TY - JOUR
T1 - Carbon and Greenhouse Gas Budgets of Europe
T2 - Trends, Interannual and Spatial Variability, and Their Drivers
AU - Lauerwald, Ronny
AU - Bastos, Ana
AU - McGrath, Matthew J.
AU - Petrescu, Ana Maria Roxana
AU - Ritter, François
AU - Andrew, Robbie M.
AU - Berchet, Antoine
AU - Broquet, Grégoire
AU - Brunner, Dominik
AU - Chevallier, Frédéric
AU - Cescatti, Alessandro
AU - Filipek, Sara
AU - Fortems-Cheiney, Audrey
AU - Forzieri, Giovanni
AU - Friedlingstein, Pierre
AU - Fuchs, Richard
AU - Gerbig, Christoph
AU - Houweling, Sander
AU - Ke, Piyu
AU - Lerink, Bas J.W.
AU - Li, Wanjing
AU - Li, Wei
AU - Li, Xiaojun
AU - Luijkx, Ingrid
AU - Monteil, Guillaume
AU - Munassar, Saqr
AU - Nabuurs, Gert Jan
AU - Patra, Prabir K.
AU - Peylin, Philippe
AU - Pongratz, Julia
AU - Regnier, Pierre
AU - Saunois, Marielle
AU - Schelhaas, Mart Jan
AU - Scholze, Marko
AU - Sitch, Stephen
AU - Thompson, Rona L.
AU - Tian, Hanqin
AU - Tsuruta, Aki
AU - Wilson, Chris
AU - Wigneron, Jean Pierre
AU - Yao, Yitong
AU - Zaehle, Sönke
AU - Ciais, Philippe
PY - 2024/8
Y1 - 2024/8
N2 - In the framework of the RECCAP2 initiative, we present the greenhouse gas (GHG) and carbon (C) budget of Europe. For the decade of the 2010s, we present a bottom-up (BU) estimate of GHG net-emissions of 3.9 Pg CO2-eq. yr−1 (using a global warming potential on a 100 years horizon), which are largely dominated by fossil fuel emissions. In this decade, terrestrial ecosystems acted as a net GHG sink of 0.9 Pg CO2-eq. yr−1, dominated by a CO2 sink that was partially counterbalanced by net emissions of CH4 and N2O. For CH4 and N2O, we find good agreement between BU and top-down (TD) estimates from atmospheric inversions. However, our BU land CO2 sink is significantly higher than the TD estimates. We further show that decadal averages of GHG net-emissions have declined by 1.2 Pg CO2-eq. yr−1 since the 1990s, mainly due to a reduction in fossil fuel emissions. In addition, based on both data driven BU and TD estimates, we also find that the land CO2 sink has weakened over the past two decades. A large part of the European CO2 and C sinks is located in Northern Europe. At the same time, we find a decreasing trend in sink strength in Scandinavia, which can be attributed to an increase in forest management intensity. These are partly offset by increasing CO2 sinks in parts of Eastern Europe and Northern Spain, attributed in part to land use change. Extensive regions of high CH4 and N2O emissions are mainly attributed to agricultural activities and are found in Belgium, the Netherlands and the southern UK. We further analyzed interannual variability in the GHG budgets. The drought year of 2003 shows the highest net-emissions of CO2 and of all GHGs combined.
AB - In the framework of the RECCAP2 initiative, we present the greenhouse gas (GHG) and carbon (C) budget of Europe. For the decade of the 2010s, we present a bottom-up (BU) estimate of GHG net-emissions of 3.9 Pg CO2-eq. yr−1 (using a global warming potential on a 100 years horizon), which are largely dominated by fossil fuel emissions. In this decade, terrestrial ecosystems acted as a net GHG sink of 0.9 Pg CO2-eq. yr−1, dominated by a CO2 sink that was partially counterbalanced by net emissions of CH4 and N2O. For CH4 and N2O, we find good agreement between BU and top-down (TD) estimates from atmospheric inversions. However, our BU land CO2 sink is significantly higher than the TD estimates. We further show that decadal averages of GHG net-emissions have declined by 1.2 Pg CO2-eq. yr−1 since the 1990s, mainly due to a reduction in fossil fuel emissions. In addition, based on both data driven BU and TD estimates, we also find that the land CO2 sink has weakened over the past two decades. A large part of the European CO2 and C sinks is located in Northern Europe. At the same time, we find a decreasing trend in sink strength in Scandinavia, which can be attributed to an increase in forest management intensity. These are partly offset by increasing CO2 sinks in parts of Eastern Europe and Northern Spain, attributed in part to land use change. Extensive regions of high CH4 and N2O emissions are mainly attributed to agricultural activities and are found in Belgium, the Netherlands and the southern UK. We further analyzed interannual variability in the GHG budgets. The drought year of 2003 shows the highest net-emissions of CO2 and of all GHGs combined.
KW - carbon
KW - carbon dioxide
KW - Europe
KW - greenhouse gas
KW - methane
KW - nitrous oxide
U2 - 10.1029/2024GB008141
DO - 10.1029/2024GB008141
M3 - Article
AN - SCOPUS:85200917979
SN - 0886-6236
VL - 38
JO - Global Biogeochemical Cycles
JF - Global Biogeochemical Cycles
IS - 8
M1 - e2024GB008141
ER -