Air pollution and health: distribution and determinants of exposure in Montreal, Quebec with a focus on polycyclic aromatic hydrocarbon assessment

Miao, QUN

30 July 2013

Background: The International Agency for Research on Cancer has classified diesel exhaust as a carcinogen, and specific polycyclic aromatic hydrocarbons (PAHs) as probable carcinogens. Urban air pollution is one source of PAH exposure. These facts provided motivation to pursue three thesis objectives: 1) to critically review environmental inequity research in Canada and methods used in previous studies; 2) to determine associations between socio-demographic factors and residential traffic exposure; and, 3) to assess correlations between two PAH biomarkers and their relationship with a newer geographic information system (GIS) method (a proxy of PAH exposure measurement), and explore determinants of these two PAH biomarkers. Methods: The first objective was achieved through an extensive and critical literature review. The second and third objectives were achieved through conducting a cross-sectional study in Montreal where 107 female and 93 male volunteers completed a questionnaire and provided a urine sample for measurement of 1-hydroxypyrene (1-OHP) and 1-hydroxypyrene glucuronide (1-OHPG). GIS-based distance-weighted traffic density (DWTD) at participants’ residences and time- and distance-weighted traffic density (TDWTD) for all participants’ locations in the 48 hours before urine collection were calculated. Results: Participants with lower household income and unemployment/student status were more likely to be exposed to higher traffic density at their residence. DWTD was related to self-reported living within 100 meters of highway/major roads. Detection rates for the two biomarkers were over 95%, and females have higher 1-OHP and 1-OHPG levels (exp β: 1.56, 95% CI: 1.17 to 2.09; exp β: 1.49, 95% CI: 1.05 to 2.11, respectively) than males. Smoking in the 48-hour period before urine collection significantly predicted levels of biomarkers, and among non-smokers barbecued/grilled meat consumption was implicated in increases in 1-OHP. Conclusions: Those with lower household income and unemployment/student status experienced increased traffic exposure, while education, marital status and ethnicity were not associated with traffic exposure. While higher levels among females and an interaction with sex needs further study, PAH biomarkers are useful in capturing recent PAH exposure from smoking, and barbecued/grilled meat consumption. PAH biomarkers can be easily used in epidemiologic studies to assess general population exposures. / Thesis (Ph.D, Community Health & Epidemiology) -- Queen's University, 2013-07-30 10:41:50.321

biomarker

environmental equity

air pollution

assessment

geographic information system

Polycyclic aromatic hydrocarbon

Anthropogenic secondary organic aerosol from aromatic hydrocarbons

Al-Naiema, Ibrahim Mohammed Jasim

01 May 2018

Atmospheric aerosols deteriorate visibility and pose a significant risk to human health. The global fluxes of secondary organic aerosols (SOA) that form in the atmosphere from aromatic hydrocarbons are poorly constrained and highly uncertain. The lack of molecular tracers to quantify anthropogenic SOA (ASOA) in part limits the understanding of its abundance and variability, and results in a systematic underestimation of the role of ASOA in the atmosphere. The research presented in this thesis advances the knowledge about ASOA through the i) development of new and advanced methods to quantify potential ASOA tracers, ii) evaluation of their suitability as tracers for ASOA, and iii) application of the validated tracers to assess the spatial, diurnal and seasonal variation of ASOA in three urban environments. In this research, a greater understanding of the role of ASOA is gained through the expansion of tracers for SOA from aromatic hydrocarbons. An analytical method to quantify furandiones, which are produced in high yields from the photooxidation of aromatic hydrocarbons, was developed and enabled the first ambient measurements of furandiones. The optimized method allows for the simultaneous extraction of primary source tracers (e.g., polycyclic aromatic hydrocarbons, hopanes, levoglucosan) and other potential ASOA tracers (e.g., 2,3-dihydroxy-4-oxopentanoic acid [DHOPA], benzene dicarboxylic acids, and nitromonoaromatics). The systematic evaluation of potential ASOA tracers by their detectability, gas-particle partitioning, and specificity revealed that DHOPA, phthalic acid, 4-methylphthalic acids, and some nitromonoaromatics are good ASOA tracers because they are specific to aromatic hydrocarbon photooxidation, readily detected in ambient air, and substantially partition to the particle phase under ambient conditions. These tracers are thus recommended for use in field studies to estimate ASOA contributions to atmospheric aerosol relative to other sources. ASOA was determined to be a significant contributor to PM2.5 organic carbon (OC) in three urban environments. In the industrial Houston Ship Channel area in Houston, TX, ASOA contributed 28% of OC, while biogenic SOA (BSOA) contributed 11%. Diurnally, ASOA peaked during daytime and was largely associated with motor vehicle emissions. In Shenzhen, a megacity in China, 13-23% of OC mass was attributed to ASOA, three folds higher than BSOA. When China controlled the emissions from fossil fuel-related sources, the ASOA contribution to OC reduced by 42-75% and visibility remarkably improved. In downtown Atlanta, GA, ASOA contributed 29% and 16% of OC during summer and winter, respectively. ASOA dominates over BSOA during winter, while high biogenic VOC fluxes made BSOA the major SOA source in Atlanta, GA during summertime. These results indicate the high abundance of ASOA in urban air that has potential to be reduced by modification of anthropogenic activities. Overall, the work presented in this dissertation advances the knowledge about the abundance and variation of ASOA in urban atmospheres through the development of quantification methods and expansion of ASOA tracers. These tracers improve source apportionment of ASOA in receptor based models, which can ultimately aid in developing and implementing effective strategies for air quality management.

