Longitudinal isotope ratio variations in human hair and nails
Autor: | Katerina Rodiouchkina, Steven Goderis, Frank Vanhaecke, Ilia Rodushkin |
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Přispěvatelé: | Chemistry, Analytical, Environmental & Geo-Chemistry |
Jazyk: | angličtina |
Rok vydání: | 2022 |
Předmět: |
Environmental engineering
Multi-collector ICP-Mass Spectrometry (MC-ICP-MS) Isotopic signature δ34S Isotope fractionation Tap water Isotopes medicine Humans Environmental Chemistry fractionation Waste Management and Disposal Trace element concentration integumentary system Isotope Chemistry Dust Seasonality Contamination medicine.disease Pollution Deposition (aerosol physics) Nails Environmental chemistry Keratins Isotope ratio Hair |
DOI: | 10.1016/j.scitotenv.2021.152059 |
Popis: | Due to the straightforward and non-invasive sampling, ease of transport and long-term storage and access to time-resolved information, determination of element concentrations and isotope ratios in hair and nails finds increasing use. Multi-isotopic information preserved in keratinous tissues allows one to reveal dietary, physiological and environmental influences, but progress in this area is still limited by complicated and time-consuming analytical procedures and challenges in accuracy assessment. In this study, longitudinal distributions of δ34S, 87Sr/86Sr, 207,208Pb/206Pb, δ66Zn, δ56Fe, δ65Cu, δ26Mg, and δ114Cd were obtained for hair and nails collected from nine subjects with different age, biological sex, diet and/or place of residence. For S and Zn, the distribution along hair strands revealed a trend towards a heavier isotopic signature from the proximal to the distal end, with a maximum difference within the hair of a single subject of 1.2‰ (Δ34S) and 0.4‰ (Δ66Zn). For Fe, Cu, Mg and Cd, a shift towards either a lighter (Cu) or heavier (Fe, Mg and Cd) isotopic composition is accompanied by increasing concentration towards the distal hair end, indicating possible isotope fractionation during deposition or external contamination with a different isotopic composition. Pb and Sr isotope ratios are relatively stable throughout the hair strands despite notable concentration increases towards the distal end, likely reflecting external contamination. The isotopic composition of Sr points to tap water as a probable main source, explaining the relative stability of the ratio for individuals from the same geographical location. For Pb, isotopic compositions suggest tap water and/or indoor dust as possible sources. Similar δ34S, 87Sr/86Sr, 207,208Pb/206Pb, δ66Zn, δ56Fe, and δ65Cu observed for hair, fingernails and toenails sampled from the same individual suggest that keratinous tissues are conservative receivers of internal and external inputs and can be used complementary. Seasonal variation in δ34S, 207,208Pb/206Pb, and δ65Cu was observed for fingernails. |
Databáze: | OpenAIRE |
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