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Volume 1, Issue 1, 2024

Online ISSN: 3042-1772

Volume 1 , Issue 1, (2024)

Published: 29.08.2024.

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29.08.2024.

Professional paper

ARTIFICIAL LIGHT DISRUPTS NATURAL DAY/NIGHT VARIATION IN ANTIOXIDANT SYSTEM OF TREE FROG (HYLA ARBOREA)

One of the adaptive features that organisms developed throughout their long natural history is the ability to change the activity of cells, tissues, and organs on a daily, 24-hour, basis. These cyclical changes are synchronized to the external environment through a light-dark regime and internal circadian clock. Daily recurring environmental changes are followed by variations in animal behavior and physiology, which include oscillations in neuroendocrine, metabolic, cardiovascular, and immune functions. By transforming the circadian periodicity of day, artificial light from anthropogenic sources might interfere with organisms leading to a disturbance in hormone levels and physiological stress. In this study, we investigated daily natural variations in the antioxidant system and the effects of artificial light on the redox balance in larvae of tree frogs. We compared antioxidant parameters in tadpoles from the natural day/night cycle (control) with ones exposed to artificial light at night (treatment). The antioxidant response was measured at four time points during 24h (morning, day, evening, and night). Our results showed that only GR activity did not display day/night changes nor was affected by night illumination. For GSH-Px and GST we reported changes in activity at different times of day that were in the same manner for both treatment and control. The highest values were in the morning compared to the other time points. Variation during 24h was also observed for SOD, CAT and GSH. However, exposure to night light affected the pattern and intensity of these parameters compared to the control group. Overall our study suggests that daily differences in metabolic activity can result in variations in the antioxidant system and that the presence of artificial light affects these changes. The disrupted natural rhythm of the antioxidant response may further reflect on other physiological processes and lead to a state of oxidative stress.

Marko D Prokić, Jelena P Gavrić, Svetlana G Despotović, Branka R Gavrilović, Tijana B Radovanović, Ana Kijanović, Marko Mirč, Tanja Vukov, Nevena Đukić, Nataša Tomašević Kolarov, Tamara G Petrović

29.08.2024.

Professional paper

EFFECTS OF ARTIFICIAL LIGHT ON OXIDATIVE STRESS PARAMETERS IN AMPHIBIANS: A CASE STUDY OF HYLA ARBOREA

Human activity and rapid urbanization created disturbance factors that drastically changed natural habitats. The introduction of artificial light at night changed natural light-dark regimes affecting a range of biological processes. Disruption of circadian rhythm is linked with changes in endocrine and neurobiological systems that control hormonal regulation, food intake, metabolism, reproduction, and behavior of animals. Oxidative stress was suggested as a possible mechanism through which artificial light could affect an organism’s physiology and health. We examined the oxidative status of tree frog (Hyla arborea) under two artificial night light intensities 20 lux and 90 lux. Artificial light affects the antioxidant system of both larval and juvenile stages. Larvae had higher activity for glutathione peroxidase only for 90 lux, while greater lipid damage was observed in individuals under both light regimes compared to control. Juvenile individuals showed boosted antioxidant response seen through higher activities of superoxide dismutase, catalase, and glutathione peroxidase. Finally, development under artificial light led to higher levels of protein damage in juveniles. Artificial light at night acts primarily through direct effects and can persist across life stages. Overall results point out that exposure to artificial light alters physiological traits in amphibians, such as oxidative status that could have various consequences on individuals in natural populations.

Tamara G Petrović, Jelena P Gavrić, Svetlana G Despotović, Branka R Gavrilović, Tijana B Radovanović, Ana Kijanović, Marko Mirč, Tanja Vukov, Nevena Đukić, Nataša Tomašević Kolarov, Marko D Prokić

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