甲烷
环境科学
温室气体
卫星
化石燃料
吨
大气科学
大气甲烷
甲烷排放
空间变异性
比例(比率)
甲烷气体
全球变暖
能源行业
天然气
网格单元
气象学
全球温度
气候学
可再生能源
网格
作者
Dylan Jervis,Marianne Girard,Jean-Philippe W. MacLean,David B. Marshall,Jason McKeever,Mathias Strupler,Antoine Ramier,Ewan Tarrant,David W. Young,Joannes D. Maasakkers,Ilse Aben,Tia R. Scarpelli
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2025-12-11
卷期号:390 (6778): 1151-1155
被引量:1
标识
DOI:10.1126/science.adv3183
摘要
Methane emissions from energy sector facilities (oil, gas, and coal) represent a substantial contribution to greenhouse gas emissions with substantial mitigation potential. We estimated global 2023 methane emissions from energy sector point sources using the high spatial resolution GHGSat satellite constellation. GHGSat detected 8.30 [Formula: see text] 0.24 million tonnes per year of methane emissions from 3114 emission sites. Detected oil and gas- and coal-emitting sites were found to be emitting 16 and 48% of the time, respectively, above GHGSat's detection limit without obvious continental variation. Compared with the Global Fuel Exploitation Inventory (GFEIv3) estimate, GHGSat's estimate comprises 12% of GFEIv3's total emissions, or 24% over GHGsat-observed locations, with good spatial correlation at the country scale but only weak spatial correlation at 0.2°-×-0.2° grid cell scale.
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