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The consolidated European synthesis of CH4 and N2O emissions for EU27 and UK: 1990–2019

Authors :
Petrescu, Ana-Maria-Roxana
Qiu, Chunjing
McGrath, M.J.
Peylin, Philippe
P. Peters, Glen
Ciais, P.
Thompson, Rona L.
Tsuruta, Aki
Brunner, Dominik
Kuhnert, Matthias
Matthews, Bradley
Palmer, Paul I.
Tarasova, Oksana
Regnier, Pierre
Lauerwald, Ronny
Bastviken, David
Höglund-Isaksson, Lena
Winiwarter, Wilfried
Etiope, Giuseppe
Aalto, Tuula
Balsamo, Gianpaolo
Bastrikov, Vladislav
Berchet, Antoine
Brockmann, Patrick
Ciotoli, Giancarlo
Conchedda, Giulia
Crippa, Monica
Dentener, Frank J.
Groot Zwaaftink, Christine D.
Guizzardi, Diego
Günther, Dirk
Haussaire, Jean-Matthieu
Houweling, Sander
Janssens-Maenhout, Greet
Kouyate, Massaer
Leip, Adrian
Leppänen, Antti
Lugato, Emanuele
Maisonnier, Manon
Manning, Alistair J.
Markkanen, Tiina
McNorton, Joe
Muntean, Marilena
Oreggioni, Gabriel D.
Patra, Prabir K.
Perugini, Lucia
Pison, Isabelle
Raivonen, Maarit T.
Saunois, Marielle
Segers, Arjo
Smith, Pete
Solazzo, Efisio
Tian, Hanqin
N. Tubiello, Francesco
Vesala, Timo
van der Werf, Guido
Wilson, Chris
Zaehle, Sönke
Source :
Petrescu, A-M-R, Qiu, C, McGrath, M J, Peylin, P, P. Peters, G, Ciais, P, Thompson, R L, Tsuruta, A, Brunner, D, Kuhnert, M, Matthews, B, Palmer, P I, Tarasova, O, Regnier, P, Lauerwald, R, Bastviken, D, Höglund-Isaksson, L, Winiwarter, W, Etiope, G, Aalto, T, Balsamo, G, Bastrikov, V, Berchet, A, Brockmann, P, Ciotoli, G, Conchedda, G, Crippa, M, Dentener, F J, Groot Zwaaftink, C D, Guizzardi, D, Günther, D, Haussaire, J-M, Houweling, S, Janssens-Maenhout, G, Kouyate, M, Leip, A, Leppänen, A, Lugato, E, Maisonnier, M, Manning, A J, Markkanen, T, McNorton, J, Muntean, M, Oreggioni, G D, Patra, P K, Perugini, L, Pison, I, Raivonen, M T, Saunois, M, Segers, A, Smith, P, Solazzo, E, Tian, H, N. Tubiello, F, Vesala, T, van der Werf, G, Wilson, C & Zaehle, S 2023, ' The consolidated European synthesis of CH4 and N2O emissions for EU27 and UK: 1990–2019 ', Earth System Science Data . < https://doi.org/10.5194/essd-15-1197-2023 >
Publication Year :
2023