Anthropogenic SOA

Aromatic hydrocarbon

Atmospheric particulate matter

Secondary organic aerosol

Source apportionment

Chemistry

Bioremediation of polycyclic aromatic hydrocarbon (PAH)-contaminated soils in a roller baffled bioreactor

Yu, Ruihong

26 July 2006

Contamination of soil with Polycyclic Aromatic Hydrocarbons (PAHs) is a serious environmental issue because some PAHs are toxic, carcinogenic and mutagenic. Bioremediation is a promising option to completely remove PAHs from the environment or convert them to less harmful compounds. One of the main challenges in bioremediation of PAHs in a conventional roller bioreactor is the limitation on mass transfer due to the strong hydrophobicity and low water solubility of these compounds. To address this challenge, a novel bead mill bioreactor (BMB) was developed by Riess et al. (2005) which demonstrated a significant improvement in the rates of mass transfer and biodegradation of PAHs. <p> In this study, to further improve mass transfer rates, baffles have been installed in both the conventional and bead mill bioreactors. Mass transfer rates of 1000 mg L-1 suspended naphthalene, 2-methylnaphthalene and 1,5-dimethylnaphthalene, three model compounds of PAHs, have been investigated in four bioreactors: conventional (control), baffled, BMB and baffled bead mill bioreactors. The baffled bioreactor provided mass transfer coefficients (KLa) that were up to 7 times higher than those of the control bioreactor. <p> Bioremediation of suspended naphthalene or 2-methylnaphthalene as a single substrate and their mixtures was studied using the bacterium <i>Pseudomonas putida </i>ATCC 17484. Both baffled and bead mill bioreactors provided maximum bioremediation rates that were 2 times higher than the control bioreactor. The maximum bioremediation rates of 2-methylnaphthalene were further increased in the presence of naphthalene by a factor of 1.5 to 2 compared to the single substrate. <p> Another rate-limiting step for bioremediation of PAH-contaminated soil is the strong sorption between the contaminant and soil. To find out the effect of sorption on the bioavailability of naphthalene, the appropriate sorption isotherms for three types of soils (sand, silt and clay) have been determined. It was observed that the sorption capacity of soils for naphthalene was proportional to the organic carbon content of the soils. The mass transfer of soil-bound naphthalene from the artificially prepared contaminated soils with short contamination history to the aqueous phase was studied in both the control and bead mill bioreactors. It was observed that the mass transfer was unexpectedly fast due to the increased interfacial surface area of naphthalene particles and the weak sorption between naphthalene and soils. It was concluded that artificially, naphthalene contaminated soils would likely not be any more difficult to bioremediate than pure naphthalene particles.

soils

cometabolism

sorption

bioremediation

polycyclic aromatic hydrocarbon

roller baffled bioreactor

mass transfer

Bioremediation of polycyclic aromatic hydrocarbon (PAH)-contaminated soils in a roller baffled bioreactor

