"A variação sazonal na concentração de hidrocarbonetos policíclicos aromáticos e material particulado MP10 na atmosfera de São Paulo" / THE SEASONAL VARIATION IN THE CONCENTRATION OF POLYCYCLIC AROMATIC HYDROCARBONS AND PARTICULATE MATTER PM10 IN THE ATMOSPHERE OF SÃO PAULO

Davi Zacarias de Souza

25 July 2006

Neste trabalho foram estudadas as influências sazonais sobre as concentrações de hidrocarbonetos policíclicos aromáticos e n-alcanos no material particulado MP10, em novembro de 2001 a junho de 2002 (n = 23), e entre abril de 2003 e maio de 2004 (n=31), em continuidade aos estudos realizados no inverno de 2000 na RMSP. Todas as coletas do aerossol atmosférico ocorreram no Instituto de Astronomia, Geofísica e Ciências Atmosféricas da USP, situado na Cidade Universitária, na região oeste da cidade de São Paulo. Os parâmetros meteorológicos como temperatura, precipitação, umidade relativa, direção e velocidade do vento foram monitorados. Em média, nas estações mais frias foram obtidas as maiores concentrações de MP10, HPA e n-alcanos, em concordância com outros estudos. Os dados foram tratados com algumas ferramentas estatísticas, como análise de componentes principais e estudos das razões diagnósticas, sugerindo algumas fontes de emissões e apontando a emissão veicular como fonte majoritária destes poluentes atmosféricos. / The seasonal influences on the concentrations of polycyclic aromatic hydrocarbons (PAH) and n-alkanes in the particulate matter PM10 were studied in this work from November 2001 to June 2002 (n = 23), and between April 2003 and May 2004 (n=31), in continuity to the studies accomplished in the winter of 2000 in the metropolitan area of São Paulo (MASP). Atmospheric aerosol samples in this work were collected in an open area on the roof of the Department of Atmospheric Sciences of USP, located in the campus in the University of São Paulo, in the west area of the city of São Paulo. The meteorological parameters, as temperature, precipitation, relative humidity, direction and wind speed were monitored. On average, in the coldest stations they were obtained the largest concentrations of PM10, PAH and n-alkanes, in agreement with other studies. The data were treated with statistical tools such as Principal Component Analysis and studies of the diagnostic ratios, suggesting some sources of emissions and pointing the vehicular emission as majority source of these pollutant ones in the atmospheric.

aerossol atmosferico

HPA

material particulado

poluentes atmosfericos

Sao Paulo

atmospheric aerosol

PAH

particulate matter

pollutant atmospheric

Sao Paulo

Variabilité spatio-temporelle des HAP et des communautés microbiennes dans la rhizosphère d’un sol historiquement contaminé / Spatio-temporal variability of PAH and microbial community in the rhizosphere of aged-contaminated soil

