Bioremediation of polycyclic aromatic hydrocarbons (PAHs) in water using indigenous microbes of Diep- and Plankenburg Rivers, Western Cape, South Africa

Alegbeleye, Oluwadara Oluwaseun

January 2015

Thesis (MTech (Environmental Management))--Cape Peninsula University of Technology, 2015. / This study was conducted to investigate the occurrence of PAH degrading microorganisms in two river systems in the Western Cape, South Africa, and their ability to degrade two PAH compounds (acenaphthene and fluorene). A total of 19 bacterial isolates were obtained from the Diep- and Plankenburg Rivers. These microorganisms were first identified phenotypically on various selective and general media (such as nutrient agar, Eosine Methylene Blue and Mannitol Salts Agar), followed by staining and biochemical testing, followed by molecular identification using 16S rRNA and PCR. The isolates were then tested for acenaphthene and fluorene degradation first at flask scale and then in a Stirred Tank Bioreactor at varying temperatures (25ºC, 30ºC, 35ºC, 37ºC, 38ºC, 40ºC and 45ºC). All experiments were run without the addition of supplements, bulking agents, biosurfactants or any other form of biostimulants. Four of the 19 isolated microorganisms were identified as acenaphthene and fluorene degrading isolates. Three of the four microorganisms identified as PAH degrading isolates were Gram negative isolates. Results showed that Raoultella ornithinolytica, Serratia marcescens, Bacillus megaterium and Aeromonas hydrophila efficiently degraded fluorene (99.90%, 97.90%, 98.40% and 99.50%) and acenaphthene (98.60%, 95.70%, 90.20% and 99.90%) at 37ºC, 37ºC, 30ºC and 35ºC, respectively. The degradation of fluorene was found to be more efficient and rapid compared to that of acenaphthene and degradation at Stirred Tank Bioreactor scale was more efficient for all treatments. Throughout the biodegradation experiments, there was an exponential increase in microbial plate counts ranging from 5 x 104 to 9 x 108 CFU/ml. The increase in plate count was observed to correlate with the efficient degradation temperature profiles and percentages. The PAH degrading microorganisms isolated during this study significantly reduced the concentrations of acenaphthene and fluorene and can be used on a larger, commercial scale to bioremediate PAH contaminated river systems. Other factors that influence the optimal expression of biodegradative potential of microorganisms other than temperature and substrate (nutrient) availability, such as pH, moisture and salinity will be investigated in future studies, as well as the factors contributing to the higher fluorene degradation compared to acenaphthene. Furthermore, the structure and toxicity of the by-products and intermediates produced during microbial metabolism of acenaphthene and fluorene should be investigated in further studies.

Polycyclic aromatic hydrocarbons

Bioremediation

Microorganisms -- Biodegradation

Organic compounds -- Biodegradation

The suzuki-miyaura cross coupling reaction as a key step for the synthesis of oxygen and nitrogen containing hetero-aromatic compounds