Yu, Ruihong

26 July 2006

Contamination of soil with Polycyclic Aromatic Hydrocarbons (PAHs) is a serious environmental issue because some PAHs are toxic, carcinogenic and mutagenic. Bioremediation is a promising option to completely remove PAHs from the environment or convert them to less harmful compounds. One of the main challenges in bioremediation of PAHs in a conventional roller bioreactor is the limitation on mass transfer due to the strong hydrophobicity and low water solubility of these compounds. To address this challenge, a novel bead mill bioreactor (BMB) was developed by Riess et al. (2005) which demonstrated a significant improvement in the rates of mass transfer and biodegradation of PAHs. <p> In this study, to further improve mass transfer rates, baffles have been installed in both the conventional and bead mill bioreactors. Mass transfer rates of 1000 mg L-1 suspended naphthalene, 2-methylnaphthalene and 1,5-dimethylnaphthalene, three model compounds of PAHs, have been investigated in four bioreactors: conventional (control), baffled, BMB and baffled bead mill bioreactors. The baffled bioreactor provided mass transfer coefficients (KLa) that were up to 7 times higher than those of the control bioreactor. <p> Bioremediation of suspended naphthalene or 2-methylnaphthalene as a single substrate and their mixtures was studied using the bacterium <i>Pseudomonas putida </i>ATCC 17484. Both baffled and bead mill bioreactors provided maximum bioremediation rates that were 2 times higher than the control bioreactor. The maximum bioremediation rates of 2-methylnaphthalene were further increased in the presence of naphthalene by a factor of 1.5 to 2 compared to the single substrate. <p> Another rate-limiting step for bioremediation of PAH-contaminated soil is the strong sorption between the contaminant and soil. To find out the effect of sorption on the bioavailability of naphthalene, the appropriate sorption isotherms for three types of soils (sand, silt and clay) have been determined. It was observed that the sorption capacity of soils for naphthalene was proportional to the organic carbon content of the soils. The mass transfer of soil-bound naphthalene from the artificially prepared contaminated soils with short contamination history to the aqueous phase was studied in both the control and bead mill bioreactors. It was observed that the mass transfer was unexpectedly fast due to the increased interfacial surface area of naphthalene particles and the weak sorption between naphthalene and soils. It was concluded that artificially, naphthalene contaminated soils would likely not be any more difficult to bioremediate than pure naphthalene particles.

soils

cometabolism

sorption

bioremediation

polycyclic aromatic hydrocarbon

roller baffled bioreactor

mass transfer

Mitochondria as a Target of Benzo[a]pyrene Toxicity in a PAH-adapted and Naive Population of the Atlantic Killifish (Fundulus Heteroclitus)

Jung, Dawoon

January 2009

<p>Polycyclic aromatic hydrocarbons (PAHs) are important contaminants that are found in increasing amounts in aquatic ecosystems. One of the sites that that is contaminated by extremely high levels of PAHs is the Atlantic Wood Industries Superfund Site on the Elizabeth River, VA. The Atlantic killifish (<italic>Fundulus heteroclitus</italic>) from this site exhibit increased levels of antioxidants, increased sensitivity to hypoxia, and increased expression of enzymes involved in glycolytic metabolism, suggesting that exposure to PAHs in the environment may induce changes in mitochondrial function and energy metabolism. Normal mitochondrial activity is crucial to an organism's survival. Therefore, gaining a better understanding of how mitochondria are affected by environmental contaminants such as PAHs is a pressing research objective. As a first step in understanding changes in cellular bioenergetics of aquatic organisms in response to PAHs, this research focused on the effect of benzo[a]pyrene (BaP), a representative PAH, on mitochondria the killifish model and on comparison of the mitochondria of the PAH-adapted killifish from the Elizabeth River Superfund Site to reference site fish. In order to assess the extent of mitochondrial DNA damage in the killifish, a PCR-based assay (LA-QPCR) for nuclear and mitochondrial DNA (nDNA, mtDNA) damage was adapted to this model and validated in with UV exposure and BaP exposure studies, as well as with <italic>ex situ</italic> study examining DNA damage in killifish inhabiting the Elizabeth River Superfund site. With the newly adapted LA-QPCR, mtDNA and nDNA damage in the killifish from the Elizabeth River Superfund site and from a reference site (King's Creek, VA) that were treated with BaP were examined. Similar increases in mitochondrial and nuclear DNA damage were observed in King's Creek fish treated with BaP. Killifish from the Elizabeth River showed high levels of basal nDNA and mtDNA damage compared to fish from the reference site, but the level of damage induced due to BaP treatment was much lower in Elizabeth River killifish. Laboratory-reared offspring from both populations showed increased BaP-induced damage in mtDNA, relative to nDNA. Similar to the adult experiment, the Elizabeth River larvae had higher levels of basal DNA damage than those from the reference site, but were less impacted by BaP exposure. Results suggest that BaP exposure can have important energetic consequences and that multi-generational exposure in the wild may lead to adaptation that dampens DNA damage arising from BaP exposure. Since the toxic effects of many PAHs are the result of bioactivation by cytochrome P4501A (CYP1A), the existence of enzymes that can potentially metabolize PAHs in mitochondria was verified. Using Western blot, protein similar in size to microsomal CYP1A was identified with monoclonal antibody against scup CYP1A in the mitochondrial fraction from adult male killifish livers. The size of the protein in the mitochondria was the similar to that of microsomal CYP1A. Fish dosed with BaP had increased EROD activity in the liver mitochondrial fraction compared to controls. In killifish larvae dosed with BaP and benzo[k]fluoranthene (BkF), CYP1A protein levels as well as enzyme activity were elevated. However, fish from the Elizabeth River Superfund site showed recalcitrant mitochondrial CYP1A protein levels and enzyme activity in a similar manner to microsomal CYP1A. Finally, the hypothesis that energy metabolism of BaP-treated fish may be different from the control group and that killifish from the Elizabeth River Superfund site may also have altered energy metabolism compared to reference site fish was tested. Respiration of killifish embryos treated with BaP from both populations was measured. Compared to the King's Creek control fish, all other treatment groups showed decrease in oxygen consumption, indicating lower respiration rate. However, when activities of key enzymes involved in glycolysis (PK) and anaerobic metabolism (LDH) in adult killifish liver and muscle were measured, no differences in the enzyme activities were observed in BaP-treated group compared to the control group. Moreover, metabolomic analysis on BaP treated King's Creek and Elizabeth River killifish showed no difference in the profile in all four treatment groups. The findings in this thesis contribute to the understanding of how BaP, a common environmental pollutant in the aquatic ecosystem, targets the mitochondria in fish model. Nevertheless, deeper examination of how BaP may impact mitochondrial function in killifish and potentially influence adaptation of killifish at a highly contaminated site is necessary. Further studies will elucidate whether such impacts can potentially affect the energy budget and organism level fitness in populations in the wild.</p> / Dissertation