Bourceret, Amélia

08 January 2016

Les Hydrocarbures Aromatiques polycycliques (HAP) sont des polluants organiques persistants, dont la faible disponibilité dans les sols historiquement contaminés limite leur biodégradation. La capacité des plantes à favoriser l’élimination de ces polluants par l’action des microorganismes associés à leur rhizosphère a été montrée (rhizodégradation). Toutefois les résultats sont variables, suggérant la variabilité spatio-temporelle des processus. Des études à différentes échelles de temps et d’espace, utilisant des microcosmes et des dispositifs in situ ont été menées pour préciser ces phénomènes. L’étude de la variabilité spatiale des HAP et de la diversité bactérienne a été menée au sein de deux rhizosphères contrastées (ray-grass et luzerne), à l’échelle centimétrique après 37 jours de culture sur un sol de friche industrielle. Les résultats ont montré une spatialisation de la teneur en sucre et du pH, de la diversité bactérienne et de l’abondance microbienne, spécifique de l’espèce végétale, mais sans structuration de la teneur en HAP. L’étude de la variabilité temporelle de ces processus a révélé la dissipation en 6 jours des polluants biodisponibles ainsi qu’un effet positif des plantes par rapport au sol nu sur la dissipation des HAP et sur l’expression des gènes de HAP-dioxygénase. Une étude à plus long terme (6 ans) et in situ a montré que le couvert végétal ralentit la dissipation des HAP et influencent fortement la diversité microbienne, tout comme certains paramètres édaphiques. L’ensemble de ces résultats montre l’importance de la biodisponibilité des HAP qui conditionne leur dissipation, et de la dynamique des communautés microbiennes dans la rhizosphère / Polycyclic Aromatic Hydrocarbons (PAH) are persistent organic pollutants in soil, whose degradation in aged-contaminated soil is limited by their low bioavailability. The ability of plants to promote pollutant dissipation through the action of rhizosphere microorganisms has been shown (rhizodegradation). However contrasted results were obtained suggesting spatio-temporal variability of processes. Different experiments, with different time and space scales, using microcosm and field trials were achieved to precise phenomena. Study of spatial variability of PAH and bacterial diversity were done in two-contrasted rhizospheres (ryegrass and alfalfa) at centimeter scale after 37 days of plant growth, on a wasteland aged contaminated soil Results showed spatial structuration of sugar content, pH, bacterial diversity and microbial density, depending on plant species, but no vertical gradient was observed for PAH concentration. Study of temporal variability of processes showed dissipation of bioavailable fraction of pollutant in just 6 days and in comparison with bare soil, a positive impact of plant was shown on PAH dissipation and on expression of PAH dioxygenase genes. A long-term study (over 6 years) in a field trial revealed that plant cover slowed down PAH dissipation and impacted bacterial and fungal diversity as edaphic parameters. All these results underlined the importance of PAH bioavailability for the dissipation process and of spatio-temporal dynamic of microbial community, in the rhizosphere

Microorganismes

Rhizosphère

Sol

Diversité

HAP

Biodisponibilité

Variabilité spatio-Temporelle

Microorganisms

Rhizosphere

Soil

Diversity

PAH

Bioavailability

Spatio-Temporal variability

628.52

628.55

Soil Ingestion Rate and Excess Lifetime Cancer Risk in First Nations’ People Exposed to Polycyclic Aromatic Hydrocarbons Near In-situ Bitumen Extraction in Cold Lake, Alberta

Irvine, Graham

January 2013

The inadvertent ingestion of contaminated soil is the dominant exposure route of non-volatile and semi-volatile contaminants such as polycyclic aromatic hydrocarbons (PAHs). Quantitative mass balance soil ingestion studies have been used to determine soil ingestion rates for use in human health risk assessments (HHRA) that can be used to predict the likelihood of adverse effects in individuals exposed to hazardous contaminants such as PAHs in contaminated soil. The Cold Lake region of Alberta is one of the three major oil sands regions of Alberta, and PAH concentrations in this oil sand region may be elevated in the atmosphere and the soil, resulting in increased exposures to PAHs. The area is home to Cold Lake First Nation who practice traditional activities and lifestyles that may put them in greater contact with soil than previous soil ingestion studies suggest. The primary objective of this research was to assess the soil ingestion rate in a group of First Nations subjects inhabiting the Cold lake region, and assess the carcinogenic risk posed by exposures to PAHs in air and soil. The study employed a quantitative mass balance tracer approach to estimate soil ingestion rates, and followed 9 subjects over a 13 day period. Soil and air samples were simultaneously collected to assess PAH contamination. The mean soil ingestion rate using Al and Si elemental tracers was 52 mg d-1, with a 90th percentile of 220 mg d-1, and a median soil ingestion rate of 37 mg d-1. These values are greater than the soil ingestion rates for HHRA recommended by Health Canada. The mean increase in excess lifetime cancer risk posed by inadvertent ingestion of soil to a First Nations’ individuals following traditional activities was 0.02 cases per 100,000 people with a 95% risk level of 0.067 cases per 100,000 people. Exposure to PAHs through inhalation posed a maximum lifetime cancer risk below 0.1 cases per 100,000, people. Thus, this study found no appreciable increase in excess lifetime associated with PAH exposure of First Nations’ people in the Cold Lake region.

