Lake Constance is one of Europe's largest oligotrophic lakes and provides a water source for more than 4.5 million people in Germany and Switzerland. We present here a 12 month study on iodine concentrations, speciation and fluxes to and from the lake to gain a quantitative understanding of the limnic iodine cycle. Monthly water samples were obtained from all major tributaries (14) and the outflow to construct a mass-balance model. Sediment traps were also deployed in the lake for two years at two different stations. Total soluble iodine (TSI) in aqueous samples were analysed by ICP-MS and speciation (iodide, iodate and soluble organically bound iodine, SOT) by ion chromatography-ICP-MS. Iodine concentrations in the Alpine tributaries (1-2 mu g l(-1)) decreased over the summer months due to increasing proportions of snow and glacial melt water from the Alps, while iodine levels in the lowland rivers (similar to 2-10 mu g l(-1)) increased over the summer. Deposition of TS1 to the catchment (16,340 kg I yr(-1)) was similar to the TSI out-flux by rivers (16,000 kg I yr(-1)). By also including the particulate riverine iodine flux out of the catchment (similar to 12,350 kg I yr(-1)) it is shown that the catchment is a net source of iodine, with the highest particulate fluxes coming from the Alpine rivers: The total TSI flux to the lake was 16,770 kg I yr(-1), the largest proportion coming from the Alpenrhein (43%), followed by the Schussen (8%) and Bregenzer Ach (7.7%). Overall the mass-balance for TSI in the lake was negative, with more iodine flowing out of the lake than in (-2050 kg I yr(-1); 12% of TSI in-flux). To maintain mass-balance, 8.8 mu g I m(-2) d(-1) from the Obersee and 23 mu g I m(-2) d(-1) from the Untersee must be released from the sediments into the water column. Thus, in comparison with the total iodine flux to the sediments measured by the sediment traps (4762-8075 kg I yr(-1)), up to 39% of the deposited iodine may be mobilised back into the lake. SOI was the dominant iodine fraction entering the lake, with a total flux of 10,290 kg I yr(-1) (64% of TSI input), followed by iodate (3120 kg I yr(-1)) and iodide (2760 kg I yr(-1)). Net formation of SOI from iodide and iodate was also noted within the lake, with an estimated production of 6560 kg I yr(-1), suggesting a strong role for biology in iodine cycling. In conclusion, organically bound iodine was the dominant iodine species in aqueous and solid phases in Lake Constance, despite low DOC concentrations (<2 mg l(-1)), and thus is expected to play an important role in iodine cycling in most freshwater environments.

• 出版日期2010-6-1