Environmental Sciences

Health Sciences, Toxicology

Elizabeth River Superfund Site

Fundulus heteroclitus

mitochondria

polycyclic aromatic hydrocarbon

Molecular Mechanisms Underlying Adaptation to PAHs in Fundulus heteroclitus

Clark, Bryan

January 2010

<p>Chronic exposure to toxicant mixtures is a serious threat to environmental and human health. It is especially important to understand the effects of these exposures for contaminants, such as polycyclic aromatic hydrocarbons (PAHs), which are toxic, ubiquitous, and increasingly prevalent. Furthermore, estuarine systems are of particular concern, as they are highly impacted by a wide variety of pollutants; fish there are often exposed to some of the highest levels of contaminants of any vertebrate populations, along with other stressors such as fluctuations in water level, dissolved oxygen, and temperature. A population of <italic>Fundulus heteroclitus</italic> (the Atlantic killifish or mummichog, hereafter referred to as killifish) inhabits a Superfund site heavily contaminated with a mixture of PAHs from former creosote operations; they have developed resistance to the acute toxicity and teratogenic effects caused by the mixture of PAHs in sediment from the site. The primary goal of this dissertation was to better understand the mechanism(s) by which Elizabeth River killifish resist the developmental toxicity of a complex mixture of PAHs and to investigate the tradeoffs associated with this resistance. Because the aryl hydrocarbon receptor (AHR) pathway plays an important role in mediating the effects of PAHs, one major hypothesis of my work was that suppression of the AHR response plays an important role in the resistance of Elizabeth River killifish. For this reason, investigation of the activation of the AHR pathway, as measured by CYP induction, is a unifying thread throughout the work. Another major hypothesis of this work is that adaptation to PAHs has secondary consequences for Elizabeth River killifish, such as altering their response to other xenobiotics. To investigate these hypotheses, a series of experiments were carried out in PAH-adapted killifish from the Elizabeth River and in reference fish. The morpholino gene knockdown technique was modified for use in killifish; we demonstrated that CYP1A knockdown exacerbates PAH-driven cardiac teratogenesis and AHR2 (but not AHR1) knockdown rescues PAH-driven cardiac teratogenesis. Using acute toxicity tests of larval killifish, we showed that Elizabeth River killifish are less sensitive than reference larvae to chlorpyrifos, permethrin, and carbaryl. These results demonstrated that the adaptation was able to protect from multiple xenobiotics, not just PAHs. Using the in ovo ethoxyresorufin-o-deethylase (EROD) assay and a subjective cardiac deformity screen, we showed that the adaptation was spread throughout the killifish subpopulations of the Elizabeth River estuary. However, the adaptive response varied greatly among the subpopulations, which showed that AHR pathway suppression was not required for some level of protection from PAH toxicity. Finally, using the quantitative real-time PCR, the EROD assay, and cardiac deformity screening, we demonstrated that the adaptation was heritable for two generations of fish reared in clean laboratory conditions. The findings in this dissertation will help to reveal how mixtures of PAHs exert their toxic action in un-adapted organisms. Furthermore, these studies will hopefully demonstrate how chronic exposure to PAH mixtures can affect organisms at the population and even evolutionary level. Perhaps most importantly, they will help us to better predict the consequences and tradeoffs for organisms and populations persisting in PAH-contaminated environments.</p> / Dissertation

