Influence of cadmium and microplastics on physiological responses, ultrastructure and rhizosphere microbial community of duckweed

根际 微塑料 生物 生物累积 微生物种群生物学 环境化学 植物 水生植物 生态学 化学 水生植物 遗传学 有机化学 细菌
作者
Guili Yang,Meng-Meng Zheng,Liao Hai-min,Ai-Juan Tan,Dan Feng,Shiming Lv
出处
期刊:Ecotoxicology and Environmental Safety [Elsevier BV]
卷期号:243: 114011-114011 被引量:46
标识
DOI:10.1016/j.ecoenv.2022.114011
摘要

The combined contamination of heavy metals and microplastics is widespread in freshwater environments. However, there are few researches on their combined effects on aquatic plants. In this study, the effects of single and combined stress of 0.01 mg L-1 cadmium (Cd), 50 mg L-1 polyethylene and 50 mg L-1 polypropylene for 15 days on the physiological response, ultrastructure and rhizosphere microbial community of duckweed were investigated. The results showed that Cd and microplastics single or combined stress inhibited the growth of duckweed, shortened the root length and decreased the chlorophyll content. Compared with single Cd treatments, the combination of microplastics and Cd increased duckweed growth rate and increased superoxide dismutase activity and malondialdehyde content and reduced chloroplast structural damage, indicating that the combined stress could reduce the toxicity of heavy metals to duckweed. Through the study of rhizosphere microbial diversity, 1381 Operational Taxonomic Unit (OTUs) were identified and rich microbial communities were detected in the duckweed rhizosphere. Among them, the main microbial communities were Proteobacteria, Bacteroidetes, and Cyanobacteria. Compared with Cd single stress, the ACE and chao index of rhizosphere microbial community increased under combined stress, indicating that the diversity and abundance of microbial communities were improved after combined stress treatment. Our study revealed the effects of heavy metals and microplastics on aquatic plants, providing a theoretical basis for duckweed applications in complex water pollution.
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