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Completed HORIZON European Commission

TrendS and Uncertainties in Mercury (Hg) Atmospheric Chemistry


Funder European Commission
Recipient Organization Agencia Estatal Consejo Superior de Investigaciones Cientificas
Country Spain
Start Date Jan 16, 2024
End Date Jan 15, 2026
Duration 730 days
Number of Grantees 2
Roles Coordinator; Associated Partner
Data Source European Commission
Grant ID 101103544
Grant Description

Anthropogenic emissions of the toxic heavy metal mercury (Hg) threaten human health and ecosystems.

The elemental form of emitted gaseous mercury, Hg(0), can be transported globally in the atmosphere due to its long lifetime of 46 months, but upon oxidation it forms soluble divalent mercury, Hg(II), which is rained out within days.

However, there are many uncertainties associated with atmospheric Hg chemistry, leading to uncertain predictions of its fate and ecosystem impacts.

Additionally, it is unknown how Hg cycling has been affected by recent, global change-induced trends in atmospheric oxidants (e.g., ozone and halogens).

To address these knowledge gaps, the interdisciplinary SUMAC project will train the experienced researcher (ER) to integrate the latest knowledge from laboratory kinetics, computational and isotope chemistry, and field measurements into a global atmospheric Hg model, GEOS-Chem.

By applying statistical methods from the field of global sensitivity analysis, the ER will identify the key chemical reaction rates that contribute the most to the uncertainty in the atmospheric Hg lifetime.

Using Bayesian inference methods, the ER will develop constraints from field measurements for these reaction rates, establishing a new chemical mechanism for atmospheric Hg models.

With the refined Hg chemical mechanism, the ER will conduct historical and future simulations to evaluate temporal trends in the Hg chemical lifetime and resultant impacts on Hg dispersion and deposition.

By being the first study to quantify the influence of atmospheric chemistry on observed Hg trends, SUMAC will support the effectiveness evaluation of the Minamata Convention on Mercury, an international treaty aimed at reducing Hg emissions.

Aside from the breakthrough research outcomes, SUMAC will strengthen the capacity of Hg modelling within Europe through the ERs training activities, knowledge transfer to host institutions, open-access model development, and outreach.

All Grantees

Agencia Estatal Consejo Superior de Investigaciones Cientificas; Centre National de la Recherche Scientifique CNRS

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