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Susann Haase University of Helsinki, Finland

The photochemical transformation of organic matter in sea ice and its impact on the functioning of the sea ice ecosystem. Susann Haase University of Helsinki, Finland. Supervisors: Anssi Vähätalo (University of Helsinki) Mats Granskog (Norsk Polar Institute in Tromsö).

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Susann Haase University of Helsinki, Finland

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  1. The photochemical transformation of organic matter in sea ice and its impact on the functioning of the sea ice ecosystem. Susann Haase University of Helsinki, Finland Supervisors: Anssi Vähätalo (University of Helsinki) Mats Granskog (Norsk Polar Institute in Tromsö)

  2. Susann Haase, University of Helsinki Field work on the Baltic Sea, February 2009, Santalla Sea Ice in the Baltic Sea DOM introduction Methods Results and plans

  3. Susann Haase, University of Helsinki Field work on Svalbard (Norway), March 2009 Sea Ice in the Baltic Sea DOM introduction Methods Petrenko and Whitworth (1999) Results and plans

  4. Susann Haase, University of Helsinki Biochemical cycles Sea Ice in the Baltic Sea DOM introduction SEA ICE Methods Results and plans Zepp et.al (2007)

  5. Susann Haase, University of Helsinki Chromophoric dissolved organic matter (CDOM): Sea Ice in the Baltic Sea • complex mixture of organic material - dissolved (< 0.45µm) - absorbing light - microbial – and photodegradation DOM introduction - heterotrophic food web In Sea Ice: What happens to DOM during the freezing process? Entraped or expelled?  Not much known about DOM in sea ice! Methods How much DOM is in the ice (abiotic condition)? What happens to the DOM in the ice during aging? Results and plans

  6. Susann Haase, University of Helsinki Behaviour of DOM during freeze fractionation Sea Ice in the Baltic Sea • CDOM: absorption spectra • Quantity of DOM • Quality (spectral slope) DOM introduction FDOM: fluorescent DOM 3-dimensional plots (EEMs) characteristic components Molecular size distribution (LC-SEC)  Quality of DOM Methods Results and plans

  7. Susann Haase, University of Helsinki Freeze fractionation in baltic sea ice Sea Ice in the Baltic Sea -4 tanks (360 liters, Gulf of Finland) -natural ice from coastal area (2007 + 2008)  salt and DOM is excluded from ice DOM introduction BUT: DOM less than salt • Size dependent separation • diffusion/drainage • accumulation Methods -Increasing effect with aging Results and plans Salt + particles + DOM

  8. Susann Haase, University of Helsinki Further plans Sea Ice in the Baltic Sea • Experiments with more chemical and • biological parameters • -Impact of ice cover on ecosystem • Correlation of DOM and pore size • Degradation by biological activity and UV-light DOM introduction Methods Thank you  Results and plans

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