Adsorption Behaviour of Se(-II) and Tc(IV) onto Granite, Shale, Limestone, Illite, and MX-80 Bentonite in Ca-Na-Cl and Na-Ca-Cl Solutions / Adsorption of Se(-II) and Tc(IV)

Racette, Joshua

January 2023

Canada is in the process of implementing a Deep Geologic Repository (DGR) to dispose of used nuclear waste. Adsorption behaviour of both Se(-II) and Tc(IV) onto granite, shale, limestone, illite, and MX-80 bentonite has been elucidated. Se(-II) adsorption onto granite and MX-80 bentonite displays a decrease in Rd with an increase in solution pH. Se(-II) adsorption onto granite decreases with an increase in solution ionic strength. Se(-II) adsorption onto MX-80 bentonite does not return evidence which supports an apparent effect due to the ionic strength. Tc(IV) adsorption onto shale, limestone, illite, and MX-80 bentonite remains constant as the solution pH increases. Ionic strength does not affect the magnitude of Tc(IV) adsorption across the adsorbents, however an increase in ionic strength accelerates Tc(IV) adsorption. Se(-II) surface complexation models are best simulated with the following surface complexes: ≡Feldspar_sSe-, ≡Biotite_sOH2HSe, ≡Albite_sSe-, ≡Montmorillonite_sSe-, and ≡Montmorillonite_sOH2HSe. Tc(IV) adsorption is best simulated with: ≡Biotite_sOTcO(OH), ≡Quartz_sOTcO(OH), (≡Feldspar_sOH)2TcO(OH)-, ≡Montmorillonite_sOTcO(OH), (≡Albite_sOH)2TcO(OH)-, ≡Illite_sOTcO(OH), and ≡Chlorite_sOTcO(OH). Se(-II) adsorption onto granite and MX-80 bentonite in CR-10 solution returns Rd values of (1.80 ± 0.10) m3∙kg-1 and (0.47 ± 0.38) m3∙kg-1, respectively. Tc(IV) adsorption onto granite and MX-80 bentonite in CR-10 solution returned Rd values of (1.47 ± 0.25) m3∙kg-1 and (2.19 ± 0.33) m3∙kg-1, respectively. Tc(IV) adsorption onto shale, limestone, illite, and MX-80 bentonite in SR-270-PW solution returned Rd values of (0.16 ± 0.10) m3∙kg-1, (0.44 ± 0.21) m3∙kg-1, (1.86 ± 0.44) m3∙kg-1, and (0.23 ± 0.10) m3∙kg-1, respectively. This thesis will further deepen the understanding of Se(-II) and Tc(IV) adsorption. / Thesis / Doctor of Philosophy (PhD) / Determining the adsorption of Se(-II) and Tc(IV) onto granite, shale, limestone, illite, and MX-80 bentonite is beneficial to choosing a location within Canada to locate a used nuclear fuel repository. This thesis aims to quantify the adsorption behaviour of Se(-II) and Tc(IV) in Ca-Na-Cl and Na-Ca-Cl solutions with respect to a varying solution ionic strength and pH. Quantification of the adsorption was accomplished with adsorption experiments used in conjunction with geochemical simulations. New simulated surfaces specific to granite, shale, and MX-80 bentonite have been developed to complete these simulations. A final achievement was quantifying the adsorption of Se(-II) and Tc(IV) in groundwater representative solutions specific to locations considered for the used nuclear fuel repository.

Adsorption

Radionuclides

Se(-II)

Tc(IV)

Granite

Shale

Limestone

Illite

MX-80 Bentonite

Surface Complexation Modelling

Complex network theoretical approach to investigate the interdependence between factors affecting subsurface radionuclide migration

