ABSTRACT
Introdução: Dioxinas, furanos e bifenilas policloradas são poluentes tóxicos para a saúde humana incluindo riscos de incidência de cânceres, efeitos de neurodesenvolvimento, lesões dérmicas, cloroacne. Estes compostos são poluentes orgânicos persistentes (POPs) que podem ser transportados de longas distâncias da fonte de emissão e se bioacumular em ecossistemas. A atmosfera poluída foi recentemente classificada como carcinogênica para os seres humanos pela Organização Mundial da Saúde, mostrando a importância de sua caracterização, principalmente para compostos tóxicos. Entretanto, técnica de coleta ativa tem custo elevado para POPs, e existem poucos estudos de calibração que validem a substituição. Objetivos: Avaliar a toxicidade equivalente da atmosfera por dioxinas, furanos e bifenilas cloradas, utilizando técnicas de coleta ativa e passiva, e verificar gradiente de concentração nos ambientes urbano, urbano/industrial e de background. Método: Amostras de ar foram coletadas, utilizando coletores ativos e passivos, durante dois períodos consecutivos de quatro meses: de setembro a dezembro de 2014 (período 1) e de maio a agosto de 2015 (período 2) em três cidades de São Paulo, SP, em ambientes urbano, urbano/industrial e de background. Todas as amostras foram extraídas com solução de tolueno:acetona (9:1) em Soxhlet por 24 h e padrões marcados (13C12-PCDD/Fs e 13C12-PCBs) foram adicionados em cada amostra antes do processo de extração. Os extratos foram purificados em coluna de sílica mista (40 por cento H2SO4 e 10 por cento AgNO3) seguida por coluna de alumina. O procedimento analítico foi realizado utilizando HRGC/HRMS (High Resolution Gas Chromatograph/High Resolution Mass Spectrometer) operando em ionização de impacto de elétrons com energia de 35 eV no modo SIM (Select Ion Monitoring) e resolução de 10.000. Resultados mostraram que: (1) existe variação sazonal para concentrações de PCDD/Fs no ar entre os períodos 1 e 2 (p=0,03), enquanto as concentrações de dl-PCBs não foram estatisticamente diferentes nestes períodos (p=0,52); (2) existe gradiente de concentração de PCDD/Fs e dl- PCBs que aumenta na seguinte ordem: background
Introduction: Dioxins, furans and polychlorinated biphenyls are toxic pollutants for human health including risks of cancer incidence, neurodevelopmental effects, dermal lesions, chloracne. These compounds are persistent organic pollutants (POPs) that can be transported to long distances from the emission source and they are bioaccumulated in ecosystems. Recently, the outdoor air pollution were classified as carcinogenic to humans by the World Health Organization, showing the importance of its characterization for toxic compounds. However, active air monitoring has a high cost for POPs, and there is a few calibration studies which support that substitution. Objective: To assess the equivalent toxicity of the atmosphere regarding the measurement of dioxins, furans and polychlorinated biphenyls, using active and passive air samplers, and to evatuate the contrasting concentrations at urban, urban/industrial and background sites. Method: Air samples were collected, using active and passive samplers, over two consecutive periods of four months: from September to December 2014 (period 1) and from May to August 2015 (period 2) at three cities in São Paulo, SP, covering urban, urban/industrial and background sites. All samples were extracted with toluene:acetone (9:1) in a Soxhlet apparatus for 24 hours and surrogate standards (13C12-PCDD/F and 13C12-PCBs) were spiked on each sample media prior to extraction procedure. The extracts were purified on an silica column (40 per cent H2SO4 and 10 per cent AgNO3) followed by an alumina column. The analytical procedure was carried out using HRGC/HRMS (High Resolution Gas Chromatograph/High Resolution Mass Spectrometer) operating in electron impact ionization with an energy of 35 eV in SIM (selected ion monitoring) mode and 10.000 resolution power. Results show that (1) there are seasonal variations for PCDD/F concentrations in air between period 1 and 2 (p=0.03), whereas dl-PCB levels were not statistically different (p=0.52) in those periods. (2) PCDD/F and dl-PCB air levels are in the following order: background
Subject(s)
