Global Nitrous Oxide Budget 1980–2020

Medientyp: E-Artikel

Titel: Global Nitrous Oxide Budget 1980–2020

Beteiligte: Tian, Hanqin [VerfasserIn]; Pan, Naiqing [VerfasserIn]; Thompson, Rona L. [VerfasserIn]; Canadell, Josep G. [VerfasserIn]; Suntharalingam, Parvadha [VerfasserIn]; Regnier, Pierre [VerfasserIn]; Davidson, Eric A. [VerfasserIn]; Prather, Michael [VerfasserIn]; Ciais, Philippe [VerfasserIn]; Muntean, Marilena [VerfasserIn]; Pan, Shufen [VerfasserIn]; Winiwarter, Wilfried [VerfasserIn]; Zaehle, Sönke [VerfasserIn]; Zhou, Feng [VerfasserIn]; Jackson, Robert B. [VerfasserIn]; Bange, Hermann W. [VerfasserIn]; Berthet, Sarah [VerfasserIn]; Bian, Zihao [VerfasserIn]; Bianchi, Daniele [VerfasserIn]; Bouwman, Alexander F. [VerfasserIn]; Buitenhuis, Erik T. [VerfasserIn]; Dutton, Geoffrey [VerfasserIn]; Hu, Minpeng [VerfasserIn]; Ito, Akihiko [VerfasserIn]; [...]

Erschienen: Copernicus Publications (EGU), 2023-10-09

Sprache: Englisch

DOI: https://doi.org/10.5194/essd-2023-401

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Beschreibung: Nitrous oxide (N2O) is a long-lived potent greenhouse gas and stratospheric ozone-depleting substance, which has been accumulating in the atmosphere since the pre-industrial period. The mole fraction of atmospheric N2O has increased by nearly 25 % from 270 parts per billion (ppb) in 1750 to 336 ppb in 2022, with the fastest annual growth rate since 1980 of more than 1.3 ppb yr-1 in both 2020 and 2021. As a core component of our global greenhouse gas assessments coordinated by the Global Carbon Project (GCP), we present a global N2O budget that incorporates both natural and anthropogenic sources and sinks, and accounts for the interactions between nitrogen additions and the biochemical processes that control N2O emissions. We use Bottom-Up (BU: inventory, statistical extrapolation of flux measurements, process-based land and ocean modelling) and Top-Down (TD: atmospheric measurement-based inversion) approaches. We provide a comprehensive quantification of global N2O sources and sinks in 21 natural and anthropogenic categories in 18 regions between 1980 and 2020. We estimate that total annual anthropogenic N2O emissions increased 40 % (or 1.9 Tg N yr-1) in the past four decades (1980–2020). Direct agricultural emissions in 2020, 3.9 Tg N yr−1 (best estimate) represent the large majority of anthropogenic emissions, followed by other direct anthropogenic sources (including ‘Fossil fuel and industry’, ‘Waste and wastewater’, and ‘Biomass burning’ (2.1 Tg N yr−1), and indirect anthropogenic sources (1.3 Tg N yr−1). For the year 2020, our best estimate of total BU emissions for natural and anthropogenic sources was 18.3 (lower-upper bounds: 10.5–27.0) Tg N yr-1, close to our TD estimate of 17.0 (16.6–17.4) Tg N yr-1. For the period 2010–2019, the annual BU decadal-average emissions for natural plus anthropogenic sources were 18.1 (10.4–25.9) Tg N yr-1 and TD emissions were 17.4 (15.8–19.20 Tg N yr-1. The once top emitter Europe has reduced its emissions since the 1980s by 31 % while those of emerging economies have ...

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