Narayanan, Brinda Lakshmi

January 2022

Mining of uranium ore and its extraction using the milling process generates solid and liquid waste, commonly termed uranium mine tailings. Uranium mine tailings is radioactive, as it consists of residual uranium, thorium, and radium, which amounts to 85% of the original ore’s radioactivity. Due to the extensively long half-lives of uranium (4.5x109 years), thorium (75,400 years), and radium (1,620 years) and their harmful radioactive, it is imperative to isolate uranium mine tailings from the environment for a longer period. Containment of uranium mine tailings in dam-like structures, called uranium mine tailings dam (UMTD), is the most followed disposal and storage method. Like a conventional water retention dam, UMTDs are also susceptible to failure, mainly due to adverse weather conditions. Once the UMTD fails, a fraction of the radioactive tailings infiltrates and migrate through the vadose zone contaminating the groundwater sources underlying it. Radionuclide behavior and migration in the subsurface are affected by several environmental factors. To minimize the uncertainty and improve current radionuclide fate and transport models, it is vital to study these factors and any interdependence existing between them. This study aims to understand these environmental factors by i) enlisting the factors affecting subsurface radionuclide migration through scoping review of articles and reports, and ii) analyzing the interdependence existing between the factors using the complex network theory (CNT) approach and identifying the dominant factors among them. Factors such as chemical and biological characteristics of soil stratigraphy, groundwater, and radioactive tailings plume, meteorological, and hydrogeological are found to influence radionuclide behavior and transport mechanisms in the vadose zone. CNT approach described soil microorganisms, fraction of organic carbon, infiltration rate of the soil, transmissivity, clay fraction in the soil, particulates in groundwater, and infiltrating rainwater as dominant factors in the NoF based on their centrality measures and sensitivity analysis of the network of factors (NoF). Any uncertainty associated with these factors will affect and propagate through the model. Hence, sufficient resources should be directed in the future to characterize these factors and minimize their uncertainty, which will lead to developing reliable fate and transport models for radionuclides. / Thesis / Master of Applied Science (MASc) / Waste products from uranium mining and milling operations are called uranium mine tailings, which are radioactive. Generally, uranium mine tailings are disposed of and isolated in dam-like structures referred to as uranium mine tailings dams (UMTD). One of the most common causes of UMTD failure is extreme weather conditions. When a UMTD fails, a part of tailings, consisting of radionuclides uranium, thorium, and radium, infiltrate into the subsurface through the vadose zone. Radionuclide behavior and transport in the subsurface is influenced by several environmental factors. The objective of the present study is to understand the factors affecting radionuclide migration by i) conducting a scoping review on radionuclide migration in the subsurface to describe the factors studied in the literature, and ii) understanding and analyzing any relation among the factors and deriving the most dominant factors based on their relation. This study can be used further to develop accurate and reliable radionuclide fate and transport models with minimal uncertainty.

Complex network theory

interdependent factors

centrality

sensitivity analysis

radionuclides

vadose zone

Evaluation of Coupled Erosional Processes and Landscape Evolution in the Teton Range, Wyoming

Tranel, Lisa Marie

13 July 2010

The evolution of mountain landscapes is controlled by complex interactions between large-scale tectonic, surficial and climate conditions. Dominant processes are attributed to creating characteristic features of the landscape, but topographic features are the cumulative result of coupled surficial processes, each locally effective in a different climate or elevation regime. The focus of erosion by glacial, fluvial, or mass wasting processes is highly sensitive to small changes in boundary conditions, therefore spatial and temporal variability can be high when observed over short time scales. This work evaluated methods for dissecting the history of complex alpine landscapes to understand the role of individual processes influenced by changing climate and underlying bedrock. It also investigated how individual and combined mechanisms of surficial processes influenced the evolution of topography in the Teton Range in Wyoming. Detrital apatite (U-Th)/He thermochronology and cosmogenic radionuclide erosion rates were applied to determine spatial and temporal variability of erosion in the central catchments of the range. Spatial variability existed between the glacial and fluvial systems, indicating that sediment erosion and deposition by these processes was controlled by short-term variability in climate conditions. Effective glacial incision also controlled other processes, specifically enhancing rock fall activity and inhibiting fluvial incision. Short-term erosion rates were highly variable and were controlled by stochastic processes, particularly hillslope failures in response to slope oversteepening due to glacial incision and orientation and spacing of bedrock fractures. Erosion rates averaged over 10 ky time scales were comparable to long-term exhumation rates measured in the Teton Range. The similarity of spatial erosion patterns to predicted uniform erosion and the balance between intermediate and long-term erosion rates suggests the landscape of the Teton Range is approaching steady-state, but frequent stochastic processes, short-term erosional variability and coupled processes maintain rugged topographic relief. / Ph. D.

