo eng eng info:eu-repo/semantics/restrictedAccess Migaud , H , Cowan , M , Taylor , J & Ferguson , H W 2007 , ' The effect of spectral composition and light intensity on melatonin, stress and retinal damage in post-smolt Atlantic salmon, Salmo salar ' , Aquaculture , vol. 270 , no. 1-4 , pp. 390-404 . https://doi.org/10.1016/j.aquaculture.2007.04.064 Artificial light LED Photoreceptors Retina damage Salmo salar Stress article 2007 ftuhipublicatio https://doi.org/10.1016/j.aquaculture.2007.04.064 2024-04-04T17:16:02Z Metal halide lights are currently used as standard in commercial Atlantic salmon sea cages as a means of enhancing productivity through grilse inhibition. However, such systems create bright point light sources that are neither environment specific nor species specific and could potentially compromise fish welfare. Light emitting diodes (LEDs) are a new form of lighting technology currently being developed for the fish farming industry that can be tuned to environment and species sensitivities through narrow bandwidth outputs. However, prior to implementing these new high energy alternatives, any potential adverse effects must be determined in fish. The objectives of this study were thus (1) to determine the effect of increasing intensities of blue LED light (0.199-2.7 W m- 2, at 0.1 m from the light source) on light perception and stress response, and (2) to examine potential retinal damage under these conditions in post-smolt Atlantic salmon, Salmo salar. A white LED light was also tested, as well as a very high intensity metal halide positive control. Results demonstrated firstly that salmon perceived blue LED light (basal melatonin levels maintained) irrespective of intensity. Secondly, fish exposed to high intensity blue LED light showed an increase in plasma cortisol and glucose levels within 3 h, returning to a basal state 24 h post-light onset. This typical acute stress response was not observed in fish exposed to the white LED light and lower blue light intensities which could indicate differential sensitivities to spectral content of the light. No effects on the non-specific immune system (lysozyme activity) were observed. Finally, extensive histological examination of the retina from fish exposed to these various light treatments revealed no signs of damage. This demonstrates the efficiency of the adaptive mechanisms to light developed in fish. Article in Journal/Newspaper Atlantic salmon Salmo salar University of the Highlands and Islands: Research Database of UHI Aquaculture 270 1-4 390 404 |
institution |
Open Polar |
collection |
University of the Highlands and Islands: Research Database of UHI |
op_collection_id |
ftuhipublicatio |
language |
English |
topic |
Artificial light LED Photoreceptors Retina damage Salmo salar Stress |
spellingShingle |
Artificial light LED Photoreceptors Retina damage Salmo salar Stress Migaud, Herve Cowan, Mairi Taylor, John Ferguson, Hugh W. The effect of spectral composition and light intensity on melatonin, stress and retinal damage in post-smolt Atlantic salmon, Salmo salar |
topic_facet |
Artificial light LED Photoreceptors Retina damage Salmo salar Stress |
description |
Metal halide lights are currently used as standard in commercial Atlantic salmon sea cages as a means of enhancing productivity through grilse inhibition. However, such systems create bright point light sources that are neither environment specific nor species specific and could potentially compromise fish welfare. Light emitting diodes (LEDs) are a new form of lighting technology currently being developed for the fish farming industry that can be tuned to environment and species sensitivities through narrow bandwidth outputs. However, prior to implementing these new high energy alternatives, any potential adverse effects must be determined in fish. The objectives of this study were thus (1) to determine the effect of increasing intensities of blue LED light (0.199-2.7 W m- 2, at 0.1 m from the light source) on light perception and stress response, and (2) to examine potential retinal damage under these conditions in post-smolt Atlantic salmon, Salmo salar. A white LED light was also tested, as well as a very high intensity metal halide positive control. Results demonstrated firstly that salmon perceived blue LED light (basal melatonin levels maintained) irrespective of intensity. Secondly, fish exposed to high intensity blue LED light showed an increase in plasma cortisol and glucose levels within 3 h, returning to a basal state 24 h post-light onset. This typical acute stress response was not observed in fish exposed to the white LED light and lower blue light intensities which could indicate differential sensitivities to spectral content of the light. No effects on the non-specific immune system (lysozyme activity) were observed. Finally, extensive histological examination of the retina from fish exposed to these various light treatments revealed no signs of damage. This demonstrates the efficiency of the adaptive mechanisms to light developed in fish. |
format |
Article in Journal/Newspaper |
author |
Migaud, Herve Cowan, Mairi Taylor, John Ferguson, Hugh W. |
author_facet |
Migaud, Herve Cowan, Mairi Taylor, John Ferguson, Hugh W. |
author_sort |
Migaud, Herve |
title |
The effect of spectral composition and light intensity on melatonin, stress and retinal damage in post-smolt Atlantic salmon, Salmo salar |
title_short |
The effect of spectral composition and light intensity on melatonin, stress and retinal damage in post-smolt Atlantic salmon, Salmo salar |
title_full |
The effect of spectral composition and light intensity on melatonin, stress and retinal damage in post-smolt Atlantic salmon, Salmo salar |
title_fullStr |
The effect of spectral composition and light intensity on melatonin, stress and retinal damage in post-smolt Atlantic salmon, Salmo salar |
title_full_unstemmed |
The effect of spectral composition and light intensity on melatonin, stress and retinal damage in post-smolt Atlantic salmon, Salmo salar |
title_sort |
effect of spectral composition and light intensity on melatonin, stress and retinal damage in post-smolt atlantic salmon, salmo salar |
publishDate |
2007 |
url |
https://pure.uhi.ac.uk/en/publications/3ca8b941-70de-4ef3-b126-97adb6eb19a0 https://doi.org/10.1016/j.aquaculture.2007.04.064 http://www.mendeley.com/research/effect-spectral-composition-light-intensity-melatonin-stress-retinal-damage-postsmolt-atlantic-salmo |
genre |
Atlantic salmon Salmo salar |
genre_facet |
Atlantic salmon Salmo salar |
op_source |
Migaud , H , Cowan , M , Taylor , J & Ferguson , H W 2007 , ' The effect of spectral composition and light intensity on melatonin, stress and retinal damage in post-smolt Atlantic salmon, Salmo salar ' , Aquaculture , vol. 270 , no. 1-4 , pp. 390-404 . https://doi.org/10.1016/j.aquaculture.2007.04.064 |
op_rights |
info:eu-repo/semantics/restrictedAccess |
op_doi |
https://doi.org/10.1016/j.aquaculture.2007.04.064 |
container_title |
Aquaculture |
container_volume |
270 |
container_issue |
1-4 |
container_start_page |
390 |
op_container_end_page |
404 |
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1797579938190065664 |