Health Sciences, Toxicology

Environmental Sciences

adaptation

aryl hydrocarbon receptor

Fundulus heteroclitus

polycyclic aromatic hydrocarbon

PFI-ZEKE SPECTROSCOPY AND THEORETICAL CALCULATIONS OF TRANSITION METAL-AROMATIC HYDROCARBON COMPLEXES

Sohnlein, Bradford Raymond

01 January 2007

Transition metal-aromatic hydrocarbon complexes were generated in a supersonic jet and studied by zero electron kinetic energy (ZEKE) photoelectron spectroscopy and theoretical calculations. The target metal complexes were identified using time-of-flight mass spectrometry, and their ionization thresholds were located via photoionization efficiency spectroscopy. ZEKE spectroscopy was used to measure the ionization energies and vibrational frequencies of the metal complexes. Their electronic states and corresponding molecular structures were determined by comparing the experimental spectra to quantum chemical calculations and Franck-Condon simulations. In this dissertation, the metal complexes of four different aromatic hydrocarbon ligands were studied: benzene (bz), naphthalene (np), biphenyl (bp) and 1-phenyl naphthalene (phnp). In these complexes, the metal atom or ion was determined to bind to either one or two -rings. Three different bonding schemes were observed in these complexes. A twofold bonding scheme was observed in M+/M-np (M = Sc, Y, Ti, Zr, Hf), while a sixfold bonding scheme was observed in Sc+/Sc-bz and M+/M-bz2 (M = Sc, Ti, V, Cr, Mo, W). In the metal-polyphenyl complexes (i.e. Sc-, La-, and Ti-bp and Sc-phnp), twelve-fold metal-ligand bonding occurred, sixfold to two -rings of the ligand. This twelve-fold bonding mechanism requires rotation of the -rings by ~ 42 o and bending of the -rings by 40 to 57 o to clamp the metal atom or ion between the two -surfaces. Although the ground state spin multiplicities of the bare metal atoms and ions varied quite extensively, the multiplicities of the metal complexes were determined to be either singlet or doublet, except for Sc+/Sc-bz, V+-bz2, Ti-np, and Zr-np, where the triplet or quartet spin multiplicities were favored. The low spin and relatively narrower range of electron-spin multiplicities in the complexes were the result of d orbital splitting, where the degeneracy of the d orbitals was broken. Thus, the valence electrons were paired in each metal d-based molecular orbital of the complex to form low-spin singlet or doublet spin states. Some complexes favored triplet and quartet multiplicities, because the energy difference between the two highest occupied molecular orbitals was smaller than the electron pairing energy.

Development of a novel air pollution monitoring strategy combining passive sampling with toxicity testing