Pradeep, Priyamvada

22 January 2016

A thesis submitted to the Faculty of Science University of the Witwatersrand Johannesburg In fulfilment of the requirements for the Degree of Doctor of Philosophy June 2015 / The first two chapters of this thesis deals with the synthesis of 6H-benzo[d]-naphtho[ 1,2- b]pyran-6-one motif found in gilvocarcin as well as related aromatic compounds containing the aromatic pyranone moiety. The synthesis was undertaken by employing the Suzuki- Miyaura cross coupling reaction and a novel N-bromosuccinimide induced ring cyclization reaction to afford the pyranone. It was established that the treatment of both [2-(1,4- dimethoxynaphthalen-2-yl)phenyl]methanol and (2',5'-dimethoxy-[1,1'-biphenyl]-2- yl)methanol separately with N-bromosuccinimide results in the unexpected synthesis of a naphthopyranone ring system in the form of 12-methoxy-6H-dibenzo[c,h]chromen-6-one and 2-methoxy-6H-benzo[c]chromen-6-one respectively. Application of the same methodology for the attempted synthesis of related compounds namely, 1-hydroxy-12-methoxy-6Hdibenzo[ c,h]chromen-6-one and 8-fluoro-12-methoxy-6H-dibenzo[c,h]chromen-6-one unfortunately did not generate the desired results. Attempts were made to elucidate the mechanism of this reaction. The most apparent mechanism indicates that Nbromosuccinimide, in the presence of air, oxidizes the benzylic alcohol to an aldehyde which is then converted to an acid bromide allowing for the ring closure with the adjacent aromatic ether to afford the desired pyranone. In Chapter 3 and 4 of this thesis we dealt with the synthesis of benzo[b]phenanthridine-7,12- dione motif, the backbone of biologically important secondary metabolite jadomycin B. Again, a key step involves employing the Suzuki-Miyaura cross coupling reaction. The synthetic methodology also sheds some light on the dynamics of the ring closure of benzylic amines onto naphthoquinones resulting in the synthesis of benzo[i]phenanthridine-11,12- dione, 12-methoxybenzo[i]phenanthridine and 1-hydroxybenzo[i]phenanthridine-11,12-dione. The synthesis of benzo fused phenanthridines has been undertaken in Chapter 5 and 6 by employing Suzuki-Miyaura cross coupling reaction and a potassium t-butoxide and light mediated cyclization reaction as the key steps. The synthesis of 5- phenylbenzo[i]phenanthridine was undertaken successfully but attempts to execute the same methodology to form a compound library of related benzo-fused phenanthridines was unsuccessful. The same methodology employing a Suzuki-Miyura cross coupling reaction and potassium tbutoxide and light mediated cyclization reaction was applied in Chapter 7 and 8 of the thesis directed towards the synthesis of 13H-indolo[3,2-c]acridine and 3-methoxy-13H-indolo[3,2- c]acridine. The successful synthesis of the 13H-indolo[3,2-c]acridine is reported using this methodology.

Organic compounds -- Synthesis.

Aromatic compounds.

Couplings.

Nitrogen -- Synthesis.

Oxygen -- Synthesis.

Development and application of quechers method for extraction and analysis of polycyclic aromatic hydrocarbons (PAHS) in South African fish samples

Oduntan, Afolake Olufunmilola

29 January 2015

A dissertation submitted to the Faculty of Science, University of the Witwatersrand, Johannesburg, in fulfilment of requirements for the degree of Master of Science. Johannesburg 2014 / Polycyclic Aromatic Hydrocarbons (PAHs) are environmental contaminants which are formed during combustion of organic material such as coal, petroleum compounds and meat. Other sources of PAHs include automobile exhaust, coal tar and crude oil. Natural sources of PAHs include volcanoes, forest fires. Some PAHs are known to be carcinogenic and toxic. They are available to aquatic organisms such as fishes through contaminated sediments and other marine organisms. Due to their toxicity, it is essential to study and monitor PAHs in the environment. In this study, the quechers extraction method was developed and optimised for the extraction of 5 PAHs (Naphthalene, acenaphthene, phenanthrene, fluoranthene, and pyrene). The optimised parameters were the extraction speed, extraction time, volume of solvent, type of solvent, the mass of salt (MgSO4), the mass of fish used for extraction, mass of sorbent (PSA) and the type of sorbent used. After optimisation, the optimised QuEChERS extraction method was then compared to the Soxhlet extraction method. Firstly by spiking with different concentration and comparing the recoveries. Recoveries obtained where similar, this shows that the QuEChERS method is efficient for extraction of PAHs. The optimised QuEChERS extraction method and Soxhlet extraction were applied for analysis of PAHs in real fish samples. Fish samples were obtained from two dams, Jericho dam in Mpumalanga and Hartbeespoort dam in Gauteng. The result obtained for both extraction method were compared. The concentration of PAHs obtained for both methods were similar. Naphthalene was not detected in Hartbeespoort dam. The concentration of PAHs in Hartbeespoort and Jericho dam using QuEChERS extraction method range from 0.8 μg/kg to 739 μg/kg and 0.8 μg/kg to 7.4 μg/kg respectively. Acenaphthene and phenanathrene were not detected in all fish sample from Jericho dam, while pyrene was not detected in some of the fish samples from Jericho dam. Application of Soxhlet extraction to real sample gave concentration ranging from 1.9 μg/kg to 908 μg/kg for Hartbeespoort dam and 1.2 μg/kg to 18.7 μg/kg for Jericho dam. High concentration of PAHs was obtained from Hartbeespoort dam.

