Methane emissions from a Californian landfill, determined fromairborne remote sensing and in-situ measurements

Fugitive emissions from waste disposal sites are important anthropogenic sources of the greenhouse gas methane (CH 4 ). As a result of the growing world population and the recognition of the need to control greenhouse gas emissions, this anthropogenic source of CH 4 has received much recent attention. However, the accurate assessment of the CH 4 emissions from landfills by modeling and existing measurement techniques is challenging. This is because of inaccurate knowledge of the model parameters and the extent of and limited accessibility to landfill sites. This results in a large uncertainty in our knowledge of the emissions of CH 4 from landfills and waste management. In this study, we present results derived from data collected during the research campaign COMEX (CO 2 and Methane EXperiement) in late summer 2014 in the Los Angeles (LA) Basin. The objective of COMEX, which comprised aircraft observations of methane by the remote sensing Methane Airborne MAPper (MAMAP) instrument and a Picarro greenhouse gas in-situ analyser, was the quantitative investigation of CH 4 emissions. Enhanced CH 4 concentrations or "CH 4 plumes" were detected downwind of landfills by remote sensing aircraft surveys. Subsequent to each remote sensing survey, the detected plume was sampled within the atmospheric boundary layer by in-situ measurements of atmospheric parameters such as wind information and dry gas mixing ratios of CH 4 and carbon dioxide (CO 2 ) from the same aircraft. This was undertaken to facilitate the independent estimation of the surface fluxes for the validation of the remote sensing estimates. During the COMEX campaign, four landfills in the LA Basin were surveyed. One landfill has repeatedly shown a clear emission plume. This landfill, the Olinda Alpha Landfill, was observed on four days during the last week of August and first days of September 2014. Emissions were estimated for all days using a mass balance approach. The derived emissions are between 13.0 and 18.2 kt CH 4 /yr with related uncertainties in the range of 17 % to 46 %. The comparison of the remote sensing and in-situ based CH 4 emission rate estimates reveals good agreement within the error bars with an average absolute difference of around 2.3 kt CH 4 /yr. The US Environmental Protection Agency (EPA) reported inventory value is 11.5 kt CH 4 /yr in 2014, on average 3.0 kt CH 4 /yr (±1.5 kt CH 4 /yr) lower than our estimates acquired in late Summer 2014. This difference may in part be explained by a possible leak located on the south-western slope of the landfill, which we identified in the observations of the Airborne Visible/Infrared Imaging Spectrometer – Next Generation (AVIRIS-NG) instrument, flown contemporaneously aboard a second aircraft on one day.