Natural attenuation of diesel-oil contamination in a subantarctic soil (Crozet Island)

The brackish Baltic Sea is under diesel oil pollution risk due to heavy ship traffic. The situation is exasperated by densely distributed marinas and a vigorous although seasonal recreational boating. The seasonality and physical environmental variations hamper the monitoring of microbial communities in response to diesel oil spills. Hence, an 8-week simulation experiment was established in metal basins (containing 265 L sea water and 18 kg quartz sand or natural shore sand as the littoral sediment) to study the effect of accidental diesel oil spills on microbial communities. Our results demonstrated that microbial communities in the surface water responded to diesel oil contamination, whereas those in the littoral sediment did not, indicating that diesel oil degradation mainly happened in the water. Diesel oil decreased the abundance of bacteria and fungi, but increased bacterial diversity in the water. Time was the predominant driver of microbial succession, attributable to the adaption strategies of microbes. Bacteria were more sensitive to diesel oil contamination than fungi and archaea. Diesel oil increased relative abundances of bacterial phyla, Alphaproteobacteria, Betaproteobacteria, Gammaproteobacteria, Flavobacteriia and Cytophagia, and fungal phylum Ascomycota in the surface water. Overall, this study improves the understanding of the immediate ecological impact of accidental diesel oil contamination, providing insights into risk management at the coastal area.

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Behavioural responses of Polinices incei (Gastopoda : Naticidae) to diesel oil contamination in sediments

Marine and Freshwater Research ◽

10.1071/mf9880435 ◽

1988 ◽

Vol 39 (4) ◽

pp. 435 ◽

Cited By ~ 3

Author(s):

HF Chapman ◽

RL Kitching ◽

JM Hughes

Keyword(s):

Diesel Oil ◽

Significant Response ◽

Oil Contamination ◽

Lethal Effects ◽

Behavioural Responses ◽

Total Length ◽

Intertidal Gastropod

The effects of diesel oil on burying and crawling behaviour in the intertidal gastropod Polinices incei are presented. Burying was examined by recording the number of animals buried after exposure to pollutant for 30 min and 24 h. Crawling activity was estimated by measuring the total length of track left in the sediment by a given number of snails over a set time. Both activities were reduced in the presence of diesel oil. Concentrations required to produce a significant response in terms of burial after 30 min and of crawling activity were greater than the 96-h LD50. Only the burying response after 24 h paralleled the 96-h LD50; its potential as an indicator of lethal effects is discussed.

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Differentiation Between Natural Hydrocarbons and Low Level Diesel Oil Contamination in Cooked Lobster Meat

Journal of the Fisheries Research Board of Canada ◽

10.1139/f75-036 ◽

1975 ◽

Vol 32 (2) ◽

pp. 316-320 ◽

Cited By ~ 6

Author(s):

M. Paradis ◽

R. G. Ackman

Keyword(s):

Gas Chromatography ◽

Column Chromatography ◽

Lipid Extraction ◽

Diesel Oil ◽

Extraction Column ◽

Oil Contamination ◽

Low Level ◽

Total Lipid Extraction ◽

Temperature Programmed ◽

Normal Background

A combination of total lipid extraction, column chromatography, and temperature-programmed gas chromatography was required to demonstrate disputed low level diesel oil contamination in cooked lobster meat. A specific diesel oil contaminant was indicated but identifiable components were not greatly in excess of the same compounds which were also found to be a normal background in organoleptically acceptable canned lobster meat.

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06/01430 Comparative bioremediation of soils contaminated with diesel oil by natural attenuation, biostimulation and bioaugmentation

Fuel and Energy Abstracts ◽

10.1016/s0140-6701(06)81434-7 ◽

2006 ◽

Vol 47 (3) ◽

pp. 212

Keyword(s):

Natural Attenuation ◽

Diesel Oil

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Bioremediation (Natural Attenuation and Biostimulation) of Diesel-Oil-Contaminated Soil in an Alpine Glacier Skiing Area

Applied and Environmental Microbiology ◽

10.1128/aem.67.7.3127-3133.2001 ◽

2001 ◽

Vol 67 (7) ◽

pp. 3127-3133 ◽

Cited By ~ 215

Author(s):

R. Margesin ◽

F. Schinner

Keyword(s):

