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Opendata, web and dolomites

O3-SML SIGNED

Ozone dry deposition to the sea surface microlayer

Total Cost €

EC-Contrib. €

Partnership

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O3-SML project word cloud

Explore the words cloud of the O3-SML project. It provides you a very rough idea of what is the project "O3-SML" about.

quantification irreversibly gas material sml gases reactivity flux mechanistic atmospherically transcends ocean microlayer physics constitute interactions agenda security velocities translate predominantly estimates deposition acknowledged fundamental food chemical technically body tropospheric laboratory earth whilst atmosphere biogeochemical surface integrating details trace unknown chemistry probe organic models corresponding predicted untested marine oceans differences air oceanic physical limited incomplete engineering setting fluxes completely observations ozone interdisciplinary vary reactions influence dry experimental health reflecting iodide lost parameterisations expertise interacts climate public global boundaries nature atmospheric 70 world source science pis sea quality mechanisms conventional

Project "O3-SML" data sheet

The following table provides information about the project.

Coordinator	UNIVERSITY OF YORK Organization address address: HESLINGTON city: YORK NORTH YORKSHIRE postcode: YO10 5DD website: http://www.york.ac.uk contact info title: n.a. name: n.a. surname: n.a. function: n.a. email: n.a. telephone: n.a. fax: n.a.
Coordinator Country	United Kingdom [UK]
Total cost	2˙479˙602 €
EC max contribution	2˙479˙602 € (100%)
Programme	1. H2020-EU.1.1. (EXCELLENT SCIENCE - European Research Council (ERC))
Code Call	ERC-2018-ADG
Funding Scheme	ERC-ADG
Starting year	2019
Duration (year-month-day)	from 2019-10-01 to 2024-09-30

Partnership

Take a look of project's partnership.

#	participants	country	role	EC contrib. [€]
1	UNIVERSITY OF YORK UNIVERSITY OF YORK Organization address address: HESLINGTON city: YORK NORTH YORKSHIRE postcode: YO10 5DD website: http://www.york.ac.uk contact info title: n.a. name: n.a. surname: n.a. function: n.a. email: n.a. telephone: n.a. fax: n.a.	UK (YORK NORTH YORKSHIRE)	coordinator	2˙364˙087.00
2	PLYMOUTH MARINE LABORATORY LIMITED PLYMOUTH MARINE LABORATORY LIMITED Organization address address: PROSPECT PLACE WEST HOE city: PLYMOUTH postcode: PL1 3DH website: http://www.pml.ac.uk/ contact info title: n.a. name: n.a. surname: n.a. function: n.a. email: n.a. telephone: n.a. fax: n.a.	UK (PLYMOUTH)	participant	72˙765.00
3	UNIVERSITY OF LEEDS UNIVERSITY OF LEEDS Organization address address: WOODHOUSE LANE city: LEEDS postcode: LS2 9JT website: www.leeds.ac.uk contact info title: n.a. name: n.a. surname: n.a. function: n.a. email: n.a. telephone: n.a. fax: n.a.	UK (LEEDS)	participant	42˙750.00

Map

Project objective

Tropospheric ozone is a significant climate gas and has a major influence on air quality, public health, and food security. Ozone is lost to the Earth’s surface directly by “dry deposition”, which is an important loss process for this gas. Since the ocean represents 70% of the surface, uncertainties in the dry deposition to the “sea surface microlayer” (SML) of the ocean translate into large differences in the predicted global ocean dry deposition flux. There has been very limited experimental quantification of ozone deposition over the oceans, because making such measurements is technically very challenging, and estimates of oceanic ozone deposition velocities vary widely. The mechanistic details of the process are incomplete and parameterisations in models are untested against observations. This loss of ozone is acknowledged to be controlled predominantly by chemical reactions in the SML involving iodide and organic material, which not only determine how quickly ozone can be irreversibly taken up at the ocean surface, but may also constitute a source of trace gases to the marine atmosphere. Whilst there is a growing body of work on ozone interactions with oceanic iodide, the nature and reactivity of the organic material in the SML which interacts with ozone is completely unknown. This project will probe both the fundamental mechanisms on and in the SML involved in the loss of ozone and production of atmospherically important trace gases and, in a highly novel and agenda-setting approach, apply this mechanistic information to field observations of oceanic ozone fluxes and the corresponding biogeochemical properties of the SML. This highly interdisciplinary study involves aspects of physical chemistry, atmospheric chemistry, ocean chemistry and physics, and engineering. It transcends conventional boundaries by integrating across atmospheric and ocean science, reflecting the PIs world-leading expertise in field and laboratory science in these fields.

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