De novo transcriptome profiling reveals the bioeffect of the clam (Cyclina sinensis) to graded extremely low-frequency electromagnetic fields (ELF-EMF, 50 Hz) exposure

PAPER manual Environ Pollut 2026 Animal study Effect: harm Evidence: Low

Read original paper → DOI: 10.1016/j.envpol.2026.128472 PMID: 42242530 Evidence Lab

Abstract

The rapid expansion of offshore and onshore wind farms has raised concerns regarding the potential ecological impacts of extremely low-frequency electromagnetic fields (ELF-EMF) on benthic organisms. In this study, we investigated the intensity-dependent effects of ELF-EMF exposure on the bivalve Cyclina sinensis, a dominant species inhabiting in coastal mudflats. Individuals were exposed to two intensities of ELF-EMF (50 Hz) for 14 days: a low-intensity group at (5 ± 1) μT and a high-intensity group at (15 ± 1) μT, alongside a control group maintained under ambient magnetic field conditions without additional ELF-EMF sources. Results showed that high-intensity exposure reduced survival rates and induced oxidative stress, as evidenced by increased activities of superoxide dismutase (SOD), catalase (CAT), and elevated malondialdehyde (MDA) levels in the hepatopancreas. Transcriptomic analysis identified 1,509 and 4,936 differentially expressed genes (DEGs) in the low- and high-intensity groups, respectively, indicating an intensity-dependent molecular response. KEGG enrichment analysis revealed significant disruptions in the 'protein processing in endoplasmic reticulum' and 'oxidative phosphorylation' pathways under high-intensity ELF-EMF. Key genes involved in endoplasmic reticulum stress (e.g., OS9, ATF6, EDEM) were upregulated, whereas genes critical for mitochondrial energy metabolism (e.g., ND4, COX3/1, CYTB) were downregulated. These findings suggest that high-intensity ELF-EMF disrupts proteostasis and impairs ATP synthesis, ultimately leading to physiological stress in C. sinensis. This study provides important molecular insights into the ecological risks posed by ELF-EMF from offshore wind infrastructure, and offers a scientific basis for establishing biosafety standards to support sustainable marine energy development.

AI evidence extraction

At a glance

Study type

Animal study

Effect direction

harm

Population

Bivalve clam Cyclina sinensis inhabiting coastal mudflats

Sample size

—

Exposure

ELF offshore and onshore wind farms / wind infrastructure · 5.0E-5 MHz · 14 days

Evidence strength

Low

Confidence: 92% · Peer-reviewed: yes

Main findings

Cyclina sinensis exposed for 14 days to 50 Hz ELF-EMF showed intensity-dependent responses. High-intensity exposure at 15 ± 1 μT reduced survival, increased oxidative stress markers, produced more differentially expressed genes than low-intensity exposure, disrupted protein processing in the endoplasmic reticulum and oxidative phosphorylation pathways, upregulated ER-stress genes, and downregulated genes involved in mitochondrial energy metabolism.

Outcomes measured

survival rates
oxidative stress markers in hepatopancreas
superoxide dismutase activity
catalase activity
malondialdehyde levels
differential gene expression
endoplasmic reticulum stress pathways
oxidative phosphorylation pathways
mitochondrial energy metabolism
ATP synthesis-related molecular changes

Limitations

Sample size was not stated in the abstract.
Findings are from an animal/ecological bivalve model and may not generalize to other species.
The abstract reports two exposure intensities and a 14-day duration only.

View raw extracted JSON

{
    "study_type": "animal",
    "exposure": {
        "band": "ELF",
        "source": "offshore and onshore wind farms / wind infrastructure",
        "frequency_mhz": 5.00000000000000023960868011929647991564706899225711822509765625e-5,
        "sar_wkg": null,
        "duration": "14 days"
    },
    "population": "Bivalve clam Cyclina sinensis inhabiting coastal mudflats",
    "sample_size": null,
    "outcomes": [
        "survival rates",
        "oxidative stress markers in hepatopancreas",
        "superoxide dismutase activity",
        "catalase activity",
        "malondialdehyde levels",
        "differential gene expression",
        "endoplasmic reticulum stress pathways",
        "oxidative phosphorylation pathways",
        "mitochondrial energy metabolism",
        "ATP synthesis-related molecular changes"
    ],
    "main_findings": "Cyclina sinensis exposed for 14 days to 50 Hz ELF-EMF showed intensity-dependent responses. High-intensity exposure at 15 ± 1 μT reduced survival, increased oxidative stress markers, produced more differentially expressed genes than low-intensity exposure, disrupted protein processing in the endoplasmic reticulum and oxidative phosphorylation pathways, upregulated ER-stress genes, and downregulated genes involved in mitochondrial energy metabolism.",
    "effect_direction": "harm",
    "limitations": [
        "Sample size was not stated in the abstract.",
        "Findings are from an animal/ecological bivalve model and may not generalize to other species.",
        "The abstract reports two exposure intensities and a 14-day duration only."
    ],
    "evidence_strength": "low",
    "confidence": 0.92000000000000003996802888650563545525074005126953125,
    "peer_reviewed_likely": "yes",
    "keywords": [
        "ELF-EMF",
        "50 Hz",
        "Cyclina sinensis",
        "bivalve",
        "clam",
        "wind farms",
        "offshore wind infrastructure",
        "oxidative stress",
        "transcriptome",
        "differentially expressed genes",
        "endoplasmic reticulum stress",
        "oxidative phosphorylation",
        "ecological risk"
    ],
    "suggested_hubs": []
}

AI can be wrong. Always verify against the paper.

AI-extracted fields are generated from the abstract/metadata and may be incomplete or incorrect. This content is for informational purposes only and is not medical advice.

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