Bioremediation and Biorestoration of a Crube Oil-Contaminated Freshwater Wetland on the St.Lawrence River

Biostimulation by nutrient enrichment and phytoremediation were studied for the restoration of an acutely stressed freshwater wetland experimentally exposed to crude oil. The research was carried out along the shores of the St. Lawarence River at Ste. Croix, Quebec, Canada. The research determined t...

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Bibliographic Details
Published in:Bioremediation journal 2002-07, Vol.6 (3), p.261-281
Main Authors: Venosa, Albert D., Lee, Kenneth, Suidan, Makram T., Garcia-Blanco, Susana, Cobanli, Susan, Moteleb, Moustafa, Haines, John R., Tremblay, Gilles, Hazelwood, Melynda
Format: Article
Language:English
Subjects:
alkanes
biodegradation
bioremediation
biostimulation
crude oil
freshwater wetlands
hydrocarbons
MPNs
nitrogen
nutrient enrichment
nutrients
PAHs
phosphorus
phytoremediation
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Summary:Biostimulation by nutrient enrichment and phytoremediation were studied for the restoration of an acutely stressed freshwater wetland experimentally exposed to crude oil. The research was carried out along the shores of the St. Lawarence River at Ste. Croix, Quebec, Canada. The research determined the effectiveness of fertilizer addition in enhancing the biodegradation rates of residual oil. It further examined the rate at which the stressed ecosystem recovered with and without the addition of inorganic fertilizers and the role of nutrients in enhancing wetland restoration in the absence of healthy wetland plants. Chemical analysis of integrated sediment core samples to the depth of oil penetration within the experimental plots indicated that addition of inorganic nutrients did not enhance the disappearance of alkanes or PAHs. In surface samples, however, hydrocarbon disappearance rates were higher when the metabolic activity of wetland plants was suppressed by the removal of emergent plant growth. These results suggest that oxygen limitation plays a major role in preventing rapid biodegradation of hydrocarbons in anoxic wetland sediment.
ISSN:1088-9868
1547-6529
DOI:10.1080/10889860290777602