Abstract
In the present review, we critically examine the state-of-the-art of the research on combined effects of trace metals and light on photosynthetic microorganisms in aquatic environment. Light of different intensity and spectral composition affects the interactions between trace metals and photosynthetic microorganisms directly, by affecting vital cellular functions and metal toxicokinetics and toxicodynamics, and indirectly, by changing ambient medium characteristics. Light radiation and in particular, the ultraviolet radiation component (UVR) alters the structure and reactivity of dissolved organic matter in natural water, which in most of the cases decreases its metal binding capacity and enhances metal bioavailability. The increase of cellular metal concentrations is generally associated with increasing light intensity, however further studies are necessary to better understand the underlying mechanisms. Studies on the combined exposures of photosynthetic microorganisms to metals and UVR reveal antagonistic, additive or synergistic interactions depending on light intensity, spectral composition or light pre-exposure history. Among the light spectrum components, most of the research was performed with UVR, while the knowledge on the role of high-intensity visible light and environmentally relevant solar light radiation is still limited. The extent of combined effects also depends on the exposure sequence and duration, as well as the species-specific sensitivity of the tested microorganisms and the activation of stress defense responses.
Highlights
Studying the combined action of multiple stressors of different nature is currently one of the hot topics in ecotoxicology [1]
Given the rather large subject to be covered, we focus on the light as an environmental stressor; and its role in (i) trace metal speciation and bioavailability; (ii) change of the oxidative activity in the aquatic systems; (iii) possible modifications of trace metal toxicokinetics and (iv) alteration of the vital cellular functions of photosynthetic microorganisms and toxicodynamics
Important advances were achieved with respect to the fundamental understanding of the role of the light on the trace metal speciation, bioavailabity and effects to photosynthetic microorganisms in aquatic environment
Summary
Studying the combined action of multiple stressors of different nature is currently one of the hot topics in ecotoxicology [1]. Among the various environmental stressors, the present review focusses on light irradiation and trace metals, which affect photosynthetic microorganisms in the aquatic matter fluxes [10]. The light intensity and spectral composition change on a daily scale and depend on cloud coverage, air vapor or aerosol composition Both photosynthetically active radiation (PAR) and ultraviolet radiation (UVR) have an essential role in the aquatic environment but might become stressors for photosynthetic microorganisms [19,20]. Given the rather large subject to be covered, we focus on the light as an environmental stressor; and its role in (i) trace metal speciation and bioavailability; (ii) change of the oxidative activity in the aquatic systems;. The role of light pre-exposure history and acclimation will be discussed
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