2019
DOI: 10.1038/s41598-019-51451-y
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Anthracene phytotoxicity in the freshwater flagellate alga Euglena agilis Carter

Abstract: The freshwater flagellate alga Euglena agilis Carter was exposed to the polycyclic aromatic hydrocarbon (PAH) anthracene for 96 h under optimal photosynthetically active radiation (PAR), and responses of growth, photosynthetic pigment production, and photosynthetic efficiency were assessed. Anthracene reduced the growth rate (μ) and levels of chlorophyll a (Chl a), chlorophyll b (Chl b), and total carotenoids. The growth rate was more sensitive than photosynthetic parameters, with a median effective concentrat… Show more

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Cited by 27 publications
(10 citation statements)
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“…This would allow discerning the relative proportion of PAHs adsorbed by the cells, on the culture vessel walls, or that volatilize (Christensen and Rorrer 2009). In terms of the negative effects of PAHs on photosynthetic organisms, there is also evidence in higher plants and freshwater microalgae that PAH exposure reduces the growth rate, the chlorophyll a and b levels, and other photosynthetic pigments (e.g., Jajoo et al 2014;Kottuparambil & Park 2019); this is because PAHs inhibit the function of the photosystem II by inducing ROS overproduction (Kottuparambil & Park 2019). Decreased concentrations of photosynthetic pigments and reduction of the efficiency of the photosystem II are induced by exposure to Cu in sensitive brown and green species of algae (e.g., Han et al 2008;Nielsen et al 2003), which is also probably due to their low capacity to mitigate oxidative stress (e.g., Contreras et al 2009;Sáez et al 2015).…”
Section: Discussionmentioning
confidence: 99%
“…This would allow discerning the relative proportion of PAHs adsorbed by the cells, on the culture vessel walls, or that volatilize (Christensen and Rorrer 2009). In terms of the negative effects of PAHs on photosynthetic organisms, there is also evidence in higher plants and freshwater microalgae that PAH exposure reduces the growth rate, the chlorophyll a and b levels, and other photosynthetic pigments (e.g., Jajoo et al 2014;Kottuparambil & Park 2019); this is because PAHs inhibit the function of the photosystem II by inducing ROS overproduction (Kottuparambil & Park 2019). Decreased concentrations of photosynthetic pigments and reduction of the efficiency of the photosystem II are induced by exposure to Cu in sensitive brown and green species of algae (e.g., Han et al 2008;Nielsen et al 2003), which is also probably due to their low capacity to mitigate oxidative stress (e.g., Contreras et al 2009;Sáez et al 2015).…”
Section: Discussionmentioning
confidence: 99%
“…In a recent study, Euglena agilis was exposed to anthracene that has impaired its photosynthesis, pigmentation, and growth. Its phytotoxic properties are very devastating for aquatic organisms and their associated food chains [47].…”
Section: Anthracenementioning
confidence: 99%
“…As for negative effects of hydrocarbons on aquatic plants, the available studies ( Supplementary Table 3) show that hydrocarbons or their degradation products exhibit toxicity to some microalgae at low concentrations in the mg/L range as genotoxic and mutagenic agents (Eisentraeger et al 2008). The most common responses concern plant growth inhibition, and alteration in photosynthesis and respiration (Marwood et al 1999;Aronsson and Ekelund 2005;Grote et al 2005;Engel et al 2015;Bi et al 2016;Kottuparambil and Park 2019), such as it was also highlighted by the study of El-Dib et al (2001), where the increase in hydrocarbon concentration corresponded to a decrease in plant growth rate and chlorophyll content.…”
Section: Hydrocarbonsmentioning
confidence: 99%