4.7 Article

Physiological responses of marine Chlorella sp. exposed to environmental levels of triphenyltin

期刊

ENVIRONMENTAL SCIENCE AND POLLUTION RESEARCH
卷 30, 期 10, 页码 26387-26396

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SPRINGER HEIDELBERG
DOI: 10.1007/s11356-022-23992-9

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Triphenyltin; Marine Chlorella sp; Antioxidant capacity; Photosynthesis

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This study evaluated the impact of environmental levels of triphenyltin (TPT) on marine Chlorella sp. It found that TPT had both promoting and inhibitory effects on the growth of marine Chlorella sp. depending on the concentration. The chlorophyll composition changed, and oxidative damage and gene expression alterations were observed. These findings contribute to a better understanding of the ecological toxicity of TPT in marine environments.
Triphenyltin (TPT) is a herbicide and antifouling agent that has been widely used. After TPT flows into water bodies, it will cause toxic effects on marine life. We evaluated the effect of environmental concentration level (0, 10, 100, and 200 ng/L) on the cell density, antioxidant capability, and photosynthesis-related genes in the marine Chlorella sp. The results showed that 10 and 100 ng/L TPT can promote the growth of marine Chlorella sp., 200 ng/L TPT can inhibit the growth of marine Chlorella sp., and the TPT toxicity was accumulative. The chlorophyll composition changed. The content of chlorophyll a in 100 ng/L and 200 ng/L groups was significantly higher than that in the control group (p < 0.05) in 13 days. The content of chlorophyll b in the 100 ng/L and 200 ng/L groups in 1 day and 13 days was significantly different from that in the control group (p < 0.05). The content of total chlorophyll in the 100 ng/L and 200 ng/L groups in 13 days was higher than that in the control group (p < 0.05). The 200 ng/L group began to suffer oxidative damage on the 12th day, and the pigment protein complex responded to oxidative damage through self-feedback regulation. On the 18th day, chld, cao, psy, rbcS, and rbcL genes were downregulated, and psbA gene was upregulated in the 10 ng/L and 100 ng/L groups, which may be a feedback regulation of self-oxidative damage. This paper analyzed toxicity of environmental levels of TPT to marine Chlorella sp., which provided new data support for the comprehensive evaluation of its marine ecological toxicity.

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