Methyl bromide (CH₃Br) and methyl chloride (CH₃Cl) play important roles in stratospheric ozone depletion, but their atmospheric budgets have large uncertainties. The analysis of stable isotope composition of methyl halides may provide useful independent information for further constraining their budgets. Here we report the first measurements of CH₃Br and CH₃Cl stable carbon isotope ratios emitted from a biogenic source under in situ conditions. CH₃Br and CH₃Cl emissions from the salt marsh plant Batis maritima showed a strong diurnal variation in δ¹³C, from −65‰ during the daytime to −12‰ at night. The minimum δ¹³C values were observed at midday, coinciding with the time of greatest emissions and ambient temperature. At night, when the emissions were much smaller, the stable carbon isotopic ratios of CH₃Br and CH₃Cl became enriched in ¹³C. The daily mean δ¹³C of CH₃Br and CH₃Cl emissions, weighted by emission rate, were −43‰ and −62‰ respectively.