Biodegradation of petroleum hydroca

Biodegradation of petroleum hydrocarbons is a complex
process that depends on the nature and on the amount
of the hydrocarbons present. Petroleum hydrocarbons can
be divided into four classes: the saturates, the aromatics,
the asphaltenes (phenols, fatty acids, ketones, esters,
and porphyrins), and the resins (pyridines, quinolines,
carbazoles, sulfoxides, and amides) [19]. Different factors
influencing hydrocarbon degradation have been reported by
Cooney et al. [20]. One of the important factors that limit
biodegradation of oil pollutants in the environment is their
limited availability to microorganisms. Petroleum hydrocarbon
compounds bind to soil components, and they are dif-
ficult to be removed or degraded [21]. Hydrocarbons differ
in their susceptibility to microbial attack. The susceptibility
of hydrocarbons to microbial degradation can be generally
ranked as follows: linear alkanes > branched alkanes > small
aromatics > cyclic alkanes [6, 22]. Some compounds, such as
the high molecular weight polycyclic aromatic hydrocarbons
(PAHs), may not be degraded at all [23].
Microbial degradation is the major and ultimate natural
mechanism by which one can cleanup the petroleum
hydrocarbon pollutants from the environment [24–26].
The recognition of biodegraded petroleum-derived aromatic
hydrocarbons in marine sediments was reported by Jones
et al. [27]. They studied the extensive biodegradation of
alkyl aromatics in marine sediments which occurred prior to
detectable biodegradation of n-alkane profile of the crude oil