Variability of the marine boundary layer parameters over Baltic Sea sub-basins and their impact on nitrogen deposition

• Autorzy: Hongisto M.
• Języki publikacji: EN

Abstrakty

EN

The variability of the marine boundary layer parameters over the Baltic Sea and its sub-basins and their impact on the 6 h, monthly or seasonal deposition of oxidized nitrogen compounds was studied using results of the Hilatar chemistry-transport model, the 6th hour forecasts of the HIRLAM weather prediction model and meteorological measurement data. The monthly load of oxidized nitrogen was highest in the winters of 1993-1995 and 2000, and lowest in 1996-1997 and 2005; no trend was detected. Short-time correlations were low, but a significant correlation of the monthly deposition with the NAO index and ice-season was found over northern sub-basins.

Słowa kluczowe

EN

Baltic Sea; airborne load; reactive nitrogen; marine boundary layer parameters

• Wydawca: Polish Academy of Sciences, Institute of Oceanology ; Elsevier
• Czasopismo: Oceanologia
• Rocznik: 2011
• Tom: No. 53 (1-TI)
• Strony: 391--413
• Opis fizyczny: Bibliogr. 65 poz., wykr.

Twórcy

autor

Hongisto M.

• Finnish Meteorological Institute (FMI), Erik Palménin Aukio, Helsinki 00101, Finland,

