期刊
SCIENCE OF THE TOTAL ENVIRONMENT
卷 885, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.scitotenv.2023.163842
关键词
Microplastic and nanoplastic; Xenobiotic; Algae and microalgae; Toxicity
In recent decades, micro-and nanoplastics have become persistent contaminants in the environment that are found in all components, including living organisms. Aquatic ecosystems are globally studied for their widespread contamination with micro-and nanoplastics. Algae, as important primary producers in aquatic ecosystems, play a fundamental role in maintaining the balance of the marine ecosystem. The toxic effect of microplastics on algae varies based on different experimental designs, with polystyrene showing higher toxicity compared to other types of microplastics.
In recent decades, micro-and nanoplastics (MNPs) became persistent contaminants of emerging concern to the envi-ronment. These xenobiotic are found in all components of environment, including living organisms. Ubiquitous con-tamination of aquatic ecosystems with these pollutants is studied worldwide. In aquatic ecosystems, algae are important primary producers providing nutrients for a wide range of species, so they play a fundamental role in main-taining the balance of the marine ecosystem. Thus, the toxic effect of pollutants on algae can have a negative impact on organisms at higher trophic levels. The microplastic toxic effect on algae is studied by many researches, leading to many different conclusions due to different experimental designs. The polymer type is an important parameter, as it influences the growth rate, the photosynthetic pigments content, and the oxidative stress. Polystyrene is considered more toxic than other types of microplastics. Studies show that plastics of a smaller size and with a positive surface charge have a higher toxic effect on algae. MNPs toxicity to algae strongly depends on their concentration, and be-comes more severe as its level increase. Moreover, size and concentration of plastic particles influence changes in re-active oxygen species and the enzymatic antioxidant activity. MNPs are also a vector for other environmental pollutants. Effects of pollutant-MNPs complexes are more often found to be antagonistic than synergetic, in conse-quence of toxic substance adsorption on the MNPs surface and their lower bioavailability to algae. The aim of this review was to summarize effects and impacts of microplastics and coexisting pollutants on algal populations, on the basis of currently available literature.
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