Polycyclic Aromatic Hydrocarbons.

Fishes.

Discovery of Cytosolic Phenylalanine Biosynthetic Pathway in Plants

Yichun Qian (5930168)

15 May 2019

<p>Phenylalanine (Phe) is a proteinogenic aromatic amino acid that also serves as a precursor for numerous primary and secondary metabolites in plants. Phe is synthesized from chorismate, the final product of the shikimate pathway. In plants, Phe is predominantly synthesized in the plastids via the arogenate pathway, while most Phe-derived compounds are produced in the cytoplasm, requiring exportation of Phe from plastids to the cytosol. Here, we provided genetic evidences that a<i> Petunia hybrida</i> plastidial cationic amino acid transporter (PhpCAT) participates in the exportation of Phe from plastids, as well as regulation of carbon flux through Phe biosynthesis.</p> <p> By using reverse genetics, we demonstrated that a petunia phenylpyruvate aminotransferase (PhPPY-AT) is able to convert phenylpyruvate to Phe in the cytosol <i>in vivo</i>, and that a cytosolic chorismate mutase (CM2), which converts chorismate to prephenate, directs carbon flux from the plastidial Phe biosynthesis pathway towards the cytosolic pathway. Downregulation of <i>PhPPY-AT</i> and <i>PhCM2</i> resulted in significant decreases in Phe levels and emission of Phe-derived volatiles in petunia flowers, respectively. Metabolic flux analysis showed that the carbon flux through the cytosolic Phe biosynthesis pathway is significantly lower in <i>PhCM2</i> RNAi petunia flowers relative to wild type control. We also demonstrated that the conversion of prephenate to phenylpyruvate in the cytosol is catalyzed by a cytosolic prephenate dehydratase (PDT) produced from an alternative transcription start site of a known plastidial arogenate dehydratase (ADT). These results suggest that a microbial-like phenylpyruvate pathway for Phe biosynthesis operates in the cytosol of plant cells and the cytosolic pathway splits from the plastidial pathway at chorismate.</p> <p> To evaluate the metabolic potential of the cytosolic phenylpyruvate pathway, <i>PhCM2 </i>overexpressing transgenic petunia plants were generated. Unexpectedly, Phe levels and emission of Phe-derived volatiles were both reduced, even though the flux through the cytosolic pathway was increased relative to wild type control. Electron microscopy, metabolic profiling and metabolic flux analysis revealed that the number of leucoplasts, starch levels and flux through the plastidial pathway were all reduced in <i>PhCM2</i> overexpression lines, while the concentrations of auxin and its biosynthetic intermediate, indole-3-pyruvic acid (IPA), were elevated. Overexpression of Arabidopsis aminotransferase VAS1, which converts IPA to Trp, in <i>PhCM2</i> overexpression petunia background recovered Phe levels and Phe-derived volatiles emission. These results indicate that there exists a metabolic crosstalk between cytosolic Phe production and Trp-dependent auxin biosynthesis .</p> <p> Our research completed the post-chorismate cytosolic Phe biosynthesis pathway in plants and revealed possible metabolic crosstalk between cytosolic Phe production and auxin biosynthesis in plant cells, providing targets for future genetic modification of metabolites in plants.</p>

Biochemistry

Plant Biology

Aromatic Amino Acids

Plant Biochemistry

Metabolic Analysis

Caracterização de hidrocarbonetos policíclicos aromáticos (HPA) em rios da bacia hidrográfica do Turvo/Grande /

Ferrizzi, Vitor Cid.

