Tritium: Its relevance, sources and impacts on non-human biota

Tritium (3H) is a radioactive isotope of hydrogen that is abundantly released from nuclear industries. It is extremely mobile in the environment and in all biological systems, representing an increasing concern for the health of both humans and non-human biota (NHB). The present review examines the...

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Veröffentlicht in:	The Science of the total environment 2023-06, Vol.876, p.162816-162816, Article 162816
Hauptverfasser:	Ferreira, Maria Florencia, Turner, Andrew, Vernon, Emily L., Grisolia, Christian, Lebaron-Jacobs, Laurence, Malard, Veronique, Jha, Awadhesh N.
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Artificial Intelligence Biota Ecosystem Environment Environmental Sciences Mammals - metabolism Nuclear energy Radiation dose Radioisotopes Risk assessment Toxicity Tritiated water (HTO) Tritium Tritium (3H)
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creator	Ferreira, Maria Florencia Turner, Andrew Vernon, Emily L. Grisolia, Christian Lebaron-Jacobs, Laurence Malard, Veronique Jha, Awadhesh N.
description	Tritium (3H) is a radioactive isotope of hydrogen that is abundantly released from nuclear industries. It is extremely mobile in the environment and in all biological systems, representing an increasing concern for the health of both humans and non-human biota (NHB). The present review examines the sources and characteristics of tritium in the environment, and evaluates available information pertaining to its biological effects at different levels of biological organisation in NHB. Despite an increasing number of publications in the tritium radiobiology field, there exists a significant disparity between data available for the different taxonomic groups and species, and observations are heavily biased towards marine bivalves, fish and mammals (rodents). Further limitations relate to the scarcity of information in the field relative to the laboratory, and lack of studies that employ forms of tritium other than tritiated water (HTO). Within these constraints, different responses to HTO exposure, from molecular to behavioural, have been reported during early life stages, but the potential transgenerational effects are unclear. The application of rapidly developing “omics” techniques could help to fill these knowledge gaps and further elucidate the relationships between molecular and organismal level responses through the development of radiation specific adverse outcome pathways (AOPs). The use of a greater diversity of keystone species and exposures to multiple stressors, elucidating other novel effects (e.g., by-stander, germ-line, transgenerational and epigenetic effects) offers opportunities to improve environmental risk assessments for the radionuclide. These could be combined with artificial intelligence (AI) including machine learning (ML) and ecosystem-based approaches. [Display omitted] •Tritium (3H) emissions likely to further increase due to expansion of nuclear processes.•3H is quickly integrated into the environment and biological systems.•Sources, properties and effects of 3H in non-human biota (NHB) critically examined.•Studies in NHB are inclined towards bivalves, fish and rodents.•Integrated approaches required to more comprehensively assess the impact of 3H.
doi_str_mv	10.1016/j.scitotenv.2023.162816
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It is extremely mobile in the environment and in all biological systems, representing an increasing concern for the health of both humans and non-human biota (NHB). The present review examines the sources and characteristics of tritium in the environment, and evaluates available information pertaining to its biological effects at different levels of biological organisation in NHB. Despite an increasing number of publications in the tritium radiobiology field, there exists a significant disparity between data available for the different taxonomic groups and species, and observations are heavily biased towards marine bivalves, fish and mammals (rodents). Further limitations relate to the scarcity of information in the field relative to the laboratory, and lack of studies that employ forms of tritium other than tritiated water (HTO). Within these constraints, different responses to HTO exposure, from molecular to behavioural, have been reported during early life stages, but the potential transgenerational effects are unclear. The application of rapidly developing “omics” techniques could help to fill these knowledge gaps and further elucidate the relationships between molecular and organismal level responses through the development of radiation specific adverse outcome pathways (AOPs). The use of a greater diversity of keystone species and exposures to multiple stressors, elucidating other novel effects (e.g., by-stander, germ-line, transgenerational and epigenetic effects) offers opportunities to improve environmental risk assessments for the radionuclide. These could be combined with artificial intelligence (AI) including machine learning (ML) and ecosystem-based approaches. 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source	Elsevier ScienceDirect Journals Complete - AutoHoldings; MEDLINE
subjects	Animals Artificial Intelligence Biota Ecosystem Environment Environmental Sciences Mammals - metabolism Nuclear energy Radiation dose Radioisotopes Risk assessment Toxicity Tritiated water (HTO) Tritium Tritium (3H)
title	Tritium: Its relevance, sources and impacts on non-human biota
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