soil ingestion

risk assessment

aboriginal

First Nations

Alberta oil sands

in-situ bitumen extraction

mass balance

Cold Lake

PAH

soil

HHRA

Interactions entre les hydrocarbures aromatiques polycycliques et les plantes supérieures : prélèvement et réponses toxiques / Interactions between polycyclic aromatic hydrocarbons and superior plants : uptake and toxic responses

Dupuy, Joan

15 December 2014

En France et en Europe, la fin des activités industrielles liées à l’exploitation du charbon a laissé de nombreux sites et sols pollués par les hydrocarbures aromatiques polycycliques (HAP). La rhizodégradation pourrait permettre leur dépollution par l’utilisation de plantes et de leur microflore associée. Toutefois, l’efficacité de cette technique, démontrée en conditions contrôlées de laboratoire, est limitée in situ par de fortes mortalités ou l’inhibition de croissance de la plante. De plus, le transfert de ces polluants dans la plante peut menacer la chaîne alimentaire. Ce travail se propose d’étudier les interactions entre le maïs, choisi ici comme plante modèle, et les HAP de sols industriels contaminés ou un de leur représentant, le phénanthrène ajouté à un substrat simplifié. Le prélèvement des HAP et leur effet sur la physiologie de la plante sont évalués sur des systèmes de complexité croissante et en abordant ces questions à différentes échelles, allant de la cellule à la plante entière. Il s’agit en particulier d’élucider les mécanismes de transfert et de translocation des HAP dans la plante et d’identifier les réponses toxiques de celle-ci. Les résultats mènent à l’hypothèse d’une sorption physique des HAP de la phase solide du sol par contact direct avec les racines comme mécanisme principal d’entrée et non par transport dans la phase aqueuse. Les principaux arguments sont les distributions moléculaires similaires entre les HAP totaux dans les terres et celles dans les racines, les mauvaises corrélations entre les concentrations en HAP dissous dans l’eau porale et les racines, ainsi que la surestimation des concentrations prédites par des modèles existants fondés sur un prélèvement de la solution du sol. La localisation du PHE dans les racines à l’aide d’outils de microscopie montre une subérification précoce de l’exoderme et l’endoderme, même à de faibles teneurs (50 mg kg-1). Le prélèvement de nutriment ne semble pas affecté mais d’importantes accumulations et carences d’éléments sont observées dans les parties aériennes. Ces perturbations nutritionnelles du maïs pourraient affecter le fonctionnement de la plante et par conséquent limiter sa croissance ou entraîner sa mort / In Europe and France, the end of industrial activities associated to coal exploitation left numerous wastelands contaminated with polycyclic aromatic hydrocarbons (PAH). Rhizodegradation enables their remediation by using plants associated with microflora. However, the efficiency of this technique, demonstrated at the laboratory scale, is often limited in situ by high plant mortality or inhibited growth. Furthermore, the PAH uptake in plants may threaten the food chain. This work studied the interactions between maize, chosen as model plant, and PAH from industrial contaminated soils or from simplified model systems, i.e. sand spiked with phenanthrene. PAH uptake and their effect on the plant physiology were assessed using systems of increasing complexity, to solve questions raised at different scales, from the cell to the whole plant. Mechanisms involved in PAH uptake and translocation are proposed and the toxic responses of the plant are detailed. Results lead to a new hypothesis: PAH from the solid phase penetrate the roots by physical and direct contact and not only through uptake in pore water. Main arguments are: similar molecular distributions in soils and roots, low correlations between PAH concentrations in pore water and roots and overprediction of bioaccumulation by using predicting models based on root absorption in soil solution. Localization of PHE in roots using microscopic tools showed early suberisation of endoderm and exoderm in presence of PHE, even at low concentration (50 mg kg-1). Nutrient uptake seemed not affected but large elements accumulations and depletion were observed in aerial part of maize. These nutritional disruptions may affect plant functioning and consequently, decrease its growth or even cause its death

