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

Interactions Between Environmental Factors and Polycyclic Aromatic Hydrocarbons (PAHs) in Developing Fish: Molecular and Developmental Implications

Fleming, Carrie

January 2010

<p>Aquatic systems are impacted by a wide variety of natural and anthropogenic stressors. Laboratory studies often focus on impacts of a single stressor, ignoring how these stressors may interact. This dissertation focuses on the interactions between polycyclic aromatic hydrocarbons (PAHs) and two physical stressors (hypoxia and solar radiation). PAHs are ubiquitous environmental pollutants that occur in the environment as complex mixtures, the components of which may interact. Some PAHs are agonists of the aryl hydrocarbon receptor (AhR), which regulates expression of a number of genes (such as CYP1A) involved in metabolism, often of the same compounds that induced the AhR. PAHs that are AhR agonists have been shown to interact synergistically with PAHs that inhibit activity of CYP1A, inducing developmental deformities in fish. AhR shares a dimerization partner, the aryl hydrocarbon receptor nuclear translocator (ARNT), with the protein responsible for regulating hypoxia-induced gene expression, hypoxia-inducible factor 1á (HIF1&alpha;), possibly resulting in competition between the two pathways. Competition would result in decreased induction of CYP1A under hypoxic conditions, possibly resulting in synergistic embryonic toxicity between AhR agonist PAHs and hypoxia. In this dissertation, the results are presented of experiments regarding the occurrence of AhR/HIF1&alpha; crosstalk in fish and the developmental consequences of co-exposure to hypoxia and PAHs. In vitro testing revealed competition for ARNT in which HIF1&alpha; appeared to out-compete AhR. Induction of an AhR-responsive luciferase reporter by several AhR agonists (benzo[a]pyrene (BaP), benzo[k]fluoranthene (BkF), and polychlorinated biphenyl (PCB126)) was reduced under hypoxia and this effect was eliminated by overexpression of ARNT. Induction of a HIF1&alpha;-responsive reporter was unaffected by BkF and PCB126. BaP caused an ARNT-independent decrease in both basal and induced HIF1&alpha; reporter activity. Attempts to verify this crosstalk pattern in vivo revealed that BaP-induced CYP1A expression was further increased under hypoxic conditions. Induction of hypoxia-inducible genes VEGF and LDHa were unaffected by BaP. The effect of hypoxia on CYP1A expression was not repeated with BkF or pyrene (PY) and the exact conditions that result in hypoxic changes in CYP1A expression remain to be determined. Embryonic toxicity in zebrafish (Danio rerio), including pericardial edema, heart malformations, and death were synergistically induced by hypoxia and BaP, BkF or complex, environmentally relevant PAH mixtures. There was no effect of hypoxia on PCB126 toxicity and hypoxia protected from the pericardial edema induced by PY. CYP1A knockdown mimicked the effects of hypoxia on BkF and PY toxicity and even further exacerbated BkF toxicity under hypoxic conditions, suggesting a role for metabolism in the toxicity. Additionally, since two CYP1A inhibitors (fluoranthene (FL) and á-naphthoflavone (ANF)) had been previously reported to interact synergistically with hypoxia, three other CYP1A inhibitors (dibenzothiophene, carbazole and 2-aminoanthracene) were tested. None of them induced toxicity in combination with hypoxia, indicating that CYP1A inhibition was not the reason for the interaction of FL and ANF with hypoxia. </p><p>A second stressor known to interact with PAHs to induce toxicity is solar radiation. While most studies of the effects of solar radiation on PAH toxicity have focused on the effects of UV light on PAHs already absorbed by an organism (photoactivation), less attention has been paid to the toxic effects of photomodified PAHs. We exposed carbazole to ambient sunlight and subsequently exposed developing zebrafish to the resulting mixture. Photo-exposed carbazole caused developmental toxicity including edema, heart malformations, craniofacial malformations and death that were not caused by parent carbazole; these effects were severely exacerbated by hypoxia and significant mortality was also observed. Additionally, photo-exposed carbazole induced expression of CYP1A and GSTp, likely resulting from agonism of the AhR and toxicity of this mixture was alleviated by morpholino knockdown of AhR. Some photoproducts were identified, but none of them appeared to be involved in the toxicity or supposed AhR induction observed with photoexposed carbazole. The results of these experiments underscore the importance of consideration of the interactive effects of physical and chemical stressors when assessing risks to wildlife populations inhabiting polluted areas.</p> / Dissertation