Teton Range

landscape evolution

erosion

rock mass strength

cosmogenic radionuclides

Relating genotoxicity to DNA repair and reproductive success in zebrafish (Danio rerio) exposed to environmental toxicants

Reinardy, Helena C.

January 2012

The potential for environmental toxicants to cause genetic damage (genotoxicity) in organisms is a prominent concern because effects on DNA can compromise reproductive success and survival in organisms. Genotoxicity in male germ cells is of particular concern because damage to DNA in sperm may not be repaired and the consequences of damaged genetic material may be transgenerational (from parent to offspring). An integrated approach across multiple levels of biological organization is necessary to establish linkages between exposure to genotoxicants and subsequent effects at molecular and higher levels of biological organization. This thesis addresses the relation between toxicant-induced genotoxicity and reproductive success in zebrafish, and focuses on a model genotoxicant (hydrogen peroxide) and dissolved metals (radionuclide or non-radioactive forms) under controlled laboratory conditions. Uptake and depuration kinetics of a mixture of radionuclides (54Mn, 60Co, 65Zn, 75Se, 109Cd, 110mAg, 134Cs, and 241Am) were investigated, and radiation dose estimations were computed to link exposure and bioaccumulation with radiation dose. Cobalt (Co, non-radioactive) was selected as an environmentally relevant toxicant for investigation of genotoxicity and effects on reproductive success with a focus on male fish. Chronic exposure (12-d) to 0 – 25 mg l-1 Co resulted in reduced numbers of spawned eggs, lower fertilization success, and reduced survival of larvae to hatching. In male fish, DNA damage was detected in sperm and genes involved in DNA repair (xrcc5, xrcc6, and rad51) were induced in testes from some Co treatments, generally consistent with reduced reproductive success. No change in expression of repair genes in larvae spawned from parents exposed to Co was observed. Overall, results indicate that DNA damage and induction of DNA repair genes can occur rapidly after exposure to genotoxicants and that, if exposure levels are elevated, negative effects on reproduction can occur. Results are considered with particular focus on implications of male genotoxicity on reproductive success and the potential for transgenerational effects of toxicants.

572.86459

Element transport in aquatic ecosystems – Modelling general and element-specific mechanisms

Konovalenko, Lena

January 2014

Radionuclides are widely used in energy production and medical, military and industrial applications. Thus, understanding the behaviour of radionuclides which have been or may be released into ecosystems is important for human and environmental risk assessment. Modelling of radionuclides or their stable element analogues is the only tool that can predict the consequences of accidental release. In this thesis, two dynamic stochastic compartment models for radionuclide/element transfer in a marine coastal ecosystem and a freshwater lake were developed and implemented (Paper I and III), in order to model a hypothetical future release of multiple radionuclides from a nuclear waste disposal site. Element-specific mechanisms such as element uptake via diet and adsorption of elements to organic surfaces were connected to ecosystem carbon models. Element transport in two specific coastal and lake ecosystems were simulated for 26 and 13 elements, respectively (Papers I and III). Using the models, the concentration ratios (CR: the ratio of the element or radionuclide concentration in an organism to the concentration in water) were estimated for different groups of aquatic organisms. The coastal model was also compared with a 3D hydrodynamic spatial model (Paper II) for Cs, Ni and Th, and estimated confidence limits for their modelled CRs. In the absence of site-specific CR data, being able to estimate a range of CR values with such models is an alternative to relying on literature CR values that are not always relevant to the site of interest. Water chemistry was also found to influence uptake of contaminants by aquatic organisms. Empirical inverse relationships were derived between CRs of fish for stable Sr (CRSr) and Cs (CRCs) and water concentrations of their biochemical analogues Ca and K, respectively (Paper IV), illustrating how such relationships could be used in the prediction of more site-specific CRCs and CRSr in fish simply from water chemistry measurements. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 3: Manuscript. Paper 4: Manuscript.</p>

radionuclides

elements

concentration ratio

bioaccumulation

biomagnification

fish

modelling

aquatic food web

ecosystem

Cs

Sr

environmental risk assessment

Stability and sorption capacity of montmorillonite colloids : Investigation of size fractional differences and effects of γ-irradiation