January 2011

Orientador: Altair Benedito Moreira / Banca: Eduardo Alves de Almeida / Banca: Ronaldo José Torres / Resumo: Hidrocarbonetos Policíclicos Aromáticos (HPA) fazem parte de uma classe de compostos denominados Substâncias Tóxicas Persistentes, tendo como principais características elevada toxicidade e persistência no ambiente, sendo as fontes petrogênicas, pirogênicos e biogênicas as que mais contribuem para o aporte destes compostos. A Bacia Hidrográfica do Turvo/Grande (BHTG) é caracterizada por pequenos parques industriais e intensa atividade agrícola com destaque a cana-de-açúcar, que vem acompanhada por processos de queimadas. Neste contexto, este trabalho teve como principal objetivo utilizar a determinação de 1-hidróxipireno em bílis de peixes como biomarcador de exposição para HPA e também determinar o histórico destes em sedimentos de rios da BHTG. As coletas de amostras de peixe (160 amostras) e sedimento (superficial e profundidade) nos rios Preto (CAPRP), Turvo (PORTUR e RTURG) e Grande (RGRANDE) foram feitas em dois períodos distintos: fevereiro e julho de 2010. A determinação do 1-hidroxipireno nas amostras de bílis de peixes foi realizada de acordo com o método proposto por Ariase et alii (1993). Os HPA dos sedimentos foram extraídos de acordo com o método 3540C (EPA) e a quantificação foi realizada empregando Cromatografia Líquida de Alta Eficiência com detector de Fluorescência (HPLC-DF). As concentrações do 1-hidróxipireno no ponto RTURG da coleta de fevereiro de 2010 variaram na faixa de 210 a 1025 µg L-1, com valor médio de 780 ± 281 µg L-1. Para as amostras de peixes coletadas em julho de 2010 no ponto CAPRP, os valores estiveram na faixa de 397 - 6463 µg L-1, com valor médio de 1300 ± 1130 µg L-1. Para os pontos PORTUR e RTURG, os valores médios de concentração de 1-hidróxipireno na bílis dos peixes foram... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Polycyclic Aromatic Hydrocarbons (PAHs) constitute a class of compounds denominated as Persistent Toxic Substances, having as main characteristics high toxicity and persistence in the environment, being that the sources petrogenic, pyrogenic and biogenic contribute most to the intake of these compounds. Turvo/Grande watershed (BHTG) is characterized by a small industrial facilities and intensive agriculture especially sugarcane activity, which is accompanied by the burning process. In this context, this work aimed to use the determination of 1-hydroxypyrene in fish bile as a biomarker of exposure to PAHs and also determine the history of these in the sediments from BHTG rivers. The sampling of fish (160 samples) and sediment (surface and deep) in the Preto (CAPRP), Turvo (PORTUR e RTURG) e Grande (RGRANDE) rivers, were made in two distinct periods: February and July of 2010. The determination of 1-hydroxypyrene in fish bile samples was performed according to the method proposed by Ariase et alii (1993). PAHs were extracted of the sediments according to the method 3540C (EPA) and the quantification was performed using high performance liquid chromatography with fluorescence detector (HPLC-FD). Concentrations of 1-hydroxypyrene is fish bile samples collected in RTURG (February 2010) ranged from 210 to 1025 µg L-1, the average values 780 ± 281 µg L-1. For fish samples collected in CAPRP in July 2010 , values ranged 397-6463 µg L-1, with an average of 1300 ± 1130 µg L-1. For PORTUR and RTURG, the mean concentration of 1-hydroxypyrene in fish bile were 1643 ± 744 µg L-1 and 588 ± 183 µ g L-1, respectively. PAHs concentration along the sediment profile showed similar behavior. In general, for all PAHs there was a trend of reduction with increasing depth in sediment cores. The total concentration... (Complete abstract click eletronic access below) / Mestre

Hidrocarbonetos policiclicos aromaticos.

Bacias hidrográficas.

Polycyclic aromatic hydrocarbons. eng

Catalytic Borylative Multicomponent Coupling Reactions and Novel Chemistry of Polycyclic Aromatic Hydrocarbons

