TY - JOUR
KW - Agriculture
KW - Natural gas
KW - Greenhouse gas (GHG)
KW - UNFCCC
KW - Petroleum
KW - Coal
KW - Waste
AU - Joannes D Maasakkers
AU - Erine E McDuffie
AU - Melissa P Sulprizio
AU - Candice Chen
AU - Maggie Schultz
AU - Lily Brunelle
AU - Ryan Thrush
AU - John Steller
AU - Christopher Sherry
AU - Daniel J Jacob
AU - Seongeun Jeong
AU - Bill Irving
AU - Melissa Weitz
AB - Reductions in methane emissions are an important factor in reaching collective climate goals, such as limiting global mean
warming to below 2 °C.1,2 Inventories of greenhouse gas (GHG) emissions, including methane, are key to supporting and
tracking these goals by, for example, supporting the develop-ment and tracking of domestic mitigation policies,3 Nationally
Determined Contributions, and informing the Paris Agreement’s Global Stocktake.1 Under the 1992 United Nations Framework Convention on Climate Change (UNFCCC),4 Parties are required to report inventories of anthropogenic GHG emissions and sinks using internationally agreed-upon methodological guidance from the Intergovernmental Panel on Climate Change (IPCC).5,6 The quality of GHG inventory estimates is dependent on the underlying emission mechanisms and the robustness of methods and data used. In some cases, particularly for some methane sources, limited or uncertain underlying data can result in large uncertainties.6 As described in the 2019 Refinements to the IPCC GHG Guidelines,6 estimates can be compared to emissions derived from independent atmospheric observations, as a part of a broader strategy to evaluate and improve inventories. Comparisons with observations can provide information to identify key areas for refinement, particularly for methane, as emissions are largely from fugitive and biological sources, which can be more challenging to quantify than other GHG sources. Here, we present the first time series of gridded U.S. anthropogenic methane emissions, consistent with national U.S. UNFCCC
reporting, to facilitate these observation-based comparisons.
BT - Environmental Science & Technology
DA - 10/2023
DO - 10.1021/acs.est.3c0513810.1021/acs.est.3c05138.s001
IS - 43
LA - eng
N2 - Reductions in methane emissions are an important factor in reaching collective climate goals, such as limiting global mean
warming to below 2 °C.1,2 Inventories of greenhouse gas (GHG) emissions, including methane, are key to supporting and
tracking these goals by, for example, supporting the develop-ment and tracking of domestic mitigation policies,3 Nationally
Determined Contributions, and informing the Paris Agreement’s Global Stocktake.1 Under the 1992 United Nations Framework Convention on Climate Change (UNFCCC),4 Parties are required to report inventories of anthropogenic GHG emissions and sinks using internationally agreed-upon methodological guidance from the Intergovernmental Panel on Climate Change (IPCC).5,6 The quality of GHG inventory estimates is dependent on the underlying emission mechanisms and the robustness of methods and data used. In some cases, particularly for some methane sources, limited or uncertain underlying data can result in large uncertainties.6 As described in the 2019 Refinements to the IPCC GHG Guidelines,6 estimates can be compared to emissions derived from independent atmospheric observations, as a part of a broader strategy to evaluate and improve inventories. Comparisons with observations can provide information to identify key areas for refinement, particularly for methane, as emissions are largely from fugitive and biological sources, which can be more challenging to quantify than other GHG sources. Here, we present the first time series of gridded U.S. anthropogenic methane emissions, consistent with national U.S. UNFCCC
reporting, to facilitate these observation-based comparisons.
PY - 2023
SP - 16276
EP - 16288
ST - Environ. Sci. Technol.
T2 - Environmental Science & Technology
TI - A Gridded Inventory of Annual 2012–2018 U.S. Anthropogenic Methane Emissions
UR - https://pubs.acs.org/doi/10.1021/acs.est.3c05138
VL - 57
SN - 0013-936X
ER -