Karen Kennedy

Unknown Date

The presence of complex mixtures of compounds in ambient air, many of which are either unknown or uncharacterised makes an assessment of risk associated with these exposures problematic. Bioanalytical methods can provide an integrative assessment of complex mixture potency for specific mechanisms of toxicity within these contexts. The aim of this study was to evaluate the suitability of monitoring ambient air exposures as sampled by (polyurethane foam) PUF passive air samplers (PAS) using effect based techniques (bioanalytical methods). Passive samplers have the advantage of offering a low-tech inexpensive monitoring strategy which can thereby increase sampling capacity across a broader range of scenarios simultaneously. One challenge posed by the application of passive samplers in particular for these assessments has been the expression of potency estimates in relatively non-comparable terms specific to a given dose of the sampler or for a specific deployment period. The project was therefore designed in order to address these aims and previously identified challenges by investigating the applicability of these techniques for: monitoring in both indoor and outdoor air, the determination of seasonal exposure gradients; the determination of exposure gradients in different locations (urban capitals, regional centres, background); and the application of in-situ calibration to provide comparable effect measurements in terms of equivalent reference compound air concentrations. Air sampled using PUF PAS was monitored for its capacity to induce biological responses which are mechanistically relevant to critical health endpoints in these scenarios. The mechanisms assessed included genotoxicity (DNA damage – umuC assay), Aryl hydrocarbon receptor (AhR) activity (CAFLUX assay), and estrogenicity (ESCREEN assay). The findings from this effect based monitoring revealed that the level of biological response measured changes with the exposure scenario (indoor vs. outdoor; summer vs. winter; urban capital cities vs. background locations). Estrogenicity for example assessed as estradiol equivalent air concentrations (E Eq BIO) averaged 54 pg.m-3 (1.5 - 185 pg.m-3) in indoor air, while samples from ambient air were found to be not estrogenic. Total aryl hydrocarbon receptor (AhR) activity assessed as 2,3,7,8-tetrachlorodibenzo-p-dioxin equivalent air concentrations (TCDD Eq BIO) averaged 4.1 pg.m-3 (1.3 – 7.2 pg.m-3) in indoor air while samples from ambient air averaged 15 pg.m-3 (1.5 – 46 pg.m-3)in summer and 53 pg.m-3 (2.2 – 251 pg.m-3) in winter. The relationship for both direct (-S9) and indirect (+S9) acting genotoxicity and AhR activity were found to be relatively consistent with respect to both season (elevated in winter) and location (elevated in urban capital cities). Overall suitable techniques were developed for combining passive sampling with multiple end-point toxicity testing and it was demonstrated that these techniques may be applied across different exposure scenarios. During the course of this method development and interpretation process a range of limitations were identified relating to: the use and application of effect based techniques to monitor environmental samples; the use of passive samplers within this context specifically; and also with the application of in-situ calibration techniques to passive samplers to improve the comparability of these assessments.

passive air sampling

toxicity testing

bioassays

polycyclic aromatic hydrocarbon

semivolatile organic chemicals

air pollution

Avaliação regional da contaminação por hidrocarbonetos policíclicos aromáticos (HPAs) na região costeira do sudeste do Brasil usando mexilhões (Perna perna Linneaus 1758) como biomonitores / Avaliação regional da contaminação por hidrocarbonetos policíclicos aromáticos (HPAs) na região costeira do sudeste do Brasil usando mexilhões (Perna perna Linneaus 1758) como biomonitores / Regional assessment of PAHs contamination in SE Brazil using brown mussels (Perna perna, Linneaus 1758) / Regional assessment of PAHs contamination in SE Brazil using brown mussels (Perna perna, Linneaus 1758)