Air Pollution , Data Collection/methods , Dioxins/toxicity , Furans/toxicity , Polychlorinated Biphenyls , Gas Exhaust , Industrial Zones , Organic Chemicals/toxicity , Urban AreaABSTRACT
Abstract Recently, there has been a lot of interest in the utilization of rhodococci in the bioremediation of petroleum contaminated environments. This study investigates the response of Rhodococcus erythropolis IBBPo1 cells to 1% organic solvents (alkanes, aromatics). A combination of microbiology, biochemical, and molecular approaches were used to examine cell adaptation mechanisms likely to be pursued by this strain after 1% organic solvent exposure. R. erythropolis IBBPo1 was found to utilize 1% alkanes (cyclohexane, n-hexane, n-decane) and aromatics (toluene, styrene, ethylbenzene) as the sole carbon source. Modifications in cell viability, cell morphology, membrane permeability, lipid profile, carotenoid pigments profile and 16S rRNA gene were revealed in R. erythropolis IBBPo1 cells grown 1 and 24 h on minimal medium in the presence of 1% alkanes (cyclohexane, n-hexane, n-decane) and aromatics (toluene, styrene, ethylbenzene). Due to its environmental origin and its metabolic potential, R. erythropolis IBBPo1 is an excellent candidate for the bioremediation of soils contaminated with crude oils and other toxic compounds. Moreover, the carotenoid pigments produced by this nonpathogenic Gram-positive bacterium have a variety of other potential applications.
Subject(s)
Adaptation, Biological/drug effects , Adaptation, Biological/genetics , Adaptation, Biological/physiology , Adaptation, Biological/toxicity , Organic Chemicals/drug effects , Organic Chemicals/genetics , Organic Chemicals/physiology , Organic Chemicals/toxicity , /drug effects , /genetics , /physiology , /toxicity , Rhodococcus/drug effects , Rhodococcus/genetics , Rhodococcus/physiology , Rhodococcus/toxicity , Solvents/drug effects , Solvents/genetics , Solvents/physiology , Solvents/toxicityABSTRACT
We previously found that embryonic development of the bivalve species was highly vulnerable to xenobiotic chemicals, damaging the coastal ecosystem integrity To further assess their potential damage to ecosystem, the xenobiotic composition of the sediment elutriates from two representative industrialized Korean coasts, Pohang and Ulsan, were determined with gas chromatography/mass spectrometry (GC/MS). The presumed critical dilution of the elutriate was then exposed to early life stages of the Pacific oyster (Crassostrea gigas), embryonic development and metamorphic stage to first spat, at which they were believably more vulnerable by the chemical exposure. The early life damage by the xenobiotic exposure was apparently significant by the significant degree of pollution. Here, we indicated their potential damages to the Pacific oyster
Subject(s)
Animals , Crassostrea/drug effects , Ecosystem , Embryo, Nonmammalian/drug effects , Geography , Geologic Sediments/chemistry , Korea , Marine Biology , Metamorphosis, Biological/drug effects , Organic Chemicals/toxicity , Water Pollutants, Chemical/toxicity , XenobioticsABSTRACT
BACKGROUND: Volatile organic compounds (VOCs) in concentrations found in both the work and home environments may influence lung function. We investigated the prevalence of airway responsiveness in workers exposed to VOCs. METHODS: We used allergic skin tests, nonspecific airway hyperresponsiveness testing and questionnaires to study twenty exposed workers and twenty-seven control subjects. Atopy was defined as a reactor who showed >3+ response to one or more allergens on the skin prick tests. Airway hyperresponsiveness (BRindex) was defined as log [% fall of FEV1/ log (last concentration of methacholine) +10]. RESULTS: The VOC exposed workers, in comparison with the control subjects, tended to have a higher BRindex (1.19+/-0.07 vs. 1.15+/-0.08, respectively). Workers exposed to VOCs with atopy or smoker, as compared with the workers exposed to VOCs with non-atopy and who were non-smokers and the control subjects with non-atopy and who were non-smokers, had a significantly higher BRindex (1.20+/-0.05 vs. 1.14+/-0.06 vs. 1.10+/-0.03, respectively p<0.05). The BRindex was not correlated with atopy, the smoking status or the duration of VOC exposure. CONCLUSIONS: These findings suggest that VOCs may act as a contributing factor of airway hyperresponsiveness in workers exposed to VOCs.