Environmental Sciences

hypoxia

multiple stressors

phototoxicity

polycyclic aromatic hydrocarbons

toxicology

zebrafish

Formation of Aromatic Compounds by Cyclopentadiene Moieties in Combustion Processes

Kim, Do Hyong

20 July 2005

Polycyclic aromatic hydrocarbon (PAH) formation and growth from cyclopentadiene (CPD) moieties have been investigated using a laminar flow reactor and molecular modeling. The resonance-stabilized cyclopentadienyl radical is readily formed in flames and can participate in PAH growth to soot by reaction with the ??onds of aromatic species. Both CPD pyrolysis and computational results indicate that formation of indene and benzene is favored at low temperatures (below 750oC) and formation of naphthalene is favored at high temperatures. Reaction pathways from CPD have further been extended to PAH formation from the reaction of CPD and aromatic compounds with different types of ??onds. Results indicate that, while the major products from the pyrolysis of CPD, acenaphthylene, styrene and phenanthrene mixtures are from the reaction of CPD to itself rather than to these aromatic compounds with different ??onds, CPD does add to these compounds to produce larger PAH. Polychlorinated naphthalene (PCN) formation from chlorinated phenols has also been studied. In combustion exhaust gas, chlorinated phenols can produce dioxin as well as PCNs. PCN and polychlorinated dibenzofuran (PCDF) congener product distributions were consistent with proposed pathways involving phenoxy radical coupling at unchlorinated ortho-carbon sites. Tautomerization of the phenoxy radical coupling and subsequent fusion via H2O loss results in PCDF formation. Competing with this reaction pathway, CO elimination and subsequent fusion via hydrogen and/or chlorine loss was found to produce PCNs. PCDF isomer distributions were found to be weakly dependent to temperature, whereas PCN isomer distributions were found to be more temperature sensitive with selectivity to particular isomers decreasing with increasing temperature. Results of this research contribute to a better understanding of chemical mechanisms involved in the formation of toxic byproducts and soot in combustion systems.

Cyclopentadiene

Pyrolysis

Polycyclic aromatic hydorcarbons

Polychlorinated naphthalenes

Polychlorinated dibenzofurans

Chlorinated phenols

Concentrations and distribution of polycyclic aromatic hydrocarbons(PAHs) and polychlorinated biphenyls(PCBs) in Kaohsiung Harbor

Chen, kai-ting

18 March 2010

This study investigated the concentrations of polycyclic aromatic hydrocarbons (PAHs) and polychlorinated biphenyls (PCBs) in the particulate and dissolved phase, as well as concentrations of PAHs in the sediment in Kaohsiung Harbor lagoon. Sources of PAHs in the water column were determined by isomer ratios, hierarchical cluster analysis (HCA) and principal components analysis (PCA). The net and annual fluxes of PAHs were calculated after a lagoon-wide water sampling campaign and compared with those found in a previous study (Fang, 2007) in which data from only one water sampling station was used. ¡@¡@In rain season, total PAH concentrations ranged from 21.6 to 36.2 ng/L for water samples, with dissolved and particulate phase concentrations ranged from 15.5 to 27.2 ng/L and from 3.4 to 8.6 ng/L, respectively. In dry season, total PAH concentrations ranged from 13.2 to 31.5 ng/L for water samples, with dissolved and particulate phase concentrations ranged from 8.0 to 21.1 ng/L and from 5.3 to 10.5 ng/L, respectively. Total PAH concentrations were found higher in rain season than in dry season. The highest total PAH concentration in dry season was observed in Chianjen River estuary. Relatively high PAH concentrations were also observed in these southern stations of Kaohsiung Harbor because of their location near Dalin industrial park. Total PAH concentrations ranged from 81.7 to 2279 ng/g for sediment samples, with average of 895 ng/g. The correlations between PAH concentrations and organic carbons, water temperature, salinity and suspended particles were also examined in this study. PAH concentration in dissolved phase was negatively correlated with water temperature (p<0.05). PAH concentration in sediment was positively correlated with organic carbons (p<0.05), and negatively correlated with median diameter (p<0.01). The logKoc¡ÐlogKow relationship in rain and dry season was compared with literature. It was found that the logKoc values were higher than those reported in literature, suggesting that soot particles might play an important role in the transport and distribution of PAHs in the study area. In rain season, PAHs in dissolved phase were mainly from pyrogenic origins; while mainly from petrogenic origins in particulate phase. In contrast, in dry season, PAHs in dissolved phase were mainly from petrogenic origins; while mainly from pyrogenic origins in particulate phase. In addition, it was found, relatively, that petrogenic pollution was introduced maily from the northern area of the lagoon. In rain season, total PCB concentrations ranged from 1.1 to 2.7 ng/L for water samples, with dissolved and particulate phase concentrations ranged from 0.42 to 2.1 ng/L and from 0.24 to 1.4 ng/L, respectively. In dry season, total PCB concentrations ranged from 0.54 to 1.3 ng/L for water samples, with dissolved and particulate phase concentrations ranged from 0.20 to 0.74 ng/L and from 0.32 to 0.76 ng/L, respectively. The direction of net fluxes of PAHs in this study are from water to air (net volatilization) in summer. In winter, however, the absorptive PAH fluxes obtained for four to six-ring PAH, such as fluoranthrene, chrysene + triphenylene and benzo[a]anthracene, indicating that PAHs were absorbed into surface waters. According to our results, it was suggested that the results from previous study (Fang, 2007) might underestimate the net fluxes of Pyrene and total fluxes in dry season. The annual fluxes of PAHs estimated in this study were 212 mg/m2 /year and 5.7 kg of PAHs were emitted annually from the harbor lagoon surface waters to the ambient atmosphere.