Norrfors, Karin

January 2015

Bentonite clay is intended to form one of the barriers in most repositories of spent nuclear fuel located in granite. One important function of the bentonite barrier is to retard transport of radionuclides in the event of waste canister failure. Bentonite has a high sorption capacity of cations and its main constituent is montmorillonite. In contact with groundwater of low ionic strength, montmorillonite colloids can be released from bentonite and thereby control transport of radionuclides sorbed onto the colloids. In colloid transport in bedrock fractures, size separation of clay colloids may occur due to physical and chemical interactions with the bedrock fracture surface. This may enhance or retard the overall transport of radionuclides, depending on the sorption capacities and stability of the differently sized clay colloids. The bentonite barrier will be exposed to γ-radiation from the spent nuclear fuel. Irradiation affects surface-related properties of bentonite. If an average sorption capacity value cannot be used for all colloid sizes or if sorption is affected by exposure to γ-irradiation, corrected sorption capacity values would give higher resolution in current reactive transport models. In order to study the size separation process, a protocol was developed and successfully applied to fractionate montmorillonite into different-sized colloid suspensions by means of sequential or direct centrifugation. The stability and sorption capacity were studied using these fractions. Both stability and sorption capacity were found to be similar for all colloid sizes. Bentonite exposed to γ-radiation sorbed less divalent cations with increasing radiation dose. The effect was not large enough to have any impact on diffusion. The presence of bentonite enhanced irradiation-induced corrosion of copper under anaerobic atmosphere. An average sorption capacity value for montmorillonite can be used for all colloid sizes in reactive transport models. The effect of γ-irradiation on sorption capacity is sufficiently large to require consideration in transport modelling. / Bentonite är planerad som en av barriärerna i de flesta slutförvar av använt kärnbränsle. Bentonite har en hög sorptionskapacitet för katjoner. Den huvudsakliga beståndsdelen av bentonit är montmorillonit. Montmorillonitkolloider kommer att frigöras från bentonitbufferten i kontakt med grundvatten av låg jonstyrka och på så vis styra transporten av sorberade radionuklider. Under den kolloidala transporten i bergsprickorna kan en separation med avseende på storlek uppstå genom interaktioner mellan kolloiderna och bergytan. Detta kan få till följd att den genomsnittliga transporten av radionuklider bromsas eller tilltar beroende på sorptionskapaciteten och stabiliteten av de olika kolloidstorlekarna. Bentonitbarriären kommer även att utsättas för γ-bestrålning från det använda kärnbränslet, vilket påverkar dess ytrelaterade egenskaper. Om inte ett medeltal för sorptionskapaciteten är giltigt för alla kolloidstorlekar eller om sorptionen påverkas av γ-bestrålning, behövs nya sorptionskapaciteter bestämmas och impliceras för noggrannare transportmodeller. En metod för att separera montmorillonitkolloider med avseende på storlek via direkt och stegvis centrifugering har utvecklats. Stabiliteten och sorptionskapaciteten för dessa fraktioner har studerats. Både stabilitet och sorptionskapacitet visade sig vara lika för alla kolloidstorlekar. Bestrålad bentonit sorberar mindre andel divalenta katjoner med ökad dos bestrålning. Effekten är dock inte stor nog för att slå igenom i diffusionsexperimenten. Förekomst av bentonit ökar även den strålningsinducerade korrosionen av koppar under anaeroba förhållanden. Ett medelvärde för sorptionskapaciteten kan användas för alla kolloidstorlekar i transportmodeller. Effekten av γ-bestrålning är dock stor nog för att implementeras i modellerna. / <p>QC 20150213</p>

montmorillonite

colloids

size effect

γ-irradiation

sorption

colloid stability

radionuclides

montmorillonit

kolloider

storlekseffekt

γ-bestrålning

sorption

kollodial stabilitet

radionuklider

Estudo de dieta total aplicado na avaliação de ingestão de elementos essenciais, tóxicos e radionuclídeos naturais nas populações urbana e rural de Poços de Caldas / Total diet study applied in the evaluation of ingestion of essential, toxic elements, and natural radionuclides in the urban and rural populations of Poços de Caldas

