A potentially powerful tool in studying the atmospheric CH₃Cl budget is the use of stable carbon isotope ratios. In an accompanying paper it is reported that the reaction of CH₃Cl with OH radical, the dominant sink for atmospheric CH₃Cl, is accompanied by an unexpectedly large fractionation factor (Gola et al., 2005). Another recently published study shows that CH₃Cl formed by the abiotic methylation process at ambient temperatures has a unique stable carbon isotope signature, extremely depleted in ¹³C, unequivocally distinguishing it from all other known sources (Keppler et al., 2004). Using these findings together with data existing in the literature, we here present three scenarios for an isotopic mass balance for atmospheric CH₃Cl. Our calculations provide strong support for the proposal that the largest source of atmospheric CH₃Cl (1800 to 2500 Gg yr^-1) is the abiotic methylation of chloride in terrestrial ecosytems, primarily located in tropical and subtropical areas where turnover of biomass is highest. Furthermore our calculations also indicate that the microbial soil sink for CH₃Cl is likely to be much larger (>1000 Gg yr^-1) than that previously assumed.

• Atmospheric Chemistry and Physics ; 5, no. 9