Renato Yoshimine Vieira

23 March 2012

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O objetivo do presente trabalho foi avaliar a presença e a distribuição de hidrocarbonetos policíclicos aromáticos (HPAs) em mexilhões coletados em 23 estações, divididas em três regiões: (i) cultivos localizados no Estado do Rio de Janeiro (7 estações) e em Ubatuba/SP (1 estação); (ii) áreas costeiras no Estado do Rio de Janeiro (7 estações) e (iii) na Baía de Guanabara/RJ (8 estações). Os HPAs foram determinados em triplicata de cada estação, sendo cada réplica formada por uma média de 10 indivíduos, através de cromatografia em fase gasosa acoplada a espectrometria de massas (GC/MS), totalizando 38 compostos entre parentais e alquilados. A concentração média do total de HPAs nos cultivos, excluindo o cultivo de Mombaça (Ilha Grande), foi de 24,7 22,3 ng g-1, para as áreas costeiras foi de 89,7 25,8 ng g-1 e para a Baía de Guanabara, 760,9 456,3 ng g-1. Esses resultados indicam que os cultivos (exceto Mombaça) e as áreas costeiras selecionadas apresentam baixos níveis de contaminação. Já na Baía de Guanabara, os resultados foram comparáveis a dados pretéritos e confirmam o estado de degradação ambiental da baía. Na amostra coletada no cultivo de Mombaça, a alta concentração do total de HPAs (584 ng g-1) e a predominância de compostos alquilados sobre parentais sugerem contaminação relativamente alta por hidrocarbonetos petrogênicos. A análise de agrupamento, considerando o total de HPAs, confirmou a separação entre as três áreas coletadas, mas com algumas exceções: (i) o cultivo de Mombaça assemelha-se ao grupo da Baía de Guanabara; (ii) a estação da Praia Vermelha, na saída da Baía de Guanabara, se assemelha com áreas costeiras fora da baía; (iii) as estações Ilha Redonda, Ilha Comprida e Pontal, distantes mais de 5 km da costa, se agruparam com os cultivos. Somente nas amostras da Baía de Guanabara foi possível avaliar a origem dos HPAs através da análise de componentes principais (PCA). A maioria das amostras da baía apresenta contaminação por fontes mistas de hidrocarbonetos, e apenas na praia Vermelha o aporte pirolítico é mais significativo. Por fim, ressalta-se que os níveis de HPAs nos mexilhões das três áreas ficaram abaixo de valores de referência exigidos internacionalmente para o consumo humano. No entanto, é necessário uma análise de risco específica para melhor compreender a qualidade do mexilhão para consumo humano, particularmente os da Baía de Guanabara. / The aim of the present study was to evaluate the presence and distribution of polycyclic aromatic hydrocarbons (PAHs) in mussels collected from 23 stations, divided into three regions: (i) mussel crops in the State of Rio de Janeiro (7 sampling stations) and Ubatuba/SP (1 sampling station), (ii) coastal areas of the State of Rio de Janeiro (7 sampling stations) and (iii) Guanabara Bay/RJ (8 sampling stations). The PAHs were determined in triplicate for each station, with each replica composed of an average of 10 individuals, by gas chromatography coupled to mass spectrometry (GC/MS), totaling 38 compounds between parental and alkylated PAH. The mean total PAH concentration in the crops, with the exception of Mombaça (at Ilha Grande), was of 24.7 22.3 ng g-1, while the mean for the coastal areas was of 89.7 25.8 ng g-1, and of 760.9 456.3 ng g-1 for the Guanabara Bay. These results indicate that the mussel crops (with the exception of Mombaça) and the selected coastal areas present low contamination levels. Guanabara Bay, on the other hand, showed results comparable to past data, confirming the state of environmental degradation of the bay. In samples collected at the Mombaça mussel crop, the high concentration of total PAHs (584 ng g-1) and the predominance of alkylated compounds over parent compounds suggest the presence of relatively high contamination by petrogenic hydrocarbons. The cluster analysis, considering total PAHs, confirmed the separation between the three sampled areas, although some exceptions were noted: (i) the Mombaça crop resembles the Guanabara Bay group, (ii) the Praia Vermelha station, at the Guanabara Bay exit, resembles coastal areas outside the bay, (iii) the Ilha Redonda, Ilha Comprida and Pontal stations, over 5 km distant from the coast, were grouped with the other mussel crops. Only in samples from the Guanabara Bay was it possible to evaluate PAH origin by use of the principal component analysis (PCA). Most samples of the bay show mixed hydrocarbon contamination sources, and pyrolytic contribution was more significant only at the Praia Vermelha station. Finally, we emphasize that the PAH levels in mussels from the three areas were below the international reference values for human consumption. However, a specific risk analysis is necessary in order to better understand the quality of mussels for human consumption, particularly those from the Guanabara Bay.

Mexilhões

Maricultura

Rio de Janeiro

Polyclyclic aromatic hydrocarbon

Mussels

Mariculture

Rio de Janeiro

OCEANOGRAFIA QUIMICA

Avaliação regional da contaminação por hidrocarbonetos policíclicos aromáticos (HPAs) na região costeira do sudeste do Brasil usando mexilhões (Perna perna Linneaus 1758) como biomonitores / Avaliação regional da contaminação por hidrocarbonetos policíclicos aromáticos (HPAs) na região costeira do sudeste do Brasil usando mexilhões (Perna perna Linneaus 1758) como biomonitores / Regional assessment of PAHs contamination in SE Brazil using brown mussels (Perna perna, Linneaus 1758) / Regional assessment of PAHs contamination in SE Brazil using brown mussels (Perna perna, Linneaus 1758)

