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Alpha radiation from polymetallic nodules and potential health risks from deep-sea mining
Volz, J.B.; Geibert, W.; Köhler, D.; van der Loeff, M.M.R.; Kasten, S. (2023). Alpha radiation from polymetallic nodules and potential health risks from deep-sea mining. NPG Scientific Reports 13(1): 7985. https://dx.doi.org/10.1038/s41598-023-33971-w
In: Scientific Reports (Nature Publishing Group). Nature Publishing Group: London. ISSN 2045-2322; e-ISSN 2045-2322
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| Auteurs | | Top |
- Volz, J.B.
- Geibert, W.
- Köhler, D.
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- van der Loeff, M.M.R.
- Kasten, S.
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| Abstract |
In search for critical elements, polymetallic nodules at the deep abyssal seafloor are targeted for mining operations. Nodules efficiently scavenge and retain several naturally occurring uranium-series radioisotopes, which predominantly emit alpha radiation during decay. Here, we present new data on the activity concentrations of thorium-230, radium-226, and protactinium-231, as well as on the release of radon-222 in and from nodules from the NE Pacific Ocean. In line with abundantly published data from historic studies, we demonstrate that the activity concentrations for several alpha emitters are often higher than 5 Bq g−1 at the surface of the nodules. These observed values can exceed current exemption levels by up to a factor of 1000, and even entire nodules commonly exceed these limits. Exemption levels are in place for naturally occurring radioactive materials (NORM) such as ores and slags, to protect the public and to ensure occupational health and radiation safety. In this context, we discuss three ways of radiation exposure from nodules, including the inhalation or ingestion of nodule fines, the inhalation of radon gas in enclosed spaces and the potential concentration of some radioisotopes during nodule processing. Seen in this light, inappropriate handling of polymetallic nodules poses serious health risks. |
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