Cho, Hee Yeon

January 2013

Thesis advisor: Lawrence T. Scott / Thesis advisor: James P. Morken / Expeditious establishment of molecular complexity in a stereoselective manner is a prominent goal in organic synthesis. In this regard, multicomponent coupling reactions have received substantial attention due to their ability to access complex molecules from simple starting materials in a single step. Chapter 1 is a comprehensive review on catalytic bismetallative multicomponent reactions. The scope of this process in terms of both bismetallic reagents and the pi components are broad enough to be generally applied to more elaborate synthetic sequences. Particularly, contemporary applications of the bismetallative multicomponent coupling reactions, in which high enantio- and/or diastereoselectivities are displayed, have enabled the study of this area to make a significant step forward. Chapter 2 presents nickel-catalyzed coupling reactions of aldehyde, diene, and a diboron reagent in the presence of a trialkyl phosphine ligand. Compared to borylation reactions with one pi-component, these borylative multicomponent reactions (involving two pi components) lead to formation of a new C-C bond between the pi components as well as generation of highly functionalized, stereodefined products. Chapter 3 describes a remarkable turnover in regioselectivity of the borylative multicomponent coupling when PCy3 is replaced with P(SiMe3)3. In particular, the products from the reactions with P(SiMe3)3 feature three contiguous stereocenters and an alpha-chiral allylboronate. The effect of P(SiMe3)3 ligand on the product selectivity is intriguing. According to the experimental and computational results, it has an ability to act as an electron acceptor, which will facilitate reductive elimination from the intermediate nickel complex during the course of the reaction. In Chapter 4, we show that borylative ketone-diene coupling reactions can be accomplished in high yields and with excellent levels of diastereocontrol. This reaction occurs in a predictable fashion, yet with regioselection that is distinct from related aldehyde-diene coupling reactions. The reaction products from these coupling processes, which possess tertiary alcohol functionality and an allylic alcohol moiety, are particularly well suited for the preparation of polyketide natural products. Chapter 5 presents investigations on bowl-shaped geodesic polyarenes, which are the missing links between the "classic" planar polycyclic aromatic hydrocarbons (PAHs) and the spheroidal fullerenes. The present study has shown that open geodesic polyarenes can feature chemistry inherent to both classes of aromatics. The curved pi system induces unequal environments on the two faces of circumtrindene, significant strain energy to the molecule, and non-identical bond lengths. Along with the electronic effects, the stereoelectronic effect enabled the site-selective functionalization with fullerene-type chemistry. On the other hand, the edge carbons, which are not present in fullerenes, still possess reactivity of common planar PAHs. Chapter 6 describes the intermolecular oxidative cyclotrimerization reactions of alkenes and aromatic compounds with DDQ and trifluoromethanesulfonic acid. The Scholl-type oxidation reactions involving alkenes have never been demonstrated. Moreover, the DDQ/acid system has never been used for the intermolecular oxidative cyclization reactions. This convenient non-metallic reagent system (DDQ/TfOH) is advantageous over the metal-based Scholl-type oxidants because it eliminates the possibility of halogenation of aromatic compounds and the reduced oxidant can be reoxidized. In Chapter 7, the regioselective formation of cyclic trimers from substituted benzenes and heteroaromatic compounds is demonstrated. This DDQ/TfOH method provides a simple and convenient synthetic route toward star-shaped oligomers containing triphenylene or isotruxene cores. Furthermore, the experimental outcome suggests that this oxidative process proceeds by an electron transfer mechanism. This is the first experimental evidence for mechanistic details on the Scholl-type oxidation. / Thesis (PhD) — Boston College, 2013. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Chemistry.

Catalysis

Multicomponent Reactions

Organic Materials

Organometallics

Polycyclic Aromatic Hydrocarbons

Um novo método de obtenção de compostos carbonílicos aromáticos. Aplicação para síntese de benzaldeidos deuterados / A new method for obtaining aromatic carbonyl compounds. Application to the synthesis of deuterated benzaldehydes

