The El Niño – Southern Oscillation (ENSO) has been suggested as a strong forcing in the methane cycle and as a driver of recent trends in global atmospheric methane levels. Such a sensitivity of the global CH 4 budget to climate events would have important repercussions for climate change mitigation strategies and the accuracy of projections for future greenhouse forcing. Here, we test the impact of ENSO on the CH 4 cycle in a correlation analysis. We use local and global records of methane mixing ratio [CH 4 ], as well as stable carbon isotopic records of atmospheric CH 4 (δ 13 CH 4 ), which are particularly sensitive to the combined ENSO effects on CH 4 production from wetlands and biomass burning. We use a variety of nominal, smoothed and detrended time series including growth rate records. We find that at most 38 % of the variability in [CH 4 ] and δ 13 CH 4 is attributable to ENSO, but only for detrended records in the Southern tropics. Trend-bearing records from the Southern tropics, as well as all studied hemispheric and global records show a minor impact of ENSO, i.e. < 25 % of variability explained. Additional analyses using hydrogen cyanide (HCN) records show a detectable ENSO influence on biomass burning (up to 51 %–55 %), suggesting that it is wetland CH 4 production that responds less to ENSO than previously suggested. It is possible that other processes obscure the ENSO signal, which itself indicates a minor influence of the latter on CH 4 emissions. Trends like the recent rise in atmospheric [CH 4 ] can therefore not be attributed to ENSO. This leaves anthropogenic methane sources as the likely driver, which must be mitigated to reduce anthropogenic climate change.