# Ecotoxicological Impacts of Microplastics and Cadmium Pollution on Wheat Seedlings

**Authors:** Shuailing Yang, Steven Xu, Tianci Guo, Zhangdong Wei, Xingchen Fan, Shuyu Liang, Lin Wang

PMC · DOI: 10.3390/nano16020090 · 2026-01-09

## TL;DR

This study examines how microplastics and cadmium pollution together affect wheat seedlings, showing that microplastics can reduce cadmium toxicity in plants.

## Contribution

The novel contribution is the discovery that polyethylene microplastics can mitigate cadmium toxicity in wheat seedlings by altering cadmium bioavailability.

## Key findings

- Low concentrations of polyethylene microplastics slightly increased peroxidase activity in wheat shoots, while higher concentrations inhibited it.
- Cadmium exposure increased peroxidase activity in shoots, but combining it with polyethylene microplastics reduced this activity.
- Polyethylene microplastics promoted cadmium accumulation in shoots at low concentrations but reduced it at high concentrations while increasing root accumulation.

## Abstract

As plastic and heavy metal pollution continue to escalate, the co-occurrence of microplastics and heavy metals in the environment poses significant threats to ecosystems and human health. This study was designed to explore the combined effects of polyethylene microplastics (PE-MPs) and cadmium (Cd) pollution on wheat seedlings, focusing on antioxidant enzyme activity and Cd bioaccumulation. At low concentrations of PE (1mg·L−1), peroxidase (POD) activity in wheat shoots slightly increased without significance, while at higher concentrations (50mg·L−1 and 100mg·L−1) of PE, POD activity was significantly inhibited compared to 0mg·L−1 PE treatment. At Cd exposure activity, with POD activity in the shoots increasing by 73.7% at 50μmol·L−1Cd2+ compared to 0μmol·L−1 Cd treatment. When wheat seedlings were exposed to a combination of 50 mg·L−1 PE and Cd at different concentrations Cd, significant differences in POD activity were observed in the shoots compared to the control group, showing an upward trend with increasing Cd concentration. However, the addition of PE suspension generally reduced POD activity in wheat shoots compared to Cd treatment alone. Specifically, the presence of 50mg·L−1 PE did not significantly alter POD activity in the wheat shoots (p>0.05). Furthermore, exposure to different concentrations of Cd resulted in a general increase in POD activity of roots, with significant differences observed at 5μmol·L−1 and 25μmol·L−1 Cd (p<0.05). Regarding Cd bioaccumulation, at Cd low concentrations (1μmol·L−1 and 5μmol·L−1), PE significantly promoted Cd accumulation in the shoots. However, at high Cd concentrations (50μmol·L−1), PE microplastics reduced Cd accumulation in the shoots but promoted its accumulation in the roots.These results suggest that PE microplastics influence the bioavailability of Cd, mitigating the toxic effects of high Cd concentrations. This paper scientifically elucidates the ecotoxicological effects of co-contamination for microplastics and heavy metals, also their potential impacts on agricultural production are discussed.

## Linked entities

- **Chemicals:** cadmium (PubChem CID 23973), Cd (PubChem CID 23973), POD (PubChem CID 4369314)

## Full-text entities

- **Chemicals:** Cadmium (MESH:D002104), heavy metal (MESH:D019216), L-1Cd2+ (-)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Figures

7 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12844357/full.md

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Source: https://tomesphere.com/paper/PMC12844357