A controlled release test was carried out to assess the accuracy of the tracer gas dispersion method, which is used to measure whole-site landfill methane (CH4) emissions as well as fugitive emissions from other area sources. Two teams performed measurements using analytical instruments installed in two vehicles, to measure downwind concentrations of target (CH4) and tracer gases at distances of 1.2â€“3.5 km from the release locations. The controlled target gas release rates were either 5.3 or 10.9 kg CH4 hâˆ’1, and target and tracer gases were released at distances between 12 m and 140 m from each other. Five measurement campaigns were performed, where the plume was traversed between 2 and 31 times. The measured target gas emissions agreed well with the controlled releases, with rate differences no greater than 1.1 kg CH4 hâˆ’1 for Team A and 1.0 kg CH4 hâˆ’1 for Team B when quantifying a controlled release of 10.9 kg CH4 hâˆ’1. This corresponds to a maximum error of Â±10%. A larger error of up to 18% was seen in the campaign with a lower target gas release rate (5.3 kg CH4 hâˆ’1). Using a cross plume integration method to calculate tracer gas to target gas ratios provided the most accurate results (lowest error), whereas larger errors (up to 49%) were observed when using other calculation methods. By establishment of an error budget and comparison with the measured error based on the release test, it could be concluded that following best practice when performing measurements, the overall error of a tracer gas dispersion measurement is very likely to be less than 20%.