Renato Yoshimine Vieira

23 March 2012

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / O objetivo do presente trabalho foi avaliar a presença e a distribuição de hidrocarbonetos policíclicos aromáticos (HPAs) em mexilhões coletados em 23 estações, divididas em três regiões: (i) cultivos localizados no Estado do Rio de Janeiro (7 estações) e em Ubatuba/SP (1 estação); (ii) áreas costeiras no Estado do Rio de Janeiro (7 estações) e (iii) na Baía de Guanabara/RJ (8 estações). Os HPAs foram determinados em triplicata de cada estação, sendo cada réplica formada por uma média de 10 indivíduos, através de cromatografia em fase gasosa acoplada a espectrometria de massas (GC/MS), totalizando 38 compostos entre parentais e alquilados. A concentração média do total de HPAs nos cultivos, excluindo o cultivo de Mombaça (Ilha Grande), foi de 24,7 22,3 ng g-1, para as áreas costeiras foi de 89,7 25,8 ng g-1 e para a Baía de Guanabara, 760,9 456,3 ng g-1. Esses resultados indicam que os cultivos (exceto Mombaça) e as áreas costeiras selecionadas apresentam baixos níveis de contaminação. Já na Baía de Guanabara, os resultados foram comparáveis a dados pretéritos e confirmam o estado de degradação ambiental da baía. Na amostra coletada no cultivo de Mombaça, a alta concentração do total de HPAs (584 ng g-1) e a predominância de compostos alquilados sobre parentais sugerem contaminação relativamente alta por hidrocarbonetos petrogênicos. A análise de agrupamento, considerando o total de HPAs, confirmou a separação entre as três áreas coletadas, mas com algumas exceções: (i) o cultivo de Mombaça assemelha-se ao grupo da Baía de Guanabara; (ii) a estação da Praia Vermelha, na saída da Baía de Guanabara, se assemelha com áreas costeiras fora da baía; (iii) as estações Ilha Redonda, Ilha Comprida e Pontal, distantes mais de 5 km da costa, se agruparam com os cultivos. Somente nas amostras da Baía de Guanabara foi possível avaliar a origem dos HPAs através da análise de componentes principais (PCA). A maioria das amostras da baía apresenta contaminação por fontes mistas de hidrocarbonetos, e apenas na praia Vermelha o aporte pirolítico é mais significativo. Por fim, ressalta-se que os níveis de HPAs nos mexilhões das três áreas ficaram abaixo de valores de referência exigidos internacionalmente para o consumo humano. No entanto, é necessário uma análise de risco específica para melhor compreender a qualidade do mexilhão para consumo humano, particularmente os da Baía de Guanabara. / The aim of the present study was to evaluate the presence and distribution of polycyclic aromatic hydrocarbons (PAHs) in mussels collected from 23 stations, divided into three regions: (i) mussel crops in the State of Rio de Janeiro (7 sampling stations) and Ubatuba/SP (1 sampling station), (ii) coastal areas of the State of Rio de Janeiro (7 sampling stations) and (iii) Guanabara Bay/RJ (8 sampling stations). The PAHs were determined in triplicate for each station, with each replica composed of an average of 10 individuals, by gas chromatography coupled to mass spectrometry (GC/MS), totaling 38 compounds between parental and alkylated PAH. The mean total PAH concentration in the crops, with the exception of Mombaça (at Ilha Grande), was of 24.7 22.3 ng g-1, while the mean for the coastal areas was of 89.7 25.8 ng g-1, and of 760.9 456.3 ng g-1 for the Guanabara Bay. These results indicate that the mussel crops (with the exception of Mombaça) and the selected coastal areas present low contamination levels. Guanabara Bay, on the other hand, showed results comparable to past data, confirming the state of environmental degradation of the bay. In samples collected at the Mombaça mussel crop, the high concentration of total PAHs (584 ng g-1) and the predominance of alkylated compounds over parent compounds suggest the presence of relatively high contamination by petrogenic hydrocarbons. The cluster analysis, considering total PAHs, confirmed the separation between the three sampled areas, although some exceptions were noted: (i) the Mombaça crop resembles the Guanabara Bay group, (ii) the Praia Vermelha station, at the Guanabara Bay exit, resembles coastal areas outside the bay, (iii) the Ilha Redonda, Ilha Comprida and Pontal stations, over 5 km distant from the coast, were grouped with the other mussel crops. Only in samples from the Guanabara Bay was it possible to evaluate PAH origin by use of the principal component analysis (PCA). Most samples of the bay show mixed hydrocarbon contamination sources, and pyrolytic contribution was more significant only at the Praia Vermelha station. Finally, we emphasize that the PAH levels in mussels from the three areas were below the international reference values for human consumption. However, a specific risk analysis is necessary in order to better understand the quality of mussels for human consumption, particularly those from the Guanabara Bay.

Mexilhões

Maricultura

Rio de Janeiro

Polyclyclic aromatic hydrocarbon

Mussels

Mariculture

Rio de Janeiro

OCEANOGRAFIA QUIMICA