Uchoa, Ricardo Barros

09 March 1987

Esta Tese apresenta duas revisões de literatura: 1. Síntese de aldeídos e cetonas a partir de compostos de enxofre. 2. Síntese de benzaldeídos deuterados. E descrita a reação de sulfenilação de benzil fenil sulfonas, conduzindo a um novo \"synthon\", &#945;-metiltio-benzil fenil sulfona (1). Y-C6H4-CH(SCH3)SO2C6H5 Y = H,CH3,Cl,OCH3,NO2,CN. É relatada a hidrólise ácida de (1), fornecendo benzaldeídos para substituídos. É proposta a decomposição térmica de (1), como um método novo de síntese de benzaldeídos para substituídos. É descrita uma reação de um passo só, envolvendo alquilação e decomposição térmica de (1) e fornecendo cetonas aromáticas. Este método permite sintetizar cetonas contendo grupos sensíveis a ácidos. O método pirolítico é aplicado à síntese de aldeídos aromáticos deuterados, que são obtidos em 98% de pureza isotópica. Os benzaldeídos deuterados e não deuterados são obtidos em bons rendimentos, não se notando diferenças provenientes do caráter eletrônico dos substituintes no anel. É apresentada uma discussão sobre os aspectos mecanísticos da decomposição térmica. / This thesis presents two literature reviews: 1. Synthesis of aldehydes and ketones, starting from the sulphur containing compounds 2. Synthesis of deuterated benzaldehydes. The sulphenylation reaction of benzyl phenyl sulphones, leading to a new \"synthon\", &#945;-methylthio-benzyl phenyl sulphone (1), is described. Y-C6H4-CH(SCH3)SO2C6H5 Y = H,CH3,OCH3,Cl,NO2,CN. Acid hydrolyses of (1) to give p-substituted benzaldehydes are reported. A novel reaction - Thermal Oecomposition of (1) - as an improved method for the synthesis of p-substituted benzaldehydes is proposed. One pot reaction, which consists of alkylation and thermal decomposition of (1), to give aromatic ketones, is reported. Some ketones containing acid-sensitive groups are obtained. The pyrolyt ic method is applied to the synthesis of deuterated aromatic aldehydes, which are obtained in 98% of isotopic purity. The yields of the deuterated and non-deuterated benzaldehydes are good, and do not show any dependence on the eletronic character of the para substituents. A discussion on some mechanistic aspects of the thermal decomposition is presented.

Aromatic compounds

Chemical synthesis

Compostos aromáticos

Síntese química

Polycyclic Aromatic Hydrocarbon Release from Pavement Rejuvenators Due to Rolling Wheel Contact: An Investigation Using a Model Mobile Load Simulator

Anderson, Joshua

23 April 2019

Polycyclic aromatic hydrocarbon (PAH) compounds, which are common to coal tar and coal-tar-based products, are ubiquitous environmental contaminates with carcinogenic effects to human health and aquatic life. Transport of PAHs via solid phase particulate motion, gaseous phase volatilization, and aqueous phase dissolution into urban waterbodies of PAH compounds from coal-tar-based pavement sealant products has been studied. Pavement rejuvenators are products applied to increase the usable life of pavement. Coal-tar-based rejuvenators contain a significantly larger mass fraction of coal-tar with respect to coal-tar-based sealants, but pavement rejuvenators have not been as extensively studied as pavement sealants. Chemical analysis of detached pavement material treated with coal-tar-bases, asphalt-based, and bio-based rejuvenators was conducted with gas chromatography – mass spectrometry (GC/MS) analysis for 16 PAH compounds and two aromatic heterocyclic organic compounds following extraction with methylene chloride. Detached pavement material was collected from 19 simulated asphalt surface abrasion experiments that used a model mobile load simulator (MMLS) test apparatus that replicated surface challenges from vehicular traffic. The MMLS test apparatus configuration allowed asphalt disc samples treated with different rejuvenation products, to be tested and for detached material to be collected and quantified prior to GC/MS analysis. Test cases evaluated the influence of rejuvenation product type and cure time, as well as the effect of sand application (simulating sand application during slippery winter storm conditions) had on detached particulate and ultimate PAH compound loading. The average mass of particulate detachment from samples following a 48 hour cure time, for the asphalt-based and coal-tar-based rejuvenator products were 0.347 g and 0.480 g, respectively. This mass of detached material was lower than that from pavement treated with bio-based rejuvenator and the control (not treated), which had 4.858 g and 2.567 g of detached particulate material, respectively. When the product cure time was increased to three weeks, which was significantly long enough to capture effects of compound volatilization, average particulate detachment increased to 0.882 g for the coal-tar-based rejuvenator and decreased for the bio-based rejuvenator to 2.600 g. Six tests performed with a single application of winter storm sand after a 48 hour product cure time showed an increase in average particulate detachment to 1.450 g and 0.617 g for pavement treated with the asphalt-based and coal-tar-based rejuvenators, respectively. Conversely, under the same conditions, a reduction in average detached particulate to 3.749 g was observed for the bio-based product. Detached particulate material quantities for each test case were used with the respective cumulative concentration of 16 PAH compounds quantified to make an assessment on the potential PAH compound contamination via solid phase particle transport. The average PAH compound concentration in particulate detached from pavement treated with a coal-tar-based rejuvenator was 3062.8 mg PAH per kg of particulate. This was an order of magnitude higher than the average PAH concentration measured in particulate detached from the two control pavement samples and the two asphalt-based samples after a 48 hour cure time, which were 322.1 and 508.1 mg PAH per kg detached particulate, respectively. PAH compound concentrations were also normalized by the surface area of pavement treated with a rejuvenator to determine the potential PAH compound contamination per unit area. Normalized results for each rejuvenator type were averaged to make an overall evaluation of the potential rejuvenator specific PAH compound loading. The coal-tar-based, bio-based, and asphalt-based rejuvenators had a normalized cumulative solid-phase PAH compound release of 2.35, 0.88, and 0.17 mg PAH per square foot of pavement rejuvenated, respectively. In addition, carbazole was quantified in all pavement samples treated with the coal-tar-based rejuvenator at an average concentration of 125.6 mg carbazole per kg detached particulate. Acridine was quantified in detached particulate from five of seven coal-tar-based test performed at an average concentration (excluding non-detection samples) of 42.1 mg acridine per kg detached particulate.

