Soil biotransformation of thiodiglycol, the hydrolysis product of mustard gas: understanding the factors governing remediation of mustard gas contaminated soil

Thiodiglycol (TDG) is both the precursor for chemical synthesis of mustard gas and the product of mustard gas hydrolysis. TDG can also react with intermediates of mustard gas degradation to form more toxic and/or persistent aggregates, or reverse the pathway of mustard gas degradation. The persisten...

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Bibliographic Details
Published in:Biodegradation (Dordrecht) 2013-02, Vol.24 (1), p.125-135
Main Authors: Li, Hong, Muir, Robert, McFarlane, Neil R., Soilleux, Richard J., Yu, Xiaohong, Thompson, Ian P., Jackman, Simon A.
Format: Article
Language:English
Subjects:
Aquatic Pollution
Bacteria
Bacteria - classification
Bacteria - genetics
Bacteria - isolation & purification
Bacteria - metabolism
Biodegradation
Biodegradation of pollutants
Biodegradation, Environmental
Biological and medical sciences
Biomedical and Life Sciences
Bioremediation
Biotechnology
Biotransformation
Chemical synthesis
Chemical Warfare Agents - chemistry
Chemical Warfare Agents - metabolism
Community structure
Contamination
Degradation
Environment and pollution
Fundamental and applied biological sciences. Psychology
Gases
Geochemistry
Hydrogen-Ion Concentration
Hydrolysis
Industrial applications and implications. Economical aspects
Life Sciences
Microbiology
Microorganisms
Mustard gas
Mustard Gas - chemistry
Mustard Gas - metabolism
Original Paper
Oxidation-Reduction
Phylogeny
Remediation
Soil (material)
Soil chemistry
Soil contamination
Soil Microbiology
Soil Pollutants - chemistry
Soil Pollutants - metabolism
Soil Science & Conservation
Sulfhydryl Compounds - chemistry
Sulfhydryl Compounds - metabolism
Terrestrial Pollution
Waste Management/Waste Technology
Waste Water Technology
Water Management
Water Pollution Control
Water, Underground
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Description
Summary:Thiodiglycol (TDG) is both the precursor for chemical synthesis of mustard gas and the product of mustard gas hydrolysis. TDG can also react with intermediates of mustard gas degradation to form more toxic and/or persistent aggregates, or reverse the pathway of mustard gas degradation. The persistence of TDG have been observed in soils and in the groundwater at sites contaminated by mustard gas 60 years ago. The biotransformation of TDG has been demonstrated in three soils not previously exposed to the chemical. TDG biotransformation occurred via the oxidative pathway with an optimum rate at pH 8.25. In contrast with bacteria isolated from historically contaminated soil, which could degrade TDG individually, a consortium of three bacterial strains isolated from the soil never contaminated by mustard gas was able to grow on TDG in minimal medium and in hydrolysate derived from an historical mustard gas bomb. Exposure to TDG had little impacts on the soil microbial physiology or on community structure. Therefore, the persistency of TDG in soils historically contaminated by mustard gas might be attributed to the toxicity of mustard gas to microorganisms and the impact to soil chemistry during the hydrolysis. TDG biodegradation may form part of a remediation strategy for mustard gas contaminated sites, and may be enhanced by pH adjustment and aeration.
ISSN:0923-9820
1572-9729
DOI:10.1007/s10532-012-9564-7