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MEAD: An interdisciplinary study of the marine effects of atmospheric deposition in the Kattegat

descriptionPublicationkeyboard_double_arrow_right Article , Journal 01 Apr 2006 Croatia, United Kingdom, Italy, Italy Publisher:Elsevier BVJournal:Environmental Pollution, volume 140, pages 453-462 (issn: 0269-7491,

Authors: Spokes, L.; Jickells, T.; Weston, K.; Gustafsson, B. G.; Johnsson, M.; Liljebladh, B.; Conley, D.; +23 Authors

doi: 10.1016/j.envpol.2005.08.010

pmid: 16271430

handle: 20.500.14243/47698

MEAD: An interdisciplinary study of the marine effects of atmospheric deposition in the Kattegat

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Abstract

This paper summarises the results of the EU funded MEAD project, an interdisciplinary study of the effects of atmospheric nitrogen deposition on the Kattegat Sea between Denmark and Sweden. The study considers emissions of reactive nitrogen gases, their transport, transformations, deposition and effects on algal growth together with management options to reduce these effects. We conclude that atmospheric deposition is an important source of fixed nitrogen to the region particularly in summer, when nitrogen is the limiting nutrient for phytoplankton growth, and contributes to the overall eutrophication pressures in this region. However, we also conclude that it is unlikely that atmospheric deposition can, on its own, induce algal blooms in this region. A reduction of atmospheric nitrogen loads to this region will require strategies to reduce emissions of ammonia from local agriculture and Europe wide reductions in nitrous oxide emissions.

Countries

Croatia, United Kingdom, Italy, Italy

Related Organizations

University of Gothenburg
Sweden
National Research Council
Italy
Stockholm University
Sweden
University of East Anglia
United Kingdom
Institute of Atmospheric Sciences and Climate
Italy

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Keywords

550, Nitrogen, Denmark, Oceans and Seas, Nitrous Oxide, Biological Availability, 551, Ammonia, nitrogen; eutrophication; atmospheric inputs; Kattegat, Biomass, Sweden, Air Pollutants, Eukaryota, Agriculture, Eutrophication, Models, Theoretical, Atmospheric inputs, Phytoplankton, Seasons, Environmental Pollution, Kattegat, Environmental Monitoring

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