Kaohsiung Harbor lagoon

Air-water exchange fluxes

Polychlorinated biphenyls (PCBs)

Polycyclic aromatic hydrocarbons (PAHs)

Factors affecting atmospheric Polycyclic Aromatic¡@Hydrocarbons in Kaohsiung coast by GMDH

Chiou, Guo-Yang

18 August 2010

Coastal atmospheric concentrations of polycyclic aromatic hydrocarbons (PAHs) were measured at top of a building on campus of the National Sun Yat-sen University of Kaohsiung. Concentrations of 52 PAH compounds were analyzed in both gaseous and particulate phases in air samples collected from May 2008 through April 2009. PAHs diagnostic, Hierarchical Analysis (HCA) and Principal Component Analysis (PCA) were employed to determine the potential sources of PAHs. The Group Method of Data Handling (GMDH) was applied to relate atmospheric PAH concentration to air quality variables like SO2 and O3, as well as meteorological conditions like precipitation and temperature. During the sampling period the mean of total PAH concentrations was 14.2 ng/m3. Over all, PAH concentrations in winter were higher than summer, with the lowest concentrations of PAHs occurred in June (2.22 ng/m3), while the highest occurred in January (32.4 ng/m3). The night-time concentrations of PAHs are higher than daytime. The 2, 3-ring PAHs were mostly present in the gaseous phase, 4-ring were dominant in the gaseous phase, while 5, 6, 7-ring PAHs were mostly present in the particulate phase. During the Ghost festival and Asian dust storm events, atmospheric concentrations of PAHs and PAHs/TSP ratios were both found increased. Meteorological conditions, such as temperature and relative humidity, may strongly affect PAH concentrations, the gaseous and particulate PAHs correlate significantly with SO2, NOx, and PM10. Result from analyses of diagnostic rations, HCA and PCA, indicates the major sources of PAHs include gasoline and diesel exhaust. By using GMDH, a reasonable appraisal index was obtained for the pattern forecast potency with the meteorological and air quality variables. The GMDH algorithm obtained during 2008~2009 was tested in predictions and compared with what measured in 2007~2008.

polycyclic aromatic hydrocarbons

coast

Ghost festival

Asian dust storm

Group Method of Data Handling

Assessment of Butyltins and Polycyclic Aromatic Hydrocarbons Contamination of Harbor Sediments

