Top-down constraints on atmospheric mercury emissions and implications for global biogeochemical cycling

Top-down constraints on atmospheric mercury emissions and implications for global biogeochemical cycling

We perform global-scale inverse modeling to constrain present-day atmospheric mercury emissions and relevant physiochemical parameters in the GEOS-Chem chemical transport model. We use Bayesian inversion methods combining simulations with GEOS-Chem and ground-based Hg[superscript 0] observations fro...

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Main Authors: Soerensen, A. L. (Author), Angot, H. (Author), Artz, R. (Author), Brooks, S. (Author), Brunke, E.-G (Author), Conley, G. (Author), Dommergue, A. (Author), Ebinghaus, R. (Author), Holsen, T. M. (Author), Jaffe, D. A. (Author), Kang, S. (Author), Kelley, P. (Author), Luke, W. T. (Author), Magand, O. (Author), Marumoto, K. (Author), Pfaffhuber, K. A. (Author), Ren, X. (Author), Sheu, G.-R (Author), Slemr, F. (Author), Warneke, T. (Author), Weigelt, A. (Author), Weiss-Penzias, P. (Author), Wip, D. C. (Author), Zhang, Q. (Author), Song, Shaojie (Contributor), Selin, Noelle Eckley (Contributor)
Other Authors: Massachusetts Institute of Technology. Department of Earth, Atmospheric, and Planetary Sciences (Contributor), Massachusetts Institute of Technology. Engineering Systems Division (Contributor)
Format: Article
Language:English
Published: Copernicus GmbH, 2015-08-19T17:34:01Z.
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