CH4IAO: Constraining urban methane sources based on direct eddy covariance measurements

Methane (CH₄)  is an important greenhouse gas in the atmosphere. The methane emission budget has a sizeable anthropogenic contribution, which makes methane the most important non-CO₂ greenhouse gas released from anthropogenic activities. Methane emissions play a key role in hydroxyl consumption, thus contributing to complex interactions central to atmospheric chemistry and climate. Reduction of CH₄ emissions can provide quick and cost effective cuts in global warming, but requires a sound understanding of the different anthropogenic sources. Although the total global CH₄ budget is relatively well understood, the contributions of individual sources to CH₄ emissions are poorly constrained. Anthropogenic methane emissions in Austria are largely based on Tier 1 bottom-up scaling and urban emission sources are subject to significant  uncertainty.  Here we propose a holistic top-down approach to constrain methane emissions on the local to urban scale based on eddy flux observations of methane along with a suite of additional chemical markers. In this project we propose to study urban methane emissions based on direct eddy covariance measurements. These measurements will provide a top down assessment of urban methane fluxes in the urban core of Innsbruck.

Project Leader:
Thomas KARL

Funding Agencies:
FWF

Project Duration:
01/10/2020 to 01/10/2024