Bibliografia

• 1.Ambaum M.H.P., Hoskins B. J., Stephenson D.B., 2001, Arctic Oscillation or North Atlantic Oscillation?, J. Climate, 14 (16), 3495-3507. doi:10.1175/1520-0442(2001)014<3495:AOONAO>2.0.CO;2
• 2.Archer C. L., Caldeira K., 2008, Historical trends in jet streams, Geophys. Res. Lett., 35 (8), L08803. doi:10.1029/2008GL033614
• 3.Asman W.A.H., Janssen A. J., 1987, A long range transport model for ammonia and ammonium for Europe, Atmos. Environ., 21 (10), 2099-2119. doi:10.1016/0004-6981(87)90344-1
• 4.BACC - BALTEX Assessment of Climate Change, 2008, Assessment of climate change for the Baltic Sea basin, The BACC Author Team, Reg. Clim. Stud. Ser., Springer, Berlin, Heidelberg, 474 pp.
• 5.Bott A., 1989, A positive definite advection scheme obtained by nonlinear renormalization of the advective fluxes, Mon. Weather Rev., 117 (5), 1006-1015. doi:10.1175/1520-0493(1989)117<1006:APDASO>2.0.CO;2
• 6.Chang T.Y., 1984, Rain and snow scavenging of HNO3 vapour in the atmosphere, Atmos. Environ., 18 (1), 191-197. doi:10.1016/0004-6981(84)90242-7
• 7.Chang T.Y., 1986, Estimates of nitrate formation in rain and snow systems, J. Geophys. Res., 91 (D2), 2805-2818. doi:10.1029/JD091iD02p02805
• 8.Eek F., 2000, Stormar i Sverige och North Atlantic Oscillation från 1920 till 1998, Earth Sci. Centre, Dept. Phys. Geogr., Göteborg, 27 pp.
• 9.Eerola K., 2000, The new operational HIRLAM at the Finnish Meteorological Institute, HIRLAM Newslett., 35, 36-43.
• 10.Eerola K., 2002, The operational HIRLAM at the Finnish Meteorological Institute, HIRLAM Newslett., 41, 19-24.
• 11.Eerola K., 2003, The operational HIRLAM at the Finnish Meteorological Institute, HIRLAM Newslett., 43, 20-27.
• 12.Eilola K., Stigebrandt A., 1999, On the seasonal nitrogen dynamics of the Baltic proper biogeochemical reactor, J. Mar. Res., 57 (4), 693-713. doi:10.1357/002224099321549648
• 13.Elmgren R., Larsson U., 2001, Nitrogen and the Baltic Sea. Managing nitrogen in relation to phosphorus, [in:] Optimizing nitrogen management in food and energy production and environmental protection, J. Galloway et al. (ed.), Proc. 2nd Int. Nitrogen Conf. Policy, Contrib. Papers, The Scientific World, 1 (S2), 371-377.
• 14.Feistel R., Nausch G., Hagen E. (eds.), 2009, Water exchange between the Baltic Sea and the North Sea, and conditions in the Deep Basins, http://www.helcom.fi/BSAPassessment/ifs/ifs2009/enGB/WaterExchange/.
• 15.Galloway J.N., Cowling E.B., 2002, Reactive nitrogen and the world, 200 years of change, Ambio, 31 (2), 64-71. PMid:12078011
• 16.Galloway J.N., Dentener F. J., Capone D.G., Boyer E.W., Howarth R.W., Seitzinger S.P., Asner G.P., Cleveland C., Green P., Holland E., Karl D.M., Michaels A. F., Porter J.H., Townsend A., Vörösmarty C., 2004, Nitrogen cycles: past, present, future, Biogeochemistry, 70, 153-226. doi:10.1007/s10533-004-0370-0
• 17.Galloway J.N., Townsend A.R., Erisman J.W., Bekunda M., Cai Z., Freney J.R., Martinelli L.A., Seitzinger S.P., Sutton M.A., 2008, Transformation of the nitrogen cycle: Recent trends, questions, and potential solutions, Science, 320 (5878), 889-892. doi:10.1126/science.1136674 PMid:18487183
• 18.Gruber N., Galloway J.N., 2008. An Earth-system perspective of the global nitrogen cycle, Nature, 451 (7176), 293-296. doi:10.1038/nature06592 PMid:18202647
• 19.HELCOM, 2009a, Biodiversity in the Baltic Sea - An integrated thematic assessment on biodiversity and nature conservation in the Baltic Sea, Balt. Sea Environ. Proc. No. 116B, Helsinki Commiss., Helsinki.
• 20.HELCOM, 2009b, Eutrophication in the Baltic Sea. An integrated thematic assessment of the effects of nutrient enrichment in the Baltic Sea region, Balt. Sea Environ. Proc. No. 115B, Helsinki Commiss., Helsinki, 148 pp.