Natural Attenuation ◽

Soil Microorganisms ◽

Initial Level ◽

Dry Weight ◽

Diesel Oil ◽

Summer Season ◽

Soil Leachate ◽

Alpine Glacier ◽

Soil Microbial ◽

Fertilized Soil

ABSTRACT We investigated the feasibility of bioremediation as a treatment option for a chronically diesel-oil-polluted soil in an alpine glacier area at an altitude of 2,875 m above sea level. To examine the efficiencies of natural attenuation and biostimulation, we used field-incubated lysimeters (mesocosms) with unfertilized and fertilized (N-P-K) soil. For three summer seasons (July 1997 to September 1999), we monitored changes in hydrocarbon concentrations in soil and soil leachate and the accompanying changes in soil microbial counts and activity. A significant reduction in the diesel oil level could be achieved. At the end of the third summer season (after 780 days), the initial level of contamination (2,612 Ã¯Â¿Â½ 70 μg of hydrocarbons g [dry weight] of soil−1) was reduced by (50 Ã¯Â¿Â½ 4)% and (70 Ã¯Â¿Â½ 2)% in the unfertilized and fertilized soil, respectively. Nonetheless, the residual levels of contamination (1,296 Ã¯Â¿Â½ 110 and 774 Ã¯Â¿Â½ 52 μg of hydrocarbons g [dry weight] of soil−1 in the unfertilized and fertilized soil, respectively) were still high. Most of the hydrocarbon loss occurred during the first summer season ([42 Ã¯Â¿Â½ 6]% loss) in the fertilized soil and during the second summer season ([41 Ã¯Â¿Â½ 4]% loss) in the unfertilized soil. In the fertilized soil, all biological parameters (microbial numbers, soil respiration, catalase and lipase activities) were significantly enhanced and correlated significantly with each other, as well as with the residual hydrocarbon concentration, pointing to the importance of biodegradation. The effect of biostimulation of the indigenous soil microorganisms declined with time. The microbial activities in the unfertilized soil fluctuated around background levels during the whole study.

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Natural Attenuation of Diesel Pollution in Sand Layer of Vadose Zone

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.179-180.174 ◽

2011 ◽

Vol 179-180 ◽

pp. 174-178

Author(s):

Bing Wang ◽

Yong Sheng Zhao ◽

Zhi Hui Qu

Keyword(s):

Vadose Zone ◽

Natural Attenuation ◽

Adsorption Equilibrium ◽

Life Time ◽

Fine Sand ◽

Diesel Oil ◽

Total Petroleum Hydrocarbon ◽

Sand Layer ◽

Adsorption Experiment ◽

First Order

The natural attenuation process was studied by vadose zone simulating indoor to quantify the adsorption, biodegradation and volatilization of diesel oil. Through adsorption experiment, adsorption equilibrium time of diesel sewage by fine sand was 24 h, and maximum theoretical adsorbance to Total Petroleum Hydrocarbon (TPH) was calculated to 234 mg/kg. Through the contrasts of three columns, the first-order attenuation kinetics equations of biodegradation and volatilization in the diesel polluted sand layer of vadose zone and the half-life time were established. According to the experiments, absorption, biodegradation and volatilization all played important roles, they were very major roles in natural attenuation.

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Estimating the capability of microalgae to physiological acclimatization and genetic adaptation to petroleum and diesel oil contamination

Aquatic Toxicology ◽

10.1016/j.aquatox.2012.08.001 ◽

2012 ◽

Vol 124-125 ◽

pp. 227-237 ◽

Cited By ~ 27

Author(s):

Julia Romero-Lopez ◽

Victoria Lopez-Rodas ◽

Eduardo Costas

Keyword(s):

Diesel Oil ◽

Oil Contamination ◽

Genetic Adaptation

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Effect of nutrient enrichments on the bacterial assemblage of Antarctic soils contaminated by diesel or crude oil

Polar Record ◽

10.1017/s0032247402002863 ◽

2003 ◽

Vol 39 (4) ◽

pp. 309-318 ◽

Cited By ~ 11

Author(s):

D. Delille ◽

E. Pelletier ◽

B. Delille ◽

F. Coulon

Keyword(s):

Crude Oil ◽

Contaminated Soils ◽

New Technologies ◽

Weather Conditions ◽

Diesel Oil ◽

Oil Contamination ◽

Bacterial Assemblage ◽

Antarctic Soils ◽

Order Of Magnitude ◽

Terre Adélie

There is an urgent need to develop new technologies to address the problem of soil remediation in high-latitude regions. A field study was initiated in January 1997 in two contaminated soils in Terre Adélie (Antarctica) with the objective of determining the long-term effectiveness of two bioremediation agents on total and hydrocarbon-degrading microbial assemblages under severe Antarctic conditions. This study was conducted in two steps, from January to July 1997 and from February to November 1999 in the Géologie Archipelago (Terre Adélie, 66°40′S, 140°01′E). Changes in bacterial communities were monitored in situ after crude oil or diesel addition in a series of 600 cm2 soil sectors (20×30 cm). Four contaminated sectors were used for each experiment: diesel oil (10 ml), diesel oil (10 ml) + fertilizer (1 ml), Arabian light crude oil (10 ml), and crude oil (10 ml) + fertilizer (1 ml). Two different bioremediation agents were used: a slow release fertilizer Inipol EAP-22 (Elf Atochem) in 1997 and a fish compost in 1999. Plots were sampled on a regular basis during a three-year period. All samples were analysed for total, saprophytic psychrophilic, and hydrocarbon-utilising bacteria. A one order of magnitude increase of saprophytic and hydrocarbon-utilising micro-organisms occurred during the first month of the experiment in most of the contaminated enclosures, but no clear differences appeared between fertilized and unfertilized plots. Diesel-oil contamination induced a significant increase of all bacterial parameters in all contaminated soils. Crude-oil contamination had no clear effects on microbial assemblages. It was clear that the microbial response could be rapid and efficient in spite of the severe weather conditions. However, microbial growth was not clearly improved in the presence of bioremediation agents.

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