Chen, Chih-Feng

30 August 2010

The distribution of butyltin compounds (BTs) in the sediments and seawater, at the river outfalls, fishing ports, shipyards, and industrial zone docks of Kaohsiung Harbor, Taiwan were investigated. Twenty sediment and seawater samples were collected from various locations in the Harbor in 2006, and analyzed for monobutyltin (MBT), dibutyltin (DBT), and tributyltin (TBT). Results showed that the concentration of total BTs varied from 1.5 to 151 ng/g in sediment samples, with TBT being the major component of the sediment samples. This suggests that sediments could be the most possible sink of TBT brought by the sorption mechanism. The concentrations of BTs ranged from 9.7 to 270 ng/L in seawater samples, whereas DBT and MBT, the degradation byproducts of TBT, were mainly the most abundant BT compounds of the seawater samples. This indicates that the abiotic or biotic degradation potential of TBT was significant. Spatially, the highest concentrations of BTs were observed in both water and sediment samples collected from the shipyard and fishing port areas. This indicates that the shipping related activities (e.g., navigation, ship repair, and ship building), would contribute most of BTs in the environment. Results show that the concentrations of degradation products (DBT and MBT) were related closely to temperature, salinity, dissolved oxygen (DO), and chlorophyll-a of the seawater. This implies that seasonal changes of the water parameters controlled the degradation of TBT in seawater. The observed levels of BT compounds in both seawater and sediments were much higher than those required to induce toxic effects on marine organisms suggesting that appropriate TBT control strategies should be taken in Kaohsiung Harbor. Sediment samples were collected from the river outfalls, fishing ports, shipyards, and industrial zone docks of Kaohsiung Harbor, Taiwan to evaluate the distribution of polycyclic aromatic hydrocarbons (PAHs) in sediments. Collected sediment samples from 12 locations were analyzed for 17 different PAHs, organic content, and grain size. The results show that the total PAH concentrations varied from 472 to 16,201 ng/g dry wt, with a mean concentration of 5,764 ng/g dry wt The highest PAH concentrations were from the industrial zone docks situated in south Kaohsiung Harbor, ranging from 8,788 to 16,201 ng/g dry wt Among those sediment samples, the 5-, 6-ring PAHs were predominant PAH congeners in sediments, ranging from 42 to 71%. However, the dominant PAH congeners were 2-, 3-ring PAHs (37 to 42%) collected from steel industrial zone docks. This indicates that the sources for the PAH contamination at steel industrial zone docks were different from the other zones in Kaohsiung Harbor. According to the diagnostic ratios, the possible source of PAHs in the industrial zone dock could be coal combustion while in the other zones it could be petroleum combustion. The total PAH levels were expressed as the total toxic equivalent (TEQcarc). The total TEQcarc varied from 55 to 1,964 ng TEQ/g dry wt. Higher total TEQcarc values were found at industrial zone docks (from 1,404 to 1,964 ng TEQ/g dry wt). As compared with the US Sediment Quality Guidelines (SQGs), the observed levels of PAHs at industrial zone docks exceeded the effects range low (ERL), and could thus cause acute biological damage. However, the lower levels of PAHs at the other zones would not exert adverse biological effects. Results would be helpful in developing strategies for sediment remediation in Kaohsiung Harbor.

Sediment

Polycyclic aromatic hydrocarbons (PAHs)

Butyltins

Toxic equivalent (TEQcarc)

Sediment quality guidelines (SQGs)

Harbor

Distribution and sources of polycyclic aromatic hydrocarbons(PAHs) in Er-Jen River

Lin, Chien-ming

22 July 2011

In this study our purposes were to investigate the spatial distribution and seasonal variation of polycyclic aromatic hydrocarbons (PAHs) in the dissolved and particulate phase of PAHs in Er-Jen River. In addition, the potential sources of PAHs in Er-Jen River were investigated not only by finger printing, but also principal component analysis (PCA) and hierarchical cluster analysis (HCA). ¡@¡@Concentrations of dissolved and particulate PAHs ranged from 13.8 to 516 ng/L and from 4.05 to 55.9 ng/L, respectively. In March (dry season), concentrations of dissolved and particulate PAHs ranged from 38.3 to 186 ng/L and from 4.05 to 25.9 ng/L, respectively. In addition, concentrations of dissolved and particulate PAHs ranged from 32.3 to 82.8 ng/L and from 14.8 to 85.3 ng/L, respectively in September (wet season). The highest total PAH concentration in this area was found in Station Er-3 which is located on a tributary of Er-Jen River. Total PAH concentrations in wet season were higher than those found in dry season for all stations in Er-Jen River, except for station Er-3, which suggesting that different geography might be the reason. ¡@¡@Results from correlation analysis indicated that distributions of PAH concentrations for particulate phase in Er-Jen River correlated well with flow rate, suspended solid concentrations and salinity. Total PAH concentration of station Er-2, which was located at the downstream Er-Jen River, was highly correlated with salinity; while total PAH concentrations in other stations were mainly affected by flow rate, suspended solid concentrations and some potential sources of pollution. Results from PCA, HCA and finger printing all indicated the origins of PAHs were complex sources in the study area, including pyrogenic, petrogenic and diagenetic/biogenic origins. The origins of PAHs in dissolved phase were mainly from both pyrogenic and petrogenic sources; while those in particulate phase were mainly from pyrogenic sources. In addition, the pyrogenic origins in both dissolved and particulate phase were mostly from liquid fuel combustion. In wet season, howerer, diagenetic/biogenic origins were also found in particulate phase at the sampling sites of Er-Jen River. ¡@¡@The annual total PAH fluxes of Er-Jen River were estimated to be 23.1 kg For dissolved phase, the average daily fluxes in dry and wet season were 5.9 g/day and 65.8 g/day, respectively, with an annual mean fluxe of 11.3 kg/year. For particulate phase, the mean daily fluxes in dry and wet season were 0.8 g/day and 76.2 g/day, respectively, with an annual mean flux of 11.8 kg/year. In general, the total PAH fluxes in wet season were higher than dry season. The total annual PAH fluxes in Er-Jen River were generally less than those reported worldwide, and comparable to those in San Francisco River in USA, but higher than those in Le Havre River in France.