• 21.HELCOM, 2009c, HELCOM Indicator Fact Sheets for 2009, http://www.helcom.fi/BSAPassessment/ifs/ifs2009/enGB/cover/
• 22.HELCOM, 2010, Ecosystem health of the Baltic Sea 2003-2007. HELCOM initial holistic assessment, Balt. Sea Environ. Proc. No. 122, Helsinki Commiss., 63 pp.
• 23.Hesstvedt E., Hov Ř., Isaksen S.A., 1978, Quasi-steady-state approximations in air pollution modelling: Comparison of two numerical schemes for oxidant prediction, Int. J. Chem. Kinet., 10 (9), 971-994. doi:10.1002/kin.550100907
• 24.HIRLAM, 1990, HIRLAM forecast model level 1. On-line documentation manual, P. Kållberg (ed.), SMHI, S-60176, Norrköping, (June 1990).
• 25.HIRLAM, 2002, HIRLAM, a High Resolution Limited Area Model, Int. Project Description, http://www.knmi.nl/hirlam/, (October 2002).
• 26.Hongisto M., 2001, Air Quality during storm in August 2001: operative observation of long-range transport episodes, Magazine Finnish Air Pollution Prevention Society (FAPPS), Ilmansuojelu 4/2001, 19-26, Eiriprint, Jarkoskuva Oy, Helsinki, (in Finnish).
• 27.Hongisto M., 1998, Hilatar, a regional scale grid model for the transport of sulphur and nitrogen compounds, FMI Contributions No. 21, Yliopistopaino, Helsinki, 152 pp.
• 28.Hongisto M., 2003, Modelling of the transport of nitrogen and sulphur contaminants to the Baltic Sea Region, FMI Contributions No. 40, Helsinki, 188 pp.
• 29.Hongisto M., Joffre S., 2005, 6-year simulations of dispersion of acid contaminants over Fennoscandia and Baltic Sea area, Boreal Environ. Res., 10 (1), 1-17.
• 30.Hongisto M., Sofiev M., Joffre S., 2003, Hilatar, a limited area simulation model for acid contaminants, Part II. Long-term simulations results, Atmos. Environ., 37 (11), 1549-1560. doi:10.1016/S1352-2310(02)01046-4
• 31.Horel J.D.,Wallace J.M., 1981, Planetary-scale atmospheric phenomena associated with the Southern Oscillation, Mon. Weather Rev., 109, 813-829. doi:10.1175/1520-0493(1981)109<0813:PSAPAW>2.0.CO;2
• 32.IPCC, 2007, Climate change 2007: The physical science basis, IPCC Fourth Assessment Rep. (AR4), http://www.ipcc.ch.
• 33.Iversen T., Saltbones J., Sandnes H., Eliassen A., Hov Ř., 1989, Airborne transboundary transport of sulphur and nitrogen over Europe - Model descriptions and calculations, EMEP MSC-W Rep. 2/89.DNMI, Oslo.
• 34.Jalkanen J-P., Stipa T., 2009, Emission from the Baltic shipping in 2008, HELCOM Indicator Fact Sheets 2009, Online, http://www.helcom.fi/BSAPassessment/ifs/ifs2010/enGB/ShipEmissions/.
• 35.Jonsen J.E., Berge E., 1995. Some preliminary results on transport and deposition of nitrogen compounds by use of the Multilayer Eulerian Model, EMEP/MSCW, Note 4/95, 25 pp.
• 36.Kållberg P., 1992, HIRLAM, SMHIés nya prognosmodell, Polarfront, 19 (74), 4-13.
• 37.Källan E. (ed.), 1996, HIRLAM documentation manual, System 2.5, June 1996, 184 p. + App.
• 38.Krishnamurthy A., Moore J.K., Zender C. S., Luo C., 2007, Effects of atmospheric inorganic nitrogen deposition on ocean biogeochemistry, J. Geophys. Res., 112, G02019. doi:10.1029/2006JG000334
• 39.Lindfors V., Joffre S.M., Damski J., 1991, Determination of the wet and dry deposition of sulphur and nitrogen compounds over the Baltic Sea using actual meteorological data, FMI Contributions No. 4.
• 40.Lindfors V., Joffre S.M., Damski J., 1993, Meteorological variability of the wet and dry deposition of sulphur and nitrogen compounds over the Baltic Sea, Water Air Soil Poll., 66, 1-28. doi:10.1007/BF00477058
• 41.Matson P., Lohse K.A., Hall S. J., 2002, The globalization of nitrogen deposition: Consequences for terrestrial ecosystems, Ambio, 31 (2), 113-119. PMidPMid:12077999
• 42.NAO, 2011, Tim Osborn: North Atlantic Oscillation index data, http://www.cru.uea.ac.uk/~timo/datapages/naoi.htm and for the last two months: ftp://ftp.cpc.ncep.noaa.gov/cwlinks/norm.daily.noa.index.b500101.current.ascii.
