Details of Award
NERC Reference : NE/D006546/1
Transformations, volatilisation and speciation of organic and inorganic iodine in the marine environment
Grant Award
- Principal Investigator:
- Professor LJ Carpenter, Scottish Association For Marine Science, Dunstaffnage Marine Laboratory
- Co-Investigator:
- Professor FC Kuepper, University of Aberdeen, Oceanlab
- Science Area:
- Marine
- Atmospheric
- Overall Classification:
- Atmospheric
- ENRIs:
- Global Change
- Science Topics:
- Tropospheric Processes
- Ocean - Atmosphere Interact.
- Abstract:
- This project aims to further understanding of the photochemical transformations and chemical speciation of organic and inorganic iodine in the marine environment, and in particular, the relative roles of I2 and iodocarbons as iodine atom sources in coastal and open ocean environments. Expanding on previous work in our laboratories, we aim first to quantify the flux of I2 and new particles produced from Laminaria kelp and other European macrophytes under varying conditions of O3 and other forms of oxidative stress. This will provide information on the nature and controlling processes of the I2/particle production phenomenon previously observed at Mace Head Ireland, and also will help us to understand how widespread these processes are. Whilst it is now clear that iodine has an important impact on atmospheric chemistry on a regional basis, the global impact is as yet unknown. Current atmospheric models certainly assume oceanic iodocarbons to be the dominant source of iodine to the atmosphere. However, in coastal locations recent work has shown that molecular iodine (I2) can provide up to a 1000 x higher iodine atom flux than that from iodocarbons. The fact that coastal IO and OIO concentrations are not significantly greater than those measured in air representative of the open ocean suggests that iodocarbons may not be the dominant source in remote air, as has been previously assumed. The possibility of direct volatilisation of I2 from the seawater surface via reaction of the atmospheric O3 with surface I- was first proposed decades ago. Yet, whether this mechanism actually results in significant I2 production to air from the open ocean is still unknown. We aim to conduct experiments to elucidate the potential for both I2 and organoiodine release from the open ocean following ozone uptake. The chemistry of inorganic and organic iodine in seawater is closely linked via both the reaction of I2/HOI with DOM to form dissolved organic iodine (DOI), and the photolysis of DOI to I-. Any such DOI to I- conversions which occur on rapid timescales may enhance the concentration of I- in the top few m of the surface ocean, over and above the surface ocean concentrations of I- used in atmospheric models to determine the deposition velocity of O3. Our work will determine whether photolysis of highly abundant non-volatile DOI and less abundant VIOC leads to elevated surface-layer iodide and thus enhances dry deposition of O3 to the ocean surface. The total concentration of iodine in seawater is around 0.45mM, predominantly in the form of iodate, iodide and DOI. Despite the fact that DOI can comprise the major form of dissolved iodine in seawater, there is no published record of the main chemical forms of DOI present in seawater. Recent focus in marine aerosol research has shown that water-soluble organics, mainly of biogenic origin, can comprise up to 20% of aerosol mass during summer (O-Dowd et al., 2004). Given that many algal species contain and produce significant quantities of halides during their metabolism, it is reasonable to suggest that dissolved organic halides, including DOI, may be present in marine aerosol. Here we will characterise the main forms of DOI using LC-MS(MS).
- Period of Award:
- 19 Oct 2006 - 18 Oct 2009
- Value:
- £15,298 Split Award
Authorised funds only
- NERC Reference:
- NE/D006546/1
- Grant Stage:
- Completed
- Scheme:
- Directed Pre FEC
- Grant Status:
- Closed
- Programme:
- SOLAS
This grant award has a total value of £15,298
FDAB - Financial Details (Award breakdown by headings)
Total - Staff | Total - T&S | Total - Other Costs | Total - Indirect Costs |
---|---|---|---|
£6,194 | £4,652 | £1,604 | £2,849 |
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