Role of natural attenuation, phytoremediation and hybrid technologies in the remediation of a refinery soil with old/recent petroleum hydrocarbons contamination

Within a search for a biological remediation technology to remove petroleum hydrocarbons (PHC) from a contaminated soil from a refinery, the potential of monitored natural attenuation (MNA) was compared with the use of transplants of Cortaderia selloana both in the absence and in the presence of soi...

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Bibliographic Details
Published in:Environmental technology 2012-09, Vol.33 (18), p.2097-2104
Main Authors: Couto, Maria Nazaré P.F.S, Pinto, Dorabela, Basto, M. Clara P, Vasconcelos, Teresa S.D
Format: Article
Language:English
Subjects:
additives
Applied sciences
Atmospheres
bioaugmentation
Biodegradation, Environmental
chemical degradation
Chemical engineering
Contamination
Cortaderia selloana
Crude oil
Decontamination. Miscellaneous
Degradation
environmental technology
Exact sciences and technology
Extraction and Processing Industry
hybrid technologies
Hydrocarbons
Hydrocarbons - analysis
Hydrocarbons - metabolism
Industrial Waste
microorganisms
most probable number technique
petroleum
Petroleum - analysis
Petroleum - metabolism
petroleum hydrocarbons
phytoremediation
Poaceae - metabolism
polluted soils
Pollution
Reactors
recent contamination
Refineries
refinery soil
Remediation
roots
Soil (material)
Soil - analysis
soil air
soil amendments
Soil and sediments pollution
Soil Pollutants - analysis
Soil Pollutants - metabolism
surfactants
tillage
weathered contamination
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Summary:Within a search for a biological remediation technology to remove petroleum hydrocarbons (PHC) from a contaminated soil from a refinery, the potential of monitored natural attenuation (MNA) was compared with the use of transplants of Cortaderia selloana both in the absence and in the presence of soil amendments. After 31 months of experiments, MNA was effective in removing most of the recent PHC contamination (50% of the initial total contamination) at 5–20 cm depth. The presence of weathered contamination explains the existence of an established community of PHC degraders, as can be inferred by the most probable number technique. C. selloana, in its turn, showed capacity to mobilize the most recalcitrant fraction of PHC to its roots, nevertheless masking its remediation capacity. The use of a hybrid technology (C. selloana together with treatments with a surfactant and a bioaugmentation product) improved the removal of PHC at 15–20 cm depth, the presence of C. selloana facilitating the migration of additives into the deeper layers of soil, which can be considered a secondary but positive role of the plant. In the surface soil layer, which was exposed to both microorganisms and the atmosphere, a further 20% of weathered PHC contamination disappeared (70% total removal) as a result of photo- and chemical degradation. Periodic revolving of the soil, like tillage, to expose all the contaminated soil to the atmosphere will therefore be a reliable option for reducing the contamination of the refinery soil if conditions (space and equipment) permit this operation.
ISSN:1479-487X
0959-3330
1479-487X
DOI:10.1080/09593330.2012.660646