Epigenetic and genotoxic effects of tritium in marine mussels: Comparing waterborne and metal-associated forms

Authors

Maria Florencia Ferreira, School of Biological and Marine Sciences
Andrew Turner, School of Geography, Earth and Environmental Sciences
Mickaël Payet, Commissariat à l’énergie atomique et aux énergies alternatives
Olivier Debellemaniere, Commissariat à l’énergie atomique et aux énergies alternatives
Christian Grisolia, Commissariat à l’énergie atomique et aux énergies alternatives
Veronique Malard, Aix-Marseille Université
Michael N. Moore, School of Biological and Marine Sciences
Awadhesh N. Jha, School of Biological and Marine Sciences

ORCID

• Maria Florencia Ferreira: 0000-0001-8824-5392
• Andrew Turner: 0000-0003-0505-4561
• Awadhesh N. Jha: 0000-0001-9660-4308

Abstract

Tritium (³H), an isotope of hydrogen, is a by-product of the nuclear industry. Decommissioning and normal operations of nuclear facilities can generate tritiated stainless-steel particles (T-SSPs) that could be unintentionally released into the environment. Considering tritium's physicochemical properties and the proximity of nuclear facilities to water bodies, assessing the behaviour and potential effects of these particles in the aquatic environment is imperative. In the present study, marine mussels, Mytilus galloprovincialis, were exposed to: (a) hydrogenated, non-radioactive stainless-steel particles (H-SSPs) (10 mg L⁻¹) (b) T-SSPs (1 and 10 MBq L⁻¹) and (c) tritiated water (HTO) (0.50 and 5.0 MBq L⁻¹) for 5 h and 7 d. Exposure to T-SSPs resulted in significant DNA damage in mussel haemocytes. Tritium bioaccumulation was significantly higher in the digestive gland (DG), regardless of the exposure duration to T-SSPs. Positive correlation between tritium in DG tissues and DNA indicates that tritium is internalised in the cell. After 7 d, global DNA methylation increased in gills exposed to both 1 MBq L⁻¹ of T-SSPs and 5 MBq L⁻¹ of HTO treatments. In the DG tissue, DNA methylation increased following exposure to tritium (water and particulate forms) compared to H-SSPs, suggesting a tissue-specific and pollutant-dependent response. Our findings highlight the enhanced bioaccumulation of T-SSPs compared to HTO. Multivariate analyses of the results suggested an overall stress response in mussels exposed to T-SSPs compared to HTO exposure and controls. Potential epigenetic effects will require more attention as they can bring knowledge across levels of biological organisation and about the transgenerational impact of radionuclides.

DOI Link

10.1016/j.envpol.2025.127002

Publication Date

2025-11-01

Publication Title

Environmental Pollution

Volume

384

ISSN

0269-7491

Acceptance Date

2025-08-15

Deposit Date

2025-09-04

Additional Links

https://www.scopus.com/pages/publications/105013843717

Keywords

DNA damage, DNA methylation, Ionising radiation, Marine mussels, Tritiated steel particles, Tritiated water

Recommended Citation

Ferreira, M., Turner, A., Payet, M., Debellemaniere, O., Grisolia, C., Malard, V., Moore, M., & Jha, A. (2025) 'Epigenetic and genotoxic effects of tritium in marine mussels: Comparing waterborne and metal-associated forms', Environmental Pollution, 384. Available at: 10.1016/j.envpol.2025.127002