Rosa, Mychelle Munyck Linhares

30 May 2018

A segurança alimentar é uma necessidade fundamental e de grande preocupação pública em todo o mundo. A Organização Mundial de Saúde (WHO) recomenda o Estudo de Dieta Total (EDT) como sendo o método mais adequado de estimativa para as ingestões de contaminantes e nutrientes para um país ou grandes grupos populacionais. A implantação de um estudo relacionando a ingestão de alimentos em uma Região de Elevada Radioatividade Natural (HBRA) motivou o presente estudo, uma vez que no planalto de Poços de Caldas há ocorrência de anomalias radiativas com concentrações naturais significativas de urânio e tório. O presente estudo teve por objetivo avaliar e comparar as ingestões de elementos essenciais, tóxicos e radionuclídeos, a partir dos alimentos que compõem as dietas das populações urbana e rural, da cidade de Poços de Caldas. As determinações das concentrações dos elementos essenciais e tóxicos foram realizadas aplicando-se a técnica de análise por ativação neutrônica (As, Ca, Cl, Co, Cr, Fe, K, Mg, Mn, Na e Zn), espectrometria de absorção atômica com forno de grafite (Cd, Cu e Pb) e por geração de vapor frio (Hg). As determinações dos radionuclídeos foram realizadas aplicando-se as técnicas de análise por espectrometria gama (40K), separação radioquímica seguida de contagem alfa e beta total (210Pb, 226Ra e 228Ra) e espectrometria alfa (210Po, 228Th, 230Th, 232Th, 234U, 235U e 238U). Os grupos de alimentos foram estabelecidos de acordo com os dados de consumo da região sudeste do país, obtidos pela Pesquisa Orçamentária Familiar (POF) 2008-2009 do Instituto Brasileiro de Geografia e Estatística (IBGE). A lista final totalizou 82 alimentos distribuídos em 20 grupos, incluindo a água, e com massa total de 3,6180 Kg. Com o EDT aplicado para a região do Planalto de Poços de Caldas, foi possível observar que as ingestões diárias média para todos os elementos essenciais na dieta da população urbana apresentaram valores mais elevados quando comparados à dieta da população rural, porém não apresentaram diferenças estatisticamente significativas. As dietas estudadas foram deficientes nos elementos essenciais Ca, K, Mg e Se quando comparadas aos valores de ingestão diária recomendados. Os teores dos elementos tóxicos Cd e Pb no presente estudo estiveram dentro do intervalo relatado pela WHO a partir de EDT realizados em diversos países e/ou diferentes regiões no mundo. A ingestão total do elemento tóxico Hg foi encontrada muito abaixo do limite estabelecido pela WHO. Em relação aos radionuclídeos naturais, o cálculo de dose efetiva comprometida por ingestão da região rural (0,89 mSv/ano) apresentou-se 61% mais elevado quando comparado à região urbana (0,56 mSv/ano). Isto pode ser explicado pelo fato dos maiores pontos de anomalias radioativas estarem localizados na zona rural. Porém, a partir dos valores encontrados no presente estudo não apresentaram níveis que representassem ameaça à saúde da população deste planalto. / Food security is a fundamental need and a great public concern throughout the world. The World Health Organization (WHO) recommends the Total Diet Study (TDS) as the most appropriate method of estimating the intake of contaminants and nutrients for a country or large population groups. The implementation of a study relating food intake in a High Background Radiation Area (HBRA) motivated the present study, since in the Poços de Caldas plateau there are occurrences of radiative anomalies with significant natural concentrations of uranium and thorium. Therefore, the objective is to evaluate and to compare the intakes of essential, toxic elements, and radionuclides from the foods that composed the diets of the urban and rural populations of the city. The concentration determination of the essential and toxic elements was performed using the neutron activation analysis (As, Ca, Cl, Co, Cr, Fe, K, Mg, Mn, Na and Zn) and atomic absorption spectrometry with graphite furnace (Cd, Cu and Pb) and cold vapor atomic (Hg). The determination of radionuclides was performed by gamma spectrometry (40K), radiochemical separation followed by total alpha and beta counting (210Pb, 226Ra and 228Ra) and alpha spectrometry (210Po, 228Th, 230Th, 232Th, 234U, 235U and 238U). The food groups were established according to consumption data from the southeast region of the country obtained by the Household food budget survey POF 2008-2009 by the Brazilian Institute for Geography and Statistics (IBGE). The final list contained 82 foods distributed in 20 groups, including drinking water, and with a total mass of 3.6180 kg. The TDS applied to the region of the Poços de Caldas Plateau allowed to observe that the average daily intakes for all the essential elements in the urban population diet presented higher values compared to the diet of the rural population but did not present statistical differences. The essential elements Ca, K, Mg and Se were deficient in the diets studied compared to the recommended daily intake values. The toxic element level of Cd and Pb in the present study were within the range reported by the WHO from TDS conducted in several countries and/or different regions in the world. The total intake of the toxic element Hg was found well below the established limit by WHO. Intake effective dose compromised calculation of the rural region (0.89 mSv/year) was 61% higher compared to the urban region (0.56 mSv/year). This can be explained by the fact that the highest points of radioactive anomalies in the plateau are located in the rural zone, but the values found in the present study do not present levels that represent a threat to the health of the population in this plateau.