HAP

Terres industrielles

Biodisponibilité

Phytotoxicité

Nutrition minérale

Phytoremédiation

PAH

Industrial soils

Bioavailability

Phytotoxicity

Mineral nutrition

Phytoremediation

632.19

575.48

Traitement in situ des HAPs par co-injection air-vapeur : mécanismes physico-chimiques et optimisation énergétique / In situ treatment by co-injection of steam and air : physico-chemical mechanisms and energy optimization

Bordenave, Alexandre

02 July 2015

La contamination du milieu naturel, notamment des aquifères, par des hydrocarbures lourds de type HAP (Hydrocarbure Aromatique Polycyclique) se révèle être une pollution pérenne très difficile à traiter. La dépollution de ces sous-sols par un traitement in situ efficace et peu coûteux constitue encore aujourd’hui un challenge. Cette étude cible une technique de co-injection air-vapeur en zone saturée comme alternative aux techniques thermiques et chimiques en vigueur pour le traitement de cette catégorie d’hydrocarbures. Une première partie expérimentale introductive estime l’influence d’un simple traitement vapeur sur la libération de HAPs par les matrices de sol au sein de l’aquifère, montrant la nécessité de coupler à ce procédé une technique d’oxydation chimique. Si le front de vapeur permet de mobiliser totalement les composés légers, les concentrations des composés les plus lourds augmentent en phase dissoute (augmentation des fractions molaires des composés résiduels). Réalisées en milieu fermé, dans des conditions de température dictées par l’injection de vapeur (120 ̊C), des expériences en laboratoire ont permis de caractériser et de quantifier les réactions d’oxydation chimique mises en jeu. Les résultats démontrent une efficacité modérée de l’oxydation à moyenne température. Des sous-produits de réaction sont identifiables et quantifiables à compter de plusieurs semaines de réaction. A l’inverse l’étude met en évidence l’absence totale de minéralisation, démontrant que l’ana- lyse du CO2 ne peut renseigner sur l’évaluation du phénomène d’oxydation. Hormis la réactivité par oxydation, les conclusions de l’étude montrent que la technique favorise la sorption irréversible des composés organiques en surface des matrices de sol. Ces phénomènes de sorption sont très marqués en présence d’argile ou de matière organique naturelle dans le milieu et augmentent au cours du temps. La technique HPO se pose donc en traitement de soutien à l’injection de vapeur par oxydation mais surtout par stabilisation de la zone de contamination. Enfin nous nous sommes intéressés aux problématiques liées à l’injection d’eau chaude et de vapeur dans un sous-sol au travers d’expériences sur site. La technique d’injection de vapeur étant financièrement et énergétiquement coûteuse, des solutions techniques ont été proposées, appliquées et modélisées. Il en ressort une comparaison en bilans énergétiques pour différents modes d’injection, permettant de mieux appréhender les véritables besoins d’une telle technique. Parmi les paramètres influents, le rayon d’influence est un paramètre essentiel qui conditionne la distance entre chaque puits pour une efficacité optimale. Les résultats de l’étude démontrent que dans certains scénarios d’injection (injection à grande profondeur) le préchauffage de la zone d’étude par injection d’eau chaude couplé à un pompage en profondeur permettra d’accroître significativement le rayon d’influence et d’améliorer le bilan énergétique du traitement global. Les principaux résultats de la thèse sont comparés aux autres études sur l’injection de vapeur pour dégager les meilleures conditions d’application de cette technique, et mettre en évidence les verrous techniques ayant pu être levés au cours de la thèse. / PAHs are the largest, ubiquitous and carcinogenic environmental chemical groups. In a context of polluted soil remediation, today it is still a challenge to reach an effective in situ treatment. This study aims to evaluate as an alternative way the potential of a technology combining a thermal process (injection of steam) and a chemical process (co-injection of air) in the saturated zone. A first introductory experimental section considers the influence of a single steam treatment on the release of PAHs from soil matrices within the aquifer. Results prove the necessity of coupling a chemical oxidation technique with this process. If the steam front allows to recover light com- pounds, concentrations of heavier compounds in the dissolved phase are more important after the steam treatment (molar fractions of residual compounds increase). In order to study the fate of PAHs in polluted soils under medium temperature oxidation, numerous experiments in presence of soil spiked matrices were carried out in closed reactors. The catalytic potential of different mineral surfaces was investigated by studying reactivity of different PAHs. Results demonstrate that the efficiency of oxidation remains moderate. They suggest a lack of mineralization and reactions producing partly polycyclic aromatic compounds (PACs) with equivalent molecular weight as the initial contaminants. Along short term experiments (9 days), the major effect of heating is an increase in irreversible sorption of original compounds. Interestingly, this sorption mostly occurs in presence of natural organic matter and oxygen in the gas phase, suggesting a specific reactivity of the natural organic matter. In long term experiments (6 months), new oxygenated PACs were formed and remained fixed on the solid phase. Consequently, air oxidation catalyzed by minerals and natural organic matter may be a new pathway concerning PAH stabilization in soils. The steam injection technique is still considered as a costly technique. In this last part some technical solutions have been proposed, implemented and modelized. The economic aspect of some injection cases are compared, based on the results of a real field application and some general calculations regarding the costs of wells and energy. Among influential parameters, the radius of influence is a key parameter that determines the distance between each well for an optimum efficiency. The results of this study show that in some scenarios of injection (when the injection takes place in a deeper zone), a preheating phase can be an interesting option to reduce the financial costs of the technique. The main results of the thesis are compared with other steam injection studies to identify the best conditions for the technique application.

