Department of Chemistry
Removal and reductive dechlorination of triclosan by Chlorella pyrenoidosa
Triclosan that is widely used as antimicrobial agent has been detected as contaminant in various aquatic environments. In this work, removal and biodegradation of triclosan in water by using a ubiquitous green alga, Chlorella pyrenoidosa was investigated. When C. pyrenoidosa was exposed to a series concentration of triclosan from 100 to 800ngmL-1, more than 50% of triclosan was eliminated by algal uptake from the culture medium during the first 1h exposure and reached equilibrium after the 6h treatment. In the biodegradation experiments, a removal percentage of 77.2% was obtained after C. pyrenoidosa was cultivated with 800ngmL-1 triclosan for 96h. A major metabolite from the reductive dechlorination of triclosan was identified by using liquid chromatography coupled with electrospray ionization-mass spectrometry. The ultrastructural morphology of algal cells grown in the presence of triclosan was observed by using transmission electron microscopy and the growth of algal cells was detected. It was found that the trilcosan treatment resulted in the disruption of the chloroplast and the release of organic material into aquatic environment, which indicated that triclosan may affect membrane metabolism. © 2013 Elsevier Ltd.
Chlorella pyrenoidosa, Reductive dechlorination, Removal, Triclosan
Source Publication Title
Link to Publisher's Edition
Wang, Shujuan, Xian Wang, Karen Poon, Yini Wang, Shangfu Li, Hongxia Liu, Shuhai Lin, and Zongwei Cai. "Removal and reductive dechlorination of triclosan by Chlorella pyrenoidosa." Chemosphere 92.11 (2013): 1498-1505.