Global sea-to-air flux climatology for bromoform, dibromomethane and methyl iodide.

Ziska, Franziska, Quack, Birgit, Abrahamsson, K., Archer, S. D., Atlas, E., Bell, T., Butler, J. H., Carpenter, L. J., Jones, C. E., Harris, N. R. P., Hepach, Helmke , Heumann, K. G., Hughes, C., Kuss, J., Krüger, Kirstin, Liss, P., Moore, R. M., Orlikowska, A., Raimund, S., Reeves, C. E., Reifenhäuser, W., Robinson, A. D., Schall, C., Tanhua, Toste , Tegtmeier, Susann, Turner, S., Wang, L., Wallace, Douglas W.R., Williams, J., Yamamoto, H., Yvon-Lewis, S. and Yokouchi, Y. (2013) Global sea-to-air flux climatology for bromoform, dibromomethane and methyl iodide. Open Access Atmospheric Chemistry and Physics, 13 (2). pp. 8915-8934. DOI 10.5194/acp-13-8915-2013.

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Supplementary data:

Abstract

Volatile halogenated organic compounds containing bromine and iodine, which are naturally produced in the ocean, are involved in ozone depletion in both the troposphere and stratosphere. Three prominent compounds transporting large amounts of marine halogens into the atmosphere are bromoform (CHBr3), dibromomethane (CH2Br2) and methyl iodide (CH3I). The input of marine halogens to the stratosphere is based on observations and modeling studies using low resolution oceanic emission scenarios derived from top down approaches. In order to improve emission inventory estimates, we calculate data-based high resolution global sea-to-air flux estimates of these compounds from surface observations within the HalOcAt database (https://halocat.geomar.de/). Global maps of marine and atmospheric surface concentrations are derived from the data which are divided into coastal, shelf and open ocean regions. Considering physical and biogeochemical characteristics of ocean and atmosphere, the open ocean water and atmosphere data are classified into 21 regions. The available data are interpolated onto a 1° × 1° grid while missing grid values are interpolated with latitudinal and longitudinal dependent regression techniques reflecting the compounds' distributions. With the generated surface concentration climatologies for the ocean and atmosphere, global concentration gradients and sea-to-air fluxes are calculated. Based on these calculations we estimate a total global flux of 1.5/2.5 Gmol Br yr−1 for CHBr3, 0.78/0.98 Gmol Br yr−1 for CH2Br2 and 1.24/1.45 Gmol I yr−1 for CH3I (Robust Fit/Ordinary Least Square regression technique). Contrary to recent studies, negative fluxes occur in each sea-to-air flux climatology, mainly in the Arctic and Antarctic region. "Hot spots" for global polybromomethane emissions are located in the equatorial region, whereas methyl iodide emissions are enhanced in the subtropical gyre regions. Inter-annual and seasonal variation is contained within our calculations for all three compounds. Compared to earlier studies, our global fluxes are at the lower end of estimates, especially for bromoform. An underrepresentation of coastal emissions and of extreme events in our estimate might explain the mismatch between our bottom up emission estimate and top down approaches

Document Type: Article
Funder compliance: info:eu-repo/grantAgreement/EC/FP7/226224
Keywords: SOPRAN, CHBr3, CH3I, CH2Br2
Research affiliation: OceanRep > GEOMAR > FB2 Marine Biogeochemistry > FB2-CH Chemical Oceanography
OceanRep > GEOMAR > FB1 Ocean Circulation and Climate Dynamics > FB1-ME Maritime Meteorology
OceanRep > The Future Ocean - Cluster of Excellence
Refereed: Yes
Open Access Journal?: Yes
DOI etc.: 10.5194/acp-13-8915-2013
ISSN: 1680-7316
Projects: SHIVA, SOPRAN, TRANSBROM, SOLAS, COST, Future Ocean
Date Deposited: 11 Mar 2013 10:15
Last Modified: 23 May 2019 08:28
URI: http://oceanrep.geomar.de/id/eprint/20688

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