• 43.Nehring D., Matthäus W., Lass H-U., Nausch G., Nagel K., 1995, The Baltic Sea 1994 - Consequences of the hot summer and inflow events, Ocean Dynam., 47 (2), 131-144. doi:10.1007/BF02732015
• 44.Niskanen T., Vainio J., Eriksson P., Heiler I., 2009, Maximum extent of the Baltic sea ice recalculated for the period 1971-2008, Rep. Ser. Geophys. 0355-8630; No. 61, 164-167.
• 45.NOAA, 2010, Arctic Oscillation index, http://www.cpc.noaa.gov/products/precip/CWlink/dailyaoindex/month.ao.gif.
• 46.Olsson B., 2002, Stormar längs Sveriges västkust 1919-2000, Earth Sci. Centre, Dept. Phys. Geogr., Göteborg, 31 pp.
• 47.Plate E., 2000, Variabilität der Zusammensetzung anorganischer Aerosole - insbesondere der reaktiven Stickstoffverbindungen - in küstennahen Gebieten der Nordsee und Ostsee, Dissertation zur Erlangung des Doktorgrades des Fachbereichs Chemie der Universität Hamburg, Schriftenreihe Angewandte Analytik, Institut für Anorganische und Angewandte Analytik Nr 37, Univ. Hamburg, 215 pp.
• 48.Rönnberg C., 2001, Effects and consequences of eutrophication in the Baltic Sea. Specific patterns in different regions, Licenciate thesis, Dept. Biology, Environ. Marine Biol., åbo Akad. Univ., åbo, 132 pp. + App.
• 49.Rönnberg C., 2005, Eutrophication of the Baltic Sea: from area-specific biological effects to interdisciplinary consequences, Environ. Marine Biol., Dept. Biology, åbo Akad. Univ., åbo, 166 pp.
• 50.Schmeltzer N., Seinä A., Lundqvist J-E., Sztobryn M., 2008, Ice, [in:] State and evolution of the Baltic Sea, 1952-2005: A detailed 50-year survey of meteorology and climate, R. Feistel, G. Nausch & N. Wasmund, Phys. Chem. Biol. Mar. Environ., John Wiley & Sons Inc., New Jersey, 199-240.
• 51.Schulz M., Ferm M., Hongisto M., Jylhä K., de Leeuw G., Marks R., Nadstazik A., Plate E., Tamm S., Sopauskiene D., Ulevicus V., 1999, Atmospheric nitrogen input to the Baltic Sea, Proc. 3rd BASYS Ann. Sci. Conf., IOW Warnemünde, 20-22 Sept. 1999, Zuelicke C. (ed.), 60-67.
• 52.Scott B.C., 1982, Theoretical estimates of the scavenging coefficient for soluble aerosol particles as a function of precipitation type, rate and altitude, Atmos. Environ., 16 (7), 1753-1762. doi:10.1016/0004-6981(82)90268-2
• 53.Simmonds I., Burke C., Keay K., 2008, Arctic climate change as manifest in cyclone behavior, J. Climate, 21, 5777-5796. doi:10.1175/2008JCLI2366.1
• 54.Simmonds I., Keay K., 2009, Extraordinary September Arctic sea ice reductions and their relationship with storm behaviour over 1979-2008, Geophys. Res. Lett., 36, L19715. doi:10.1029/2009GL039810
• 55.Stipa T., Jalkanen J-P., Hongisto M., Kalli J., Brink A., 2007, Emissions of NOx from Baltic shipping and first estimates of their effects on air quality and eutrophication of the Baltic Sea, ISBN:978-951-53-3028-4, ShipNOEm and ShipNODep project, ShipNODeff programme, 33 pp.
• 56.Thomas H., Pempkowiak J., Wulff F., Nagel K., 2003, Autotrophy, nitrogen accumulation and nitrogen limitation in the Baltic Sea: A paradox or a buffer for eutrophication?, Geophys. Res. Lett., 30 (21), 2130. doi:10.1029/2003GL017937
• 57.Thompson D.W. J., Wallace J.M., 1998, The arctic oscillation signature in the wintertime geopotential height and temperature fields, Geophys. Res. Lett.,25 (9), 1297-1300. doi:10.1029/98GL00950
• 58.Tuovinen J.-P., 1992, Turbulenttisen diffuusion K-teoriaan perustuva ilmansaasteiden leviämismalli, Teknillinen korkeakoulu, Teknillisen fysiikan koulutusohjelma. Diplomityö, (A dispersion model of air pollutants based on the K theory of turbulent diffusion), 109 pp.
• 59.Undén P., Järvinen H., Rodriguez E., Cats G., 2003, HIRLAM-5 Final Rep., 67 pp., [http://www.hirlam.org].
• 60.Undén et al., 2002, HIRLAM-5 scientific documentation, HIRLAM-5 project, SMHI, Norrköping, 144 pp.
• 61.UNECE, 2010, Hemispheric transport