HAP

Dépollution

Vapeur

Zone saturée

HPO

Matière organique naturelle

PAH

Soil remediation

Steam

Saturated zone

HPO

Natural organic matter

Nonlinear Spectroscopic Investigation of Adsorption to C-18 Model Stationary Phase

Peterson, Anthony D.

11 December 2013

Reversed-phase liquid chromatography (RPLC) is a commonly used separation technique in chemistry. Nevertheless, the mechanistic interactions at the molecular level among the eluent, analyte, and the stationary phase are not fully understood. Because of this limited understanding, optimization of the separation must be done experimentally. Learning more about molecular interactions should aid in improving separations. We are currently using second-harmonic generation (SHG) spectroscopy to investigate how analytes adsorb to the surface. SHG is a spectroscopic technique that produces signal only at places of non-isotropic symmetry; this typically occurs at surfaces. SHG can be used to produce surface isotherms of test analytes adsorbed to a model C18 stationary phase surface. Fitting these isotherms with a Langmuir model produces an adsorption equilibrium constant. However, the equilibrium constant can only be accurately determined if the true bulk concentration is known; this thesis describes an approach to ensure this. The equilibrium constant relates to Gibbs free energy and is the start to obtaining other thermodynamic information. The long equilibration times of analytes with the stationary phase observed in this study emphasize the importance of both thermodynamic information and kinetic values for understanding retention. Once equilibrium constants and other parameters are accurately obtained, this information can be used to improve predictions and calculations from numerical models.

reversed-phase liquid chromatography

RPLC

C-18

second harmonic generation

SHG

surface isotherms

adsorption

PAH

pyrene

Biochemistry

Chemistry

Combined Effects of Polycyclic Aromatic Hydrocarbons and Ultraviolet Light on Benthic and Pelagic Macroinvertebrates

Chapman, Abigail L.

