Cheng, R.; Zhu, H.; Shutes, B.; Yan, B.

Treatment of microcystin (MC-LR) and nutrients in eutrophic water by constructed wetlands: Performance and microbial community

Article

Cheng, R., Zhu, H., Shutes, B. and Yan, B. 2021. Treatment of microcystin (MC-LR) and nutrients in eutrophic water by constructed wetlands: Performance and microbial community. Chemosphere. 263. https://doi.org/10.1016/j.chemosphere.2020.128139

Publication dates
Type	Article
Title	Treatment of microcystin (MC-LR) and nutrients in eutrophic water by constructed wetlands: Performance and microbial community
Authors	Cheng, R., Zhu, H., Shutes, B. and Yan, B.
Abstract	Cyanobacterial harmful algal blooms and microcystins (MCs) pollution pose serious threat to aquatic ecosystem and public health. Planted and unplanted constructed wetlands (CWs) filled with four substrates (i.e., gravel (G-CWs), ceramsite (C-CWs), iron-carbon (I-CWs) and slag (S-CWs)) were established to evaluate nutrients and a typical MCs variant (i.e., MC-LR) removal efficiency from eutrophic water affected by the presence of plant and different substrate. The response of the microbial community to the above factors was also analyzed in this study. The results indicate that the presence of plant can generally enhance nutrients and MC-LR removal efficiency in CWs, except for I-CWs. Throughout the experiment, all CWs exhibited good nitrogen removal efficiency with removal percentages exceeding 90%; TP and MC-LR average removal efficiency of C-CWs and I-CWs were greater than G-CWs and S-CWs irrespective of the presence of plant. The best MC-LR removal efficiency under different MC-LR loads was observed in planted C-CWs (ranged from 91.56% to 95.16%). Except for I-CWs, the presence of plant can enhance relative abundances of functional microorganisms involved in nutrients removal (e.g., Comamonadaceae and Planctomycetaceae) and MCs degradation (e.g., Burkholderiaceae). The microbial community diversity of I-CWs was simplified, while the relative abundance of Proteobacteria was highest in this study. The highest relative abundances of Comamonadaceae, Planctomycetaceae and Burkholderiaceae were observed in planted C-CWs. Overall, ceramisite and iron-carbon were more suitable to be applied in CWs for nutrients and MC-LR removal. This study provides a theoretical basis for practical application of CWs in eutrophication and MCs pollution control. [Abstract copyright: Copyright © 2020 Elsevier Ltd. All rights reserved.]
Keywords	Constructed wetlands, Eutrophication, Microbial community, Microcystin-LR, Plant, Substrate
Publisher	Elsevier
Journal	Chemosphere
ISSN	0045-6535
Electronic	1879-1298
Online	28 Aug 2020
Print	01 Jan 2021
Publication process dates
Deposited	06 Jan 2021
Submitted	15 Jul 2020
Accepted	23 Aug 2020
Output status	Published
Digital Object Identifier (DOI)	https://doi.org/10.1016/j.chemosphere.2020.128139
Language	English

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