环境科学
化石燃料
甲烷
加权
同位素分析
地球科学
稳定同位素比值
地质学
化学
海洋学
量子力学
医学
物理
放射科
有机化学
作者
Malika Menoud,Carina van der Veen,David Lowry,Julianne Fernandez,Semra Bakkaloglu,James L. France,Rebecca E. Fisher,Hossein Maazallahi,Mila Stanisavljević,Jarosław Nęcki,Katarina Vinković,Patryk Łakomiec,Janne Rinne,Piotr Korbeń,Martina Schmidt,Sara Defratyka,Camille Yver Kwok,Truls Andersen,Huilin Chen,Thomas Röckmann
标识
DOI:10.5194/essd-14-4365-2022
摘要
Abstract. Recent climate change mitigation strategies rely on the reduction of methane (CH4) emissions. Carbon and hydrogen isotope ratio (δ13CCH4 and δ2HCH4) measurements can be used to distinguish sources and thus to understand the CH4 budget better. The CH4 emission estimates by models are sensitive to the isotopic signatures assigned to each source category, so it is important to provide representative estimates of the different CH4 source isotopic signatures worldwide. We present new measurements of isotope signatures of various, mainly anthropogenic, CH4 sources in Europe, which represent a substantial contribution to the global dataset of source isotopic measurements from the literature, especially for δ2HCH4. They improve the definition of δ13CCH4 from waste sources, and demonstrate the use of δ2HCH4 for fossil fuel source attribution. We combined our new measurements with the last published database of CH4 isotopic signatures and with additional literature, and present a new global database. We found that microbial sources are generally well characterised. The large variability in fossil fuel isotopic compositions requires particular care in the choice of weighting criteria for the calculation of a representative global value. The global dataset could be further improved by measurements from African, South American, and Asian countries, and more measurements from pyrogenic sources. We improved the source characterisation of CH4 emissions using stable isotopes and associated uncertainty, to be used in top-down studies. We emphasise that an appropriate use of the database requires the analysis of specific parameters in relation to source type and the region of interest. The final version of the European CH4 isotope database coupled with a global inventory of fossil and non-fossil δ13CCH4 and δ2HCH4 source signature measurements is available at https://doi.org/10.24416/UU01-YP43IN (Menoud et al., 2022a).
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