05 1900

Crude oil commonly enters freshwater aquatic ecosystems as thin sheens forming on the water surface. Oil contains mixtures of toxic compounds called polycyclic aromatic hydrocarbons (PAHs), some of which are known to be photodynamic, increasing toxicity when combined with ultraviolet radiation. Benthic macroinvertebrate communities are commonly utilized as bioindicators, and as such rely on abundant data in literature concerning benthic macroinvertebrates' relative tolerances to a wide range of pollutants. A series of 10 plastic traps, half of which were filtered from UV radiation, were deployed in an urban pond for 27 days to determine colonization preferences of benthic macroinvertebrates to UV exposure. Results of this in situ experiment indicated that the majority of aquatic insects collected from traps inhabited the UV exposed treatment group, particularly the nonbiting midge, Chironomidae. A series of bioassays were then completed to investigate the sensitivities of a Chironomidae species to thin sheens of crude oil in the presence and absence of UV radiation. All bioassays were conducted using 10 day old Chironomus dilutus larvae cultured in the lab. The series of C. dilutus bioassays were all conducted under the same water quality parameters, temperatures, and oil sheen dosing methods, under a 16:8 photoperiod and exposed to 16 h UV per day. Five replicates (n = 20) were loaded into 350 mL glass crystallizing dishes and exposed to four treatments for 96 hours: no UV/with sheen, with UV/no sheen, both UV and oil sheen, and a control. Three assays with 175 mL water volume were completed, one with no sediment, one with silica sand, and one with fine sand. Sediment type had a significant effect on mortality (p < 0.0001), but significant effects of UV or PAHs were not found. Two more C. dilutus assays were completed with identical parameters as the latter two with sediment, except a decreased water volume of 90 mL was used to bring the sheen closer to sediment. There was a significant effect of PAHs on mortality (p = 0.0003), however, no clear trend showing PAHs driving mortality. Results showed no significant effects of UV, sediment type, or relationship between UV and PAHs. A final bioassay was completed to compare phototoxic effects of PAHs on pelagic organisms with benthic organisms. This bioassay used test species Daphnia magna, for a 48 h exposure period with five replicates (n = 10), 8 h UV exposure and 16:8 photoperiod. All individuals in the control group and UV only group exhibited 0% mortality, and with sheen/with UV treatment group resulted in 100% mortality following the 48 h exposure. The results of the D. magna exposure showed significant effects of PAHs (p < 0.0001), UV (p = 0.037), and photoinduced toxicity (p = 0.024), and were consistent with similar bioassays in the literature. This study suggests that C. dilutus are at low risk to photo-induced oil sheen toxicity.

PAH

Polycyclic Aromatic Hydrocarbons

UV

Radiation

Chironomidae

Insects

Aquatic

Toxicology

Chironomus

Daphnia

Thin Sheen

Oil

Ultraviolet

Biology, General

Evaluating the use of a theory-based intervention to improve medication-taking behaviours: A Longitudinal mixed-methods study in patients with Pulmonary Arterial Hypertension. Applying Health Belief Model theory to understand patients’ medication and disease beliefs and using this to develop and evaluate targeted interventions delivered by a pharmacist to improve medication adherence

Jackson, Michael P.

January 2020

Pulmonary Arterial Hypertension (PAH) is a rare incurable condition affecting both the cardiac and respiratory systems. Patients living with PAH face the burden of both intensive medication regimens and debilitating disease symptoms. This study’s primary aim was to identify patients’ medication-taking behaviours and beliefs using a framework derived from the extended health belief model (EHBM), and to use this information to deliver personalised interventions to improve medication-taking behaviours. A mixed-methodology longitudinal study design recorded patients’ parameters over a 12-month period. Thirteen participants from Northern Ireland completed the study. The results showed that the level of high-adherence to PAH medicines, as assessed using the MARS questionnaire was 80%, but this value differed when assessed via pill counting and interview data. There was a trend to improvement in observed and predicted medication adherence over the study duration. Participants’ beliefs showed a non-statistical increase in the specific-necessity beliefs and a reduction in general-overuse belief. This study added to the EHBM new constructs of trust and support in being able to better predict nonadherent behaviours. Key medication-taking themes were self-confidence, perceived ranking of medicines, uncertainty and knowledge. This study developed important learning that can be applied to future research on behavioural health studies. / Heart Trust Fund; Actelion Pharmaceuticals

