Biodegradation Of Polycyclic Aromatic Hydrocarbons In Petroleum Oil Contaminating The Environment
- 1. Radiation Research and Technology Department, NCRRT, Egyptian Atomic Energy Authority, Cairo (Egypt)
Description
Polycyclic aromatic hydrocarbons (PAHs) are ubiquitous pollutants in urban atmospheres (Chen et al., 2013). PAHs enter the environment via incomplete combustion of fossil fuels and accidental leakage of petroleum products, and as components of products such as creosote (Muckian et al., 2009). Due to PAHs carcinogenic activity, they have been included in the European Union (EU) and the Environmental Protection Agency (EPA) priority pollutant lists. Human exposure to PAHs occurs in three ways, inhalation, dermal contact and consumption of contaminated foods, which account for 88-98% of such contamination; in other words, diet is the major source of human exposure to these contaminants (Rey-Salgueiro et al., 2008). Both the World Health Organization and the UK Expert Panel on Air Quality Standards (EPAQS) have considered benzo(a)pyrene (BaP) as a marker of the carcinogenic potency of the polycyclic aromatic hydrocarbons (PAH) mixture (Delgado-Saborit et al., 2011). Polycyclic aromatic and heavier aliphatic hydrocarbons, which have a stable recalcitrant molecular structure, exhibit high hydrophobicity and low aqueous solubility, are not readily removed from soil through leaching and volatilization (Brassington et al., 2007). The hydrophobicity of PAHs limits desorption to the aqueous phase (Donlon et al., 2002). Six main ways of dissipation, i.e. disappearance, are recognized in the environment: volatilization, photooxidation, Aim of the Work chemical oxidation, sorption, leaching and biodegradation. Microbial degradation is considered to be the main process involved in the dissipation of PAH (Yuan et al., 2002). Thus, more and more research interests are turning to the biodegradation of PAHs. Some microorganisms can utilize PAHs as a source of carbon and energy so that PAHs can be degraded to carbon dioxide and water, or transformed to other nontoxic or low-toxic substances (Perelo, 2010). Compared with other physical and chemical methods such as combustion, photolysis, landfill and ultrasonic decomposition, biodegradation is expected to be an economic and environmentally friendly alternative for removal of PAHs (Toledo et al., 2006). Márquez-Rocha et al. (2005) revealed that many isolated bacterial and fungal species have been reported to be capable of biodegrading effectively petroleum hydrocarbons and even polynuclear aromatic hydrocarbons.
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Additional details
Publishing Information
- Imprint Pagination
- 339 p.
- Report number
- INIS-EG--426
INIS
- Country of Publication
- Egypt
- Country of Input or Organization
- Egypt
- INIS RN
- 46066353
- Subject category
- ENVIRONMENTAL SCIENCES; PETROLEUM;
- Resource subtype / Literary indicator
- Thesis
- Quality check status
- Yes
- Descriptors DEI
- BIODEGRADATION; CONTAMINATION; ENVIRONMENT; EVAPORATION; FOSSIL FUELS; OILS; PETROLEUM; POLYCYCLIC AROMATIC HYDROCARBONS; TOXICITY;
- Descriptors DEC
- AROMATICS; CHEMICAL REACTIONS; DECOMPOSITION; ENERGY SOURCES; FOSSIL FUELS; FUELS; HYDROCARBONS; ORGANIC COMPOUNDS; OTHER ORGANIC COMPOUNDS; PHASE TRANSFORMATIONS;
Optional Information
- Notes
- 63 tabs., 113 figs., 400 refs.