elementos essenciais

elementos tóxicos

essential elements

Estudo de Dieta Total (EDT)

natural radionuclides

radionuclídeos naturais

Total Diet Study (TDS)

toxic elements

Avaliação da concentração de atividade de Ra-226, Ra-228 e Pb-210 em sedimentos provenientes da Antártica na região da Baía do Almirantado / Evaluation of the activity concentration of 226Ra, 228Ra and 210Pb in sediments from Antarctica in the admiralty bay region

Mora, Tamires de Araujo

08 December 2015

Os radionuclídeos naturais das séries radioativas do 238U, 235U e 232Th são frequentemente utilizados como traçadores em estudos ambientais para a compreensão da dinâmica que ocorre no ambiente marinho e terrestre, como por exemplo, em pesquisas de processos oceânicos e gerenciamento da região costeira. No ambiente marinho, estes radionuclídeos podem ser empregados para estimar fluxos biogeoquímicos de partículas e de nutrientes que ocorrem tanto na coluna dágua, quanto nos sedimentos. Várias pesquisas aplicam a distribuição e o respectivo desequilíbrio dos radionuclídeos naturais no meio ambiente, inclusive em modelos geocronológicos para se obter informações históricas em testemunhos sedimentares. Nesse estudo, realizou-se a caracterização radioquímica das distribuições de 226Ra, 228Ra e 210Pb de uma coluna sedimentar denominada 1B (248 cm de comprimento), coletada na Baía do Almirantado, Antártica. A metodologia utilizada incluiu a lixiviação ácida de amostras de sedimentos, seguida de separação radioquímica sequencial de 226Ra e de 228Ra pela co-precipitação com Ba(Ra)SO4 e de 210Pb pela co-precipitação com PbCrO4. Todas as medidas foram realizadas pela contagem alfa e beta total dos precipitados obtidos, em um detector proporcional de fluxo gasoso de baixa radiação de fundo. As concentrações de atividade de 226Ra e 210Pb foram empregadas para se estimar a atividade de 210Pbnão-suportado presentes no perfil sedimentar 1B. Considerando-se as concentrações de atividade de 210Pbnão-suportado obtidas e a aplicação do modelo CIC(Constant Initial Concentration), foi possível determinar a taxa de sedimentação de 0,59±0,05 cm/ ano. / The natural radionuclides from radioactive series of 238U, 235U and 232Th have been applied as tracers in environmental studies for understanding the dynamics that occur in both marine and terrestrial environment, as for example, in research of oceanic processes and management of the coastal region. In the marine environment, these radionuclides can be used to estimate biogeochemical fluxes of marine particles and nutrients that occur in the water column as well as in the sediment. Several research works applied the distribution and the respective disequilibrium degree of natural radionuclides in the environment, including geochronological models for obtaining historical information on samples of certain sediment profile. In this study we performed a radiochemical characterization of the distribution of 226Ra, 228Ra and 210Pb from a sedimentary column called 1B (248 cm long) collected in the Admiralty Bay, Antarctic Peninsula region. The methodology used included the acid leaching of sediment samples followed by the radiochemical sequential separation of 226Ra and 228Ra by co-precipitation with Ba(Ra)SO4 and 210Pb by co-precipitation with PbCrO4. All measurements were carried out by counting of gross alpha and gross beta measures in a low background gas flow proportional detector. The activity concentrations of 226Ra and 210Pb were used to estimate the unsupported 210Pb activities present in sediment profile 1 B. Based on unsupported 210Pb data and the application of the CIC model (Constant Initial Concentration), it was possible to determine the sedimentation rate of 0.59 ± 0.05 cm /year.