Flux

Particulate phase

Er-Jen River

Dissolved phase

Polycyclic aromatic hydrocarbons (PAHs)

Distribution and Flux of the Polycyclic Aromatic Hydrocarbons of Kao-ping Estuary System

Wu, Sih-pei

06 February 2006

Water, suspended particle and sediment samples from Kao-ping estuary were collected and measured for concentrations of polycyclic aromatic hydrocarbons (PAHs) during March 2004 and April 2005. In addition, sediments from neighboring coastal area were also analyzed to estimate distribution, transportation and possible sources of PAHs. Total PAH concentrations varied from 33.0 to 910 ng/g dry weight (dw) in coastal sediments, and diagnostic ratios reflect a mixed sources of petrogenic and pyrolytic inputs. Due to the contribution of Kao-ping River, spatial distribution of PAH concentrations at coastal sediments near river mouth varied dramatically. Results of hierachical cluster analysis showed that PAH concentration distribution was influenced by Kao-ping canyon, and biogenic source might be the major PAH source for offshore sediments. Total PAH concentrations in river sediment varied from 63.0 to 720 ng/g dw. Higher concentration was measured between the Water Main pipe and Shuang-yuan Bridge, and possible sources were from both petrogenic and pyrolytic sources. Sediment of Dung-gang harbour had highest concentration, 28,000ng/g dw, in this study, which was contributed from petrogenic sources due to its intensive boating activities. Except fluorene and phenanthrene in harbour sediments, individual PAH concentrations of other sediments are lower or near the Effect Range Low value, concentrations might lead to possible adverse effects upon organism. Total PAH concentrations varied from 5.0 to 82.0 ng/L in suspended particulate phase and from 5.5ng/L to 46.0ng/L in dissolved phase, respectively. Most of high molecular weight PAH concentrations (>5-ring PAHs) in dissolved phase were below method detection limits. The partition coefficients¡]Koc¡^values of PAHs were 1 to 2 orders higher than predicted values. It might be attributed to soot particles which have extremely high sorption capacities. Correlation coefficients between total PAH concentrations in sediments versus total organic carbon¡]TOC¡^ and fine particle content¡]<63£gm%¡^were significant ¡]R=0.575, 0.800, 0.851 and 0.657, P<0.01¡^. In addition, PAHs in suspended particulate phase and dissolved phase were also significantly correlated to particulate organic carbon¡]POC¡^ and dissolved organic carbon¡]DOC¡^, respectively. The distribution of calculated PAH concentrations from organic carbon was higher in surface water than bottom water. Unlike salinity, there was no decreasing or increasing trend of these concentrations among river samples. It is possible that contamination was not come from upstream, but from estuary area where plume was lifted and diffused upstream by neat seawater. The flux in Wan-da Bridge was higher than downstream estuary area that might be due to PAH concentrations reduction by sedimentation or degradation.

sediment

polycyclic aromatic hydrocarbons(PAHs)

partition coefficient

flux

Kao-ping estuary

Kao-ping coastal

chemical fingerprinting

Assessment of Public Health Risks Associated with Petrochemical Emissions Surrounding an Oil Refinery

Pulster, Erin L.