Coal Tar

PAHs

Pavement Rejuvenators

Polycyclic Aromatic Hydrocarbon

Própolis - identificação de flavonóides e ácidos aromáticos em tintura. Estimativa de FPS de extrato mole em base cosmética. / Propolis - identification of flavonoids and aromatic acids in dye. FPS estimation Soft extract cosmetic base

Mori, Ana Luiza Pereira Moreira

16 October 1997

A realização deste trabalho objetivou a avaliação quantitativa da absorção da radiação UVB (290-320 nm) em oito amostras de própolis, incorporadas em base cosmética apropriada, sob a forma de extrato mole, originárias de diversas regiões com diferentes origens botânicas sendo duas de Minas Gerais, três de São Paulo, uma de Santa Catarina, uma do Rio Grande do Sul e outra da Pensilvânia - EUA. A estimativa de absorção foi feita através de método espectrofotométrico com medidas de absorbâncias na faixa entre 290 a 320 nm, tomadas de 5 em 5 nm. Cada medida de absorbância foi relacionada à intensidade e ao efeito eritemogênico da radiação em seu respectivo comprimento de onda. Os resultados tiveram como parâmetro o padrão de referência salicilato de homomentila, aprovado pela FDA para determinação de FPS in vivo. Foi obtido um perfil cromatográfico através de cromatografia em camada delgada para avaliação qualitativa de nossas amostras em relação a alguns flavonóides e ácidos aromáticos, o que nos permitiu constatar a presença de ácido cafeico em todas as amostras analisadas. Foram dosados flavonóides totais por método colorimétrico com cloreto de alumínio, expressos em crisina a 330 nm. Foi feita a comparação entre os resultados de FPS e flavonóides totais e observamos proporcionalidade direta entre a maioria das amostras, o que confirma a ação de absorção de radiação ultra-violeta por flavonóides colhidos pelas abelhas em plantas. / The aim of this work was to evaluate quantitatively the UVB absorption (290-320 nm) of propolis, contained in eight cosmetic samples as soft extract, from different botanical origins and several regions, such as Minas Gerais, São Paulo, Santa Catarina, Rio Grande do Sul and Pennsylvania (USA). A spectrophotometric method using absorbance measurements in a range of 290-320 nm, taken at 5 nm intervals, was used to asses the absorbance. Each absorbance measurement was related to both intensity and erythemal effect of the radiation at its respective wavelength. Homosalate, which is approved by the FDA as reference standard, was used for the determination of SPF in vivo. Chromatograms of the samples were obtained by thin-layer chromatography to evaluate the presence of some flavonoids and aromatic acids in the samples. This technique allowed the detection of caffeic acid in all the analyzed samples. The total flavonoids content was assayed by the colorimetric method using aluminum chloride, and the results were expressed in chrysin at 330 nm. A comparison between the SPF results and the total flavonoids contend was done and a direct relationship between most of the samples was observed, confirming the absorbing ultraviolet radiation property of the flavonoids collected by bees.

Aromatic compounds

Compostos aromáticos

Cosmetologia

Cosmetology

Natural products

Produtos naturais

Studies of flow injection system for micelle-assisted preconcentration of PAHs coupled with HPLC

Li, Cheuk Fai

01 January 2009

No description available.

Analysis

High performance liquid chromatography

Polycyclic aromatic hydrocarbons

Soils