Top-down constraints on global N[subscript 2]O emissions at optimal resolution: application of a new dimension reduction technique

Top-down constraints on global N[subscript 2]O emissions at optimal resolution: application of a new dimension reduction technique

We present top-down constraints on global monthly N[subscript 2]O emissions for 2011 from a multi-inversion approach and an ensemble of surface observations. The inversions employ the GEOS-Chem adjoint and an array of aggregation strategies to test how well current observations can constrain the spa...

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Bibliographic Details
Main Authors: Wells, Kelley C. (Author), Millet, Dylan B. (Author), Bousserez, Nicolas (Author), Henze, Daven K. (Author), Griffis, Timothy J. (Author), Chaliyakunnel, Sreelekha (Author), Dlugokencky, Edward J. (Author), Saikawa, Eri (Author), Prinn, Ronald G. (Author), Young, Dickon (Author), Weiss, Ray F. (Author), Dutton, Geoff S. (Author), Elkins, James W. (Author), Krummel, Paul B. (Author), Langenfelds, Ray (Author), Steele, L. Paul (Author), O'Doherty, Simon (Author), Xiang, Gao (Contributor)
Other Authors: Massachusetts Institute of Technology. Joint Program on the Science & Policy of Global Change (Contributor)
Format: Article
Language:English
Published: Copernicus Publications, 2018-03-23T18:33:10Z.
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