Antarctica

Antártica

geochronology

geocronologia

natural radionuclides

Pb-210

Pb-210

Ra-226

Ra-226

Ra-228

Ra-228

radionuclídeos naturais

Development of a Mass Detection Technique to Detect Intakes of Radioactive Material and their Resulting Radiation Exposures Following a Large-Scale Radiological Release

Martel, Christopher

19 April 2019

Large-scale radiological accidents have resulted in intakes of radioactive materials by members of the public and occupational radiation workers. However, current methods to evaluate intakes are designed for small numbers of individuals and cannot be easily scaled for large populations as has occurred. A proposed method for high throughput volumes of people to identify and quantify intakes of radioactive material through urine radiobioassay is described. MATERIALS AND METHODS: The MCNP V6.0 software code was used to model the General Electric Hawkeye V3 Gamma Camera for gamma ray efficiency. Technitium-99m was used to validate the model. The model was used to calculate detection efficiencies and minimum detectable doses for Cobalt-60, Iodine-131, Cesium-137/Barium-137m and Iridium-192. RESULTS: Differences of 8% were observed between measurements of the detection efficiency for Technitium-99m and the MCNP modeled detection efficiency (11.1% vs. 12.0%, respectively). Calculations showed that a dose of 20 mSv could be detected using urine radiobioassay in 6, 3, 2, and 20 days post incident for Type F intakes of Cobalt-60, Iodine-131, Cesium-137/Barium-137m and Iridium-192 respectively. Approximately 1,152 urine samples could be analyzed in an eight-hour shift using a single gamma camera. CONCLUSIONS: The use of the gamma camera for urine radiobioassay allows for high throughput volumes of samples and has sufficient detection sensitivity to meet dose-based decision guidelines.

Cesium-137

Cobalt-60

Gamma Camera

Intake of radionuclides

Internal dosimetry

Iodine-131

Iridium-192

Radiological accidents

Radiological terrorism

Estudo de dieta total aplicado na avaliação de ingestão de elementos essenciais, tóxicos e radionuclídeos naturais nas populações urbana e rural de Poços de Caldas / Total diet study applied in the evaluation of ingestion of essential, toxic elements, and natural radionuclides in the urban and rural populations of Poços de Caldas

