Lewisite environmental degradation

The subcommittee believes the potential enviromnental and metabolic breakdown products of lewisite are not well identified. There is a possibihty that inorganic arsenic and perhaps even vinyl chloride, two known carcinogens, may be break down products. Accordingly, the subcommittee recommends that the environmental degradation and metabolic products of lewisite be determined, and, if those breakdown products are found to be produced, that the carcinogenic potential of those substances, as well as lewisite, be considered in future assessments. 

Regardless of the method of lewisite degradation (combustion, hydrolysis, or other environmental degradation), the arsenic component will not be eliminated and, therefore, at least some combustion product or other degradation products may be some form of arsenical. The recognized degradation products of lewisite are listed in Table 1. 

R. McColm and N.H. Williams, The analysis of Lewisite degradation products in environmental samples and decontamination solutions by liquid chromatography, Presentation at WMD 2003 Conference, Prague, 20-22 May, 2003. 

Under environmental conditions, CWAs (vesicant agents, sulfur mustard (H, HD and HT) and lewisite (L) nerve agents, GA, GB, GD and VX) can undergo multiple-degradation processes such as hydrolysis, oxidation, dehydration and photolysis. These baseline degradation reactions can vary in rate and completeness, depending upon reaction temperature and pH, as well as the presence of free radicals and catalysts. Knowledge of these baseline reaction parameters has formed the basis for many modern decontamination procedures. 

Sulfur mustard can be considered environmentally persistent because it is chemically stable and of low volatility. When protected from weathering conditions, it may persist in soil for years. VX is moderately persistent because of low volatility and slow rate of hydrolysis. The G-agents can be considered non-persistent on the basis of volatility and hydrolysis rates. Depending on environmental conditions, their half-lives may be measured in hours to days. Lewisite is rapidly hydrolyzed but the insoluble oxide formed is stable in the environment. In addition, arsenical degradation products of lewisite persist in the environment. Because of its extreme volatility and relatively rapid hydrolysis, cyanogen chloride is not persistent in the environment. 

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