Belief

Adherence

Medication

Complience

Health Belief Model

Behaviour

Intervention

Education

Pulmonary Arterial Hypertension (PAH)

Parmacist interventions

Patients

Pharmacists

Quantification of PAHs and PCBs in eThekwini aquatic systems, using chemical and biological analysis / Natasha Lee Vogt

Vogt, Natasha Lee

January 2014

Polycyclic aromatic hydrocarbons (PAHs) and polychlorinated biphenyls (PCBs) are common contaminants of sediment, soils and biological tissues. These compounds pose a significant risk to biological and ecosystem health and functioning due to these compounds being mutagenic, carcinogenic and are known to disrupt the endocrine system. The bioaccumulation and biomagnification potential that these compounds possess mean that they are capable of affecting the entire food chain and are not limited to the organisms that are directly in contact with the compounds Even though there has been an increase in the attention on identifying the presence and impacts that these compounds may have in South Africa, the level of attention is lower than what it is in other countries around the world. Although South Africa has guidelines in place for other pollutants, such as metals, there are no such guidelines in place to monitor PAHs and PCBs.. Industries are known to release both PAHs and PCBs, mainly from incomplete burning processes and the release of oils and fuels in the case of PAHs, and from heat transfer fluids in the case of PCBs. Durban Bay and surrounding areas of eThekwini, KwaZulu-Natal are highly industrialised with many aquatic systems, in which these contaminants are likely to deposit. The aim of this research was to determine the concentrations of these compounds by means of chemical analysis and additionally biological analysis, using the H4IIE-luc bioassay and compare these levels to international guideline levels. It was found that the concentrations of the 23 analysed PAHs were 6.5–3 235.6 ng.g-1 and the concentration of the PCBs analysed were 0–113.83 ng.g-1. Many sites were found to be in exceedance of the guideline limits, particularly in the harbour. Toxic equivalency factors (TEF) were used to gauge the toxic equivalency (TEQ) of the PAHs and PCBs that were found. The TEQs were generally low, and were below any guideline levels. The assay revealed the extract containing the PCBs had a bioassay equivalence (BEQ) of 0–93.54 pgTCDDeq. g-1 and the extract containing the PAHs of 0–776.08 pgTCDD-eq.g-1. With a proportion of the sites exceeding guideline limits. The BEQ results were two to three orders of magnitude greater than the TEQs calculated from the concentrations determined by the instrumental analysis, however, followed a similar trend. Additionally chemical analysis was not performed on a full suite of compounds that are able to elicit a response from the cells, which could be a reason why the BEQ and TEQ did not follow a similar trend among some of the samples. It would have been more beneficial to have performed chemical analysis on the 16 priority PAHs (as determined by the United States Environmental Protection Agency), the dioxin-like PCBs and polychlorinated dibenzo-p-dioxins (PCDD) and polychlorinated dibenzofurans (PCDFs) which are all capable of eliciting a response from the cells and have TEF values. The areas that were most affected by contamination of these compounds was the harbour and surrounding canals, and there was point source contamination along the Umhlatuzana, Umbilo, and Amanzimnyana Rivers. All dl-PCBs should be chemically analysed at all the sample areas, as these cause adverse effects to biota. In addition to this, biota should be sampled to determine concentrations of the compounds to determine bioavailability and the degree of bioaccumulation in the food chain. Utilising biomarkers it would be possible to determine stresses of fish. / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2014