Abstract

Knowledge of the spatial distribution of the fluxes of greenhouse gases (GHGs) and their temporal variability as well as flux attribution to natural and anthropogenic processes is essential to monitoring the progress in mitigating anthropogenic emissions under the Paris Agreement and to inform its global stocktake. This study provides a consolidated synthesis of CH4 and N2O emissions using bottom-up (BU) and top-down (TD) approaches for the European Union and UK (EU27 + UK) and updates earlier syntheses (Petrescu et al., 2020, 2021). The work integrates updated emission inventory data, process-based model results, data-driven sector model results and inverse modeling estimates, and it extends the previous period of 1990–2017 to 2019. BU and TD products are compared with European national greenhouse gas inventories (NGHGIs) reported by parties under the United Nations Framework Convention on Climate Change (UNFCCC) in 2021. Uncertainties in NGHGIs, as reported to the UNFCCC by the EU and its member states, are also included in the synthesis. Variations in estimates produced with other methods, such as atmospheric inversion models (TD) or spatially disaggregated inventory datasets (BU), arise from diverse sources including within-model uncertainty related to parameterization as well as structural differences between models. By comparing NGHGIs with other approaches, the activities included are a key source of bias between estimates, e.g., anthropogenic and natural fluxes, which in atmospheric inversions are sensitive to the prior geospatial distribution of emissions. For CH4 emissions, over the updated 2015–2019 period, which covers a sufficiently robust number of overlapping estimates, and most importantly the NGHGIs, the anthropogenic BU approaches are directly comparable, accounting for mean emissions of 20.5 Tg CH4 yr−1 (EDGARv6.0, last year 2018) and 18.4 Tg CH4 yr−1 (GAINS, last year 2015), close to the NGHGI estimates of 17.5&#177;2.1 Tg CH4 yr−1. TD inversion estimates give higher emission estimates, as they also detect natural emissions. Over the same period, high-resolution regional TD inversions report a mean emission of 34 Tg CH4 yr−1. Coarser-resolution global-scale TD inversions result in emission estimates of 23 and 24 Tg CH4 yr−1 inferred from GOSAT and surface (SURF) network atmospheric measurements, respectively. The magnitude of natural peatland and mineral soil emissions from the JSBACH–HIMMELI model, natural rivers, lake and reservoir emissions, geological sources, and biomass burning together could account for the gap between NGHGI and inversions and account for 8 Tg CH4 yr−1. For N2O emissions, over the 2015–2019 period, both BU products (EDGARv6.0 and GAINS) report a mean value of anthropogenic emissions of 0.9 Tg N2O yr−1, close to the NGHGI data (0.8&#177;55 % Tg N2O yr−1). Over the same period, the mean of TD global and regional inversions was 1.4 Tg N2O yr−1 (excluding TOMCAT, which reported no data). The TD and BU comparison method defined in this study can be operationalized for future annual updates for the calculation of CH4 and N2O budgets at the national and EU27 + UK scales. Future comparability will be enhanced with further steps involving analysis at finer temporal resolutions and estimation of emissions over intra-annual timescales, which is of great importance for CH4 and N2O, and may help identify sector contributions to divergence between prior and posterior estimates at the annual and/or inter-annual scale. Even if currently comparison between CH4 and N2O inversion estimates and NGHGIs is highly uncertain because of the large spread in the inversion results, TD inversions inferred from atmospheric observations represent the most independent data against which inventory totals can be compared. With anticipated improvements in atmospheric modeling and observations, as well as modeling of natural fluxes, TD inversions may arguably emerge as the most powerful tool for verifying emission inventories for CH4, N2O and other GHGs. The referenced datasets related to figures are visualized at https://doi.org/10.5281/zenodo.7553800 (Petrescu et al., 2023).

Details

Language :
English
Database :
OpenAIRE
Journal :
Petrescu, A-M-R, Qiu, C, McGrath, M J, Peylin, P, P. Peters, G, Ciais, P, Thompson, R L, Tsuruta, A, Brunner, D, Kuhnert, M, Matthews, B, Palmer, P I, Tarasova, O, Regnier, P, Lauerwald, R, Bastviken, D, H&#246;glund-Isaksson, L, Winiwarter, W, Etiope, G, Aalto, T, Balsamo, G, Bastrikov, V, Berchet, A, Brockmann, P, Ciotoli, G, Conchedda, G, Crippa, M, Dentener, F J, Groot Zwaaftink, C D, Guizzardi, D, G&#252;nther, D, Haussaire, J-M, Houweling, S, Janssens-Maenhout, G, Kouyate, M, Leip, A, Lepp&#228;nen, A, Lugato, E, Maisonnier, M, Manning, A J, Markkanen, T, McNorton, J, Muntean, M, Oreggioni, G D, Patra, P K, Perugini, L, Pison, I, Raivonen, M T, Saunois, M, Segers, A, Smith, P, Solazzo, E, Tian, H, N. Tubiello, F, Vesala, T, van der Werf, G, Wilson, C &amp; Zaehle, S 2023, &#39; The consolidated European synthesis of CH4 and N2O emissions for EU27 and UK: 1990–2019 &#39;, Earth System Science Data . < https://doi.org/10.5194/essd-15-1197-2023 >
Accession number :
edsair.dedup.wf.001..0f2ced2c9778ce0e4ae1719d91d97e15
Full Text :
https://doi.org/10.5194/essd-15-1197-2023