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Atmospheric Nitrogen input into the North Sea: inorganic and organic nutrient fluxes
www.belspo.be/belspo/fedra/proj.asp?l=en&COD=EV/39

Dutch title: Atmosferische stikstofaanvoer naar de Noordzee: onorganische en organische nutriënten
Parent project: Research action SPSD-II: Second scientific support plan for a sustainable development policy, more
Funder identifier: EV/39 (Other contract id)
Period: December 2003 till April 2006
Status: Completed

Thesaurus terms Atmospheric composition; Coastal waters; Eutrophication; Nitrogen; Nutrients (mineral)
Geographical term: ANE, North Sea, Southern Bight [Marine Regions]
 Institutes | Publications 

Institutes (2) Top | Publications 

Abstract
  • Context

    The North Sea is threatened by eutrophication. Excess supply of nutrients, especially nitrogen compounds, causes proliferation of algae, leading to pernicious oxygen depletion. The nitrogen supply is not only due to rivers, but to the atmosphere as well. Especially in summer, when nutrients are scarce and the river supply is reduced, the atmospheric contribution can become predominant. The relevant atmospheric nitrogen is emitted as nitrogen oxides (by traffic and industry) and as ammonia (by agriculture). Organic nitrogen compounds might be important but their deposition fluxes are unknown.
    Measurements of the concentrations of the various inorganic and organic nitrogen components and of their deposition, with rain and in the dry phase, will allow evaluating the contribution of the atmosphere to eutrophication processes, using adequate mathematical models.

  • Project description

    • Objectives

      The input of nutrients, in particular the ones containing nitrogen, causes a proliferation of harmful algal blooms and other eutrophication phenomena, affecting fisheries and tourism. The contribution of atmospheric input to coastal eutrophication triggers increasing interest but is not well characterized yet. Specifically, the description of atmospheric fluxes in terms of inorganic and organic nitrogen and their distribution between the gaseous and particulate phases have not been examined systematically, apart from a few studies concerning the Baltic Sea and the seas around Japan. This project aims at the first comprehensive identification and quantification of the individual inorganic and organic compounds that contribute significantly to the nitrogen loading of the air above the Southern North Sea, as a function of the season and wind direction.

    • Methodology

      The samplings will take place at a short distance from the beach, at a roof location between Den Haan and Wenduine, without any local pollution sources. Additional sample collections will possibly be carried out on board the R/V Belgica and Zeeleeuw. The gas phase is sampled with special denuders; aerosols are taken with filters in a high volume setup and with impactors that allow size differentiation, and rainwater is collected with an automated unit. The classical inorganic analyses (with ion chromatography and electron microprobe analysis) will be complemented with new methodologies to be elaborated for the characterization of the organic components contributing to the nitrogen nutrient fluxes.

      This combination of frontier methods will allow a yet unseen degree of speciation to be achieved. In contrast to the inorganic analysis, the characterization of organic nutrients is practically a blank field. Extensive chemical pre-separation in combination with powerful chromatographic methods and highly specific detection (“electron capture” and mass spectrometry detection) will be used to achieve the first inventory of the organic nitrogen nutrients in the gas phase and aerosol. The calculation of the “wet” deposition flux (via the rain water) is rather trivial; for the dry deposition of particles, existing models will be applied that predict the deposition velocity near the sea surface as a function of the particle size; for the dry deposition of gases, existing models will also be applied. The obtained atmospheric fluxes will be compared with the supply of nitrates via the rivers, to evaluate their relative importance, for different seasons and different meteorological conditions.

Publications (2) Top | Institutes 
  • Van Grieken, R.; Bencs, L.; Krata, A.; Horemans, B.; Buczynska, A.J.; Dirtu, A.; Van Meel, K.; Godoi, A.F.L.; Godoi, R.H.M.; Favoreto, R.; Potgieter-Vermaak, S.; Wuyts, R.; Van Loock, J.; Van Vaeck, L. (2007). Atmospheric nitrogen input into the North Sea: inorganic and organic nutrient fluxes. Final report EV/39. Belgian Science Policy: Brussel. 176 pp., more
  • Van Grieken, R.; Bencs, L.; Krata, A.; Horemans, B.; Buczynska, A.J.; Dirtu, A.; Van Meel, K.; Godoi, A.F.L.; Godoi, R.H.M.; Favoreto, R.; Potgieter-Vermaak, S.; Wuyts, R.; Van Loock, J.; Van Vaeck, L. (2007). Atmospheric nitrogen input into the North Sea: inorganic and organic nutrient fluxes. Summary report for the OSTC, EV/06/39A contract. [S.n.]: Antwerpen. 48 pp., more

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