Mychelle Munyck Linhares Rosa

30 May 2018

A segurança alimentar é uma necessidade fundamental e de grande preocupação pública em todo o mundo. A Organização Mundial de Saúde (WHO) recomenda o Estudo de Dieta Total (EDT) como sendo o método mais adequado de estimativa para as ingestões de contaminantes e nutrientes para um país ou grandes grupos populacionais. A implantação de um estudo relacionando a ingestão de alimentos em uma Região de Elevada Radioatividade Natural (HBRA) motivou o presente estudo, uma vez que no planalto de Poços de Caldas há ocorrência de anomalias radiativas com concentrações naturais significativas de urânio e tório. O presente estudo teve por objetivo avaliar e comparar as ingestões de elementos essenciais, tóxicos e radionuclídeos, a partir dos alimentos que compõem as dietas das populações urbana e rural, da cidade de Poços de Caldas. As determinações das concentrações dos elementos essenciais e tóxicos foram realizadas aplicando-se a técnica de análise por ativação neutrônica (As, Ca, Cl, Co, Cr, Fe, K, Mg, Mn, Na e Zn), espectrometria de absorção atômica com forno de grafite (Cd, Cu e Pb) e por geração de vapor frio (Hg). As determinações dos radionuclídeos foram realizadas aplicando-se as técnicas de análise por espectrometria gama (40K), separação radioquímica seguida de contagem alfa e beta total (210Pb, 226Ra e 228Ra) e espectrometria alfa (210Po, 228Th, 230Th, 232Th, 234U, 235U e 238U). Os grupos de alimentos foram estabelecidos de acordo com os dados de consumo da região sudeste do país, obtidos pela Pesquisa Orçamentária Familiar (POF) 2008-2009 do Instituto Brasileiro de Geografia e Estatística (IBGE). A lista final totalizou 82 alimentos distribuídos em 20 grupos, incluindo a água, e com massa total de 3,6180 Kg. Com o EDT aplicado para a região do Planalto de Poços de Caldas, foi possível observar que as ingestões diárias média para todos os elementos essenciais na dieta da população urbana apresentaram valores mais elevados quando comparados à dieta da população rural, porém não apresentaram diferenças estatisticamente significativas. As dietas estudadas foram deficientes nos elementos essenciais Ca, K, Mg e Se quando comparadas aos valores de ingestão diária recomendados. Os teores dos elementos tóxicos Cd e Pb no presente estudo estiveram dentro do intervalo relatado pela WHO a partir de EDT realizados em diversos países e/ou diferentes regiões no mundo. A ingestão total do elemento tóxico Hg foi encontrada muito abaixo do limite estabelecido pela WHO. Em relação aos radionuclídeos naturais, o cálculo de dose efetiva comprometida por ingestão da região rural (0,89 mSv/ano) apresentou-se 61% mais elevado quando comparado à região urbana (0,56 mSv/ano). Isto pode ser explicado pelo fato dos maiores pontos de anomalias radioativas estarem localizados na zona rural. Porém, a partir dos valores encontrados no presente estudo não apresentaram níveis que representassem ameaça à saúde da população deste planalto. / Food security is a fundamental need and a great public concern throughout the world. The World Health Organization (WHO) recommends the Total Diet Study (TDS) as the most appropriate method of estimating the intake of contaminants and nutrients for a country or large population groups. The implementation of a study relating food intake in a High Background Radiation Area (HBRA) motivated the present study, since in the Poços de Caldas plateau there are occurrences of radiative anomalies with significant natural concentrations of uranium and thorium. Therefore, the objective is to evaluate and to compare the intakes of essential, toxic elements, and radionuclides from the foods that composed the diets of the urban and rural populations of the city. The concentration determination of the essential and toxic elements was performed using the neutron activation analysis (As, Ca, Cl, Co, Cr, Fe, K, Mg, Mn, Na and Zn) and atomic absorption spectrometry with graphite furnace (Cd, Cu and Pb) and cold vapor atomic (Hg). The determination of radionuclides was performed by gamma spectrometry (40K), radiochemical separation followed by total alpha and beta counting (210Pb, 226Ra and 228Ra) and alpha spectrometry (210Po, 228Th, 230Th, 232Th, 234U, 235U and 238U). The food groups were established according to consumption data from the southeast region of the country obtained by the Household food budget survey POF 2008-2009 by the Brazilian Institute for Geography and Statistics (IBGE). The final list contained 82 foods distributed in 20 groups, including drinking water, and with a total mass of 3.6180 kg. The TDS applied to the region of the Poços de Caldas Plateau allowed to observe that the average daily intakes for all the essential elements in the urban population diet presented higher values compared to the diet of the rural population but did not present statistical differences. The essential elements Ca, K, Mg and Se were deficient in the diets studied compared to the recommended daily intake values. The toxic element level of Cd and Pb in the present study were within the range reported by the WHO from TDS conducted in several countries and/or different regions in the world. The total intake of the toxic element Hg was found well below the established limit by WHO. Intake effective dose compromised calculation of the rural region (0.89 mSv/year) was 61% higher compared to the urban region (0.56 mSv/year). This can be explained by the fact that the highest points of radioactive anomalies in the plateau are located in the rural zone, but the values found in the present study do not present levels that represent a threat to the health of the population in this plateau.

elementos essenciais

elementos tóxicos

Estudo de Dieta Total (EDT)

radionuclídeos naturais

essential elements

natural radionuclides

Total Diet Study (TDS)

toxic elements