01 January 2015

Refinery operations have been associated with a wide variety of atmospheric emissions consisting of criteria air pollutants, volatile organic components, hazardous air pollutants as well as other pollutants. With approximately 100 oil refineries in the Wider Caribbean region (WCR), hydrocarbons in this region pose significant environmental and human health risks. One of the oldest and largest refineries in the WCR is the Isla Refineriá, which is located on the island of Curaçao, and has been the basis of historical debates and conflict between the public and the local government over the environmental and human health risks. This research aims to establish baseline levels of ambient petrochemical emissions in Curaçao, specifically polycyclic aromatic hydrocarbons (PAHs), inhalable particulate matter (PM10) and sulfur dioxide (SO2), and to evaluate through comparative literature analysis and recommended public health guidelines the potential health risks in Curaçao. In addition, source elucidation of PAHs was conducted using concentration profiles, distribution profiles, binary diagnostic ratios and factor analysis. Passive air samplers with polyurethane foam collection disks (PAS-PUFs) were deployed in 2011 (n=43) and in 2014 (n=30) to measure ambient PAH concentrations. Ambient PAH concentrations ranged from 1.2 ng/m3 in 2011 and 27.3 to 660.1 ng/m3 in 2014, demonstrating no temporal differences. However, there were highly significant spatial differences, with the samples downwind of the refinery having significantly higher ambient PAH concentrations than those upwind in 2014. Source elucidation revealed the ambient PAHs were dominated by petrogenic emission sources (i.e., refinery) in the 2011 and the 2014 downwind samples, whereas the 2014 upwind locations were equally influenced by both petrogenic (i.e., refinery) and pyrogenic (i.e., vehicle emissions) sources. Available hourly, daily and monthly PM10 and SO2 measurements were downloaded from June 2010 through December 2014 from two local air monitoring stations. Concentrations of both PM10 and SO2 in Curaçao are among the highest reported globally, demonstrating an increasing trend over time and exceed current public health guidelines recommended by local and international agencies. It is plausible that the residents of Curaçao may experience health effects often associated with PM10 and SO2, however the epidemiological evidence is inadequate to infer causality between health effects and long-term exposures. Using the USEPA’s risk analysis methodology the resulting cumulative lifetime cancer risk estimates from PAH inhalation were below the level of concern (1.0 x 10-4). In contrast, by evaluating the potency adjusted concentrations relative to the most toxic compound (benzo[a]pyrene), age class (children and adults) extrapolated and site specific risks indicated levels exceeding the upper bound acceptable risk (1.0 x 10-4) by almost two orders of magnitude suggesting the need for remediation.

atmospheric

exposure assessment

oil refinery

polycyclic aromatic hydrocarbons

Atmospheric Sciences

Environmental Health and Protection

Public Health

On the use of hydrophobic biopolymers and hydrophobic biopolymer-coated sands for the removal of naphthalene, phenanthrene, and pyrene from contaminated sediments

Sitzes, Ryan Ziegler

05 August 2011

The overall objective of the present study was to evaluate the effectiveness of using a variety of hydrophobic biopolymers and hydrophobic biopolymer-coated sands as technically and economically feasible in-situ sediment amendments or alternative capping materials on a laboratory scale. Cutin from tomato peels, cellulolytic enzyme lignin from sitka spruce chips, and keratin azure from commercially dyed sheeps wool were isolated, prepared, tested, and evaluated as feasible hydrophobic biopolymers for the removal of selected Polycyclic Aromatic Hydrocarbons (PAHs). Testing included chemical and physical characterization, as well as the measurement of kinetics and equilibrium sorption parameters for the sorbates naphthalene, phenanthrene, and pyrene as model hydrophobic organic contaminants. Tomato peel cutin exhibited the largest overall affinity for PAHs, however, keratin azure was selected for further evaluation as the most feasible material due to its low preparation cost. Amendment of industrial sand with a stable, uniform, cross-linked keratin azure derivative was achieved to produce hydrophobic biopolymer-coated sand products containing zero, moderate, and high mass fractions of sand. Chemical and physical material parameters, as well as kinetics and equilibrium sorption parameters for the sorbates naphthalene, phenanthrene, and pyrene, were then obtained for the coated sand products. This allowed simple finite difference modeling of PAH fate and transport through a thin cap comprised of the same, insight into the specific sorption mechanisms involved, and information which could prove useful in predicting potential of keratin products to provide a suitable capping material. Conclusions and recommendations for future research focus on the technical and economical feasibility of the prepared hydrophobic biopolymers and hydrophobic biopolymer-coated sand products as capping or in-situ sediment amendments. / text

PAHs

Sorption

Hydrophobic biopolymers

Coated sand

Active capping

Polycyclic aromatic hydrocarbons

Remediation

Sediments