Behavioural rhythms of two amphipod species Marinogammarus marinus and Gammarus pulex under increasing levels of light at night
Behavioural rhythms of two amphipod species Marinogammarus marinus and Gammarus pulex under increasing levels of light at night
Artificial light at night (ALAN) is proliferating at an alarming rate across the globe, particularly around aquatic habitats. Natural and predictable light cycles dictate much of an individual organism’s life by acting as a major signal for their circadian clock, driving rhythmic behaviours and physiological changes throughout the body. Light cycles also help populations coordinate group behaviour and greatly impact the interspecies dynamics of a community. Research into the ecological impacts of ALAN has highlighted numerous effects on these biological processes, including higher predation rates, impaired growth and development, and diminished reproductive success. Making up the vast majority of species, invertebrates play an undeniable role in ecosystem functioning. Many species have been shown to have robust daily rhythms. As such, it is vital to understand how ALAN may disrupt their behavioural patterns. The aim of this study was to monitor the impacts of increasing levels of light at night (0 lux – 80 lux), as well as constant light and constant darkness, on the behavioural rhythms of the intertidal amphipod, Marinogammarus marinus, and the freshwater species, Gammarus pulex. Gammarus pulex activity was not strongly synchronised to any of the light at night treatments. Marinogammarus marinus, however, exhibited strong behavioural rhythmicity in diurnal cycles with dark night periods. All the ALAN treatments resulted in a significant decrease in M. marinus rhythmicity and overall activity. Moreover, ALAN between 1 – 50 lux disrupted nocturnality in this species. These results indicate that while some gammarids show some adaptive plasticity when it comes to light pollution, others may experience strong direct impacts on their activity. This may be relevant to individual and population level fitness of vulnerable species in more heavily urbanised areas.
Underwood, Charlotte
eb786a85-742e-4aa6-9c84-8248305a9e08
Ford, Alex
603887d3-b312-4d90-9560-330ff2f8b82c
Robson, Samuel C.
84ae3cc8-7d99-4f25-a4cf-9c1ccb0c76d4
Wijnen, Herman
67e9bc5d-de6e-44ec-b4c2-50b67c5bc79d
7 August 2025
Underwood, Charlotte
eb786a85-742e-4aa6-9c84-8248305a9e08
Ford, Alex
603887d3-b312-4d90-9560-330ff2f8b82c
Robson, Samuel C.
84ae3cc8-7d99-4f25-a4cf-9c1ccb0c76d4
Wijnen, Herman
67e9bc5d-de6e-44ec-b4c2-50b67c5bc79d
Underwood, Charlotte, Ford, Alex, Robson, Samuel C. and Wijnen, Herman
(2025)
Behavioural rhythms of two amphipod species Marinogammarus marinus and Gammarus pulex under increasing levels of light at night.
PLoS ONE.
Abstract
Artificial light at night (ALAN) is proliferating at an alarming rate across the globe, particularly around aquatic habitats. Natural and predictable light cycles dictate much of an individual organism’s life by acting as a major signal for their circadian clock, driving rhythmic behaviours and physiological changes throughout the body. Light cycles also help populations coordinate group behaviour and greatly impact the interspecies dynamics of a community. Research into the ecological impacts of ALAN has highlighted numerous effects on these biological processes, including higher predation rates, impaired growth and development, and diminished reproductive success. Making up the vast majority of species, invertebrates play an undeniable role in ecosystem functioning. Many species have been shown to have robust daily rhythms. As such, it is vital to understand how ALAN may disrupt their behavioural patterns. The aim of this study was to monitor the impacts of increasing levels of light at night (0 lux – 80 lux), as well as constant light and constant darkness, on the behavioural rhythms of the intertidal amphipod, Marinogammarus marinus, and the freshwater species, Gammarus pulex. Gammarus pulex activity was not strongly synchronised to any of the light at night treatments. Marinogammarus marinus, however, exhibited strong behavioural rhythmicity in diurnal cycles with dark night periods. All the ALAN treatments resulted in a significant decrease in M. marinus rhythmicity and overall activity. Moreover, ALAN between 1 – 50 lux disrupted nocturnality in this species. These results indicate that while some gammarids show some adaptive plasticity when it comes to light pollution, others may experience strong direct impacts on their activity. This may be relevant to individual and population level fitness of vulnerable species in more heavily urbanised areas.
Text
journal.pone.0329449
- Version of Record
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Accepted/In Press date: 16 July 2025
Published date: 7 August 2025
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Local EPrints ID: 503717
URI: http://eprints.soton.ac.uk/id/eprint/503717
ISSN: 1932-6203
PURE UUID: f4c2ec3f-551a-43f3-8daf-eb13820ef1b3
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Date deposited: 11 Aug 2025 16:53
Last modified: 22 Aug 2025 02:07
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Author:
Alex Ford
Author:
Samuel C. Robson
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