Title
Uncertainty analysis of a European high-resolution emission inventory of CO2 and CO to support inverse modelling and network design
Author
Super, I.
Dellaert, S.N.C.
Visschedijk, A.J.H.
Denier van der Gon, H.A.C.
Publication year
2020
Abstract
Quantification of greenhouse gas emissions is receiving a lot of attention because of its relevance for climate mitigation. Complementary to official reported bottomup emission inventories, quantification can be done with an inverse modelling framework, combining atmospheric transport models, prior gridded emission inventories and a network of atmospheric observations to optimize the emission inventories. An important aspect of such a method is a correct quantification of the uncertainties in all aspects of the modelling framework. The uncertainties in gridded emission inventories are, however, not systematically analysed. In this work, a statistically coherent method is used to quantify the uncertainties in a high-resolution gridded emission inventory of CO2 and CO for Europe. We perform a range of Monte Carlo simulations to determine the effect of uncertainties in different inventory components, including the spatial and temporal distribution, on the uncertainty in total emissions and the resulting atmospheric mixing ratios. We find that the uncertainties in the total emissions for the selected domain are 1 % for CO2 and 6 % for CO. Introducing spatial disaggregation causes a significant increase in the uncertainty of up to 40 % for CO2 and 70 % for CO for specific grid cells. Using gridded uncertainties, specific regions can be defined that have the largest uncertainty in emissions and are thus an interesting target for inverse modellers. However, the largest sectors are usually the best-constrained ones (low relative uncertainty), so the absolute uncertainty is the bes indicator for this. With this knowledge, areas can be identified that are most sensitive to the largest emission uncertainties, which supports network design.
Subject
Emission
Environment
Climate
Environment & Sustainability
Urbanisation
To reference this document use:
http://resolver.tudelft.nl/uuid:3431f1a0-cb33-4538-b663-ba7b4670decd
TNO identifier
878474
Source
Atmospheric Chemistry and Physics, 20 (20), 1795-1816
Document type
article