Polychlorinated biphenyl (PCB)

Polycyclic aromatic hydrocarbons (PAH)

H4IIE-luc

eThekwini

KwaZulu-Natal

South Africa

Toxic equivalency factor (TEF)

Bioassay equivalency (BEQ)

Quantification of PAHs and PCBs in eThekwini aquatic systems, using chemical and biological analysis / Natasha Lee Vogt

Vogt, Natasha Lee

January 2014

Polycyclic aromatic hydrocarbons (PAHs) and polychlorinated biphenyls (PCBs) are common contaminants of sediment, soils and biological tissues. These compounds pose a significant risk to biological and ecosystem health and functioning due to these compounds being mutagenic, carcinogenic and are known to disrupt the endocrine system. The bioaccumulation and biomagnification potential that these compounds possess mean that they are capable of affecting the entire food chain and are not limited to the organisms that are directly in contact with the compounds Even though there has been an increase in the attention on identifying the presence and impacts that these compounds may have in South Africa, the level of attention is lower than what it is in other countries around the world. Although South Africa has guidelines in place for other pollutants, such as metals, there are no such guidelines in place to monitor PAHs and PCBs.. Industries are known to release both PAHs and PCBs, mainly from incomplete burning processes and the release of oils and fuels in the case of PAHs, and from heat transfer fluids in the case of PCBs. Durban Bay and surrounding areas of eThekwini, KwaZulu-Natal are highly industrialised with many aquatic systems, in which these contaminants are likely to deposit. The aim of this research was to determine the concentrations of these compounds by means of chemical analysis and additionally biological analysis, using the H4IIE-luc bioassay and compare these levels to international guideline levels. It was found that the concentrations of the 23 analysed PAHs were 6.5–3 235.6 ng.g-1 and the concentration of the PCBs analysed were 0–113.83 ng.g-1. Many sites were found to be in exceedance of the guideline limits, particularly in the harbour. Toxic equivalency factors (TEF) were used to gauge the toxic equivalency (TEQ) of the PAHs and PCBs that were found. The TEQs were generally low, and were below any guideline levels. The assay revealed the extract containing the PCBs had a bioassay equivalence (BEQ) of 0–93.54 pgTCDDeq. g-1 and the extract containing the PAHs of 0–776.08 pgTCDD-eq.g-1. With a proportion of the sites exceeding guideline limits. The BEQ results were two to three orders of magnitude greater than the TEQs calculated from the concentrations determined by the instrumental analysis, however, followed a similar trend. Additionally chemical analysis was not performed on a full suite of compounds that are able to elicit a response from the cells, which could be a reason why the BEQ and TEQ did not follow a similar trend among some of the samples. It would have been more beneficial to have performed chemical analysis on the 16 priority PAHs (as determined by the United States Environmental Protection Agency), the dioxin-like PCBs and polychlorinated dibenzo-p-dioxins (PCDD) and polychlorinated dibenzofurans (PCDFs) which are all capable of eliciting a response from the cells and have TEF values. The areas that were most affected by contamination of these compounds was the harbour and surrounding canals, and there was point source contamination along the Umhlatuzana, Umbilo, and Amanzimnyana Rivers. All dl-PCBs should be chemically analysed at all the sample areas, as these cause adverse effects to biota. In addition to this, biota should be sampled to determine concentrations of the compounds to determine bioavailability and the degree of bioaccumulation in the food chain. Utilising biomarkers it would be possible to determine stresses of fish. / MSc (Environmental Sciences), North-West University, Potchefstroom Campus, 2014

Polychlorinated biphenyl (PCB)

Polycyclic aromatic hydrocarbons (PAH)

H4IIE-luc

eThekwini

KwaZulu-Natal

South Africa

Toxic equivalency factor (TEF)

Bioassay equivalency (BEQ)