How microplastics affect chiral illicit drug methamphetamine in aquatic food chain? From green alga (Chlorella pyrenoidosa) to freshwater snail (Cipangopaludian cathayensis)

[Display omitted] •Methamphetamine could be adsorbed by microplastics in water.•The toxicity of methamphetamine was aggravated significantly by microplastics.•Microplastics increase the filter-feeding fate of snail.•Microplastics increase the enrichment of R-methamphetamine in aquatic organism.•Show...

Full description

Saved in:
Bibliographic Details
Published in:Environment international 2020-03, Vol.136, p.105480, Article 105480
Main Authors: Qu, Han, Ma, Ruixue, Barrett, Holly, Wang, Bin, Han, Jiajun, Wang, Fang, Chen, Pin, Wang, Wei, Peng, Guilong, Yu, Gang
Format: Article
Language:English
Subjects:
Biological effect
Enantioselective
Methamphetamine
Microplastics
Trophic transfer
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:[Display omitted] •Methamphetamine could be adsorbed by microplastics in water.•The toxicity of methamphetamine was aggravated significantly by microplastics.•Microplastics increase the filter-feeding fate of snail.•Microplastics increase the enrichment of R-methamphetamine in aquatic organism.•Showing the bio-effect of microplastics and methamphetamine through aquatic food chain. The biological impacts of microplastics on many organisms have been well documented. However, the combined effects of microplastics and chiral chemicals on the aquatic food chain are less clear. In the present study, the enantioselective environmental behaviors of methamphetamine co-exposed with microplastics through an aquatic food chain (from Chlorella pyrenoidosa to Cipangopaludian cathayensis) have been investigated in a laboratory environment. It was found that the acute toxicity of methamphetamine against these two species was significantly increased in the presence of microplastics: Chlorella pyrenoidosa showed an EC50 shift from 0.77 to 0.32 mg L−1, while cipangopaludian cathayensis showed an LC50 shift from 4.15 to 1.48 mg L−1, upon the addition of microplastics as a co-contaminant with methamphetamine. Upon exposure to methamphetamine and microplastics, the oxidative damage of algae (19.9 to 36.8 nmol mgprot−1), apoptosis (increase about 2.17 times) and filtration rate (41.2 to 65.4 mL h−1) of snails were observably higher when compared to exposure to methamphetamine alone. After ingestion and accumulation of microplastics, the enantioselectivity, BCFs, BMFs, and distribution of methamphetamine were significantly altered. These results provide evidence that the co-occurrence of microplastics and the chiral drug methamphetamine may increase the burden on aquatic species, with potential further impacts throughout aquatic food chain.
ISSN:0160-4120
1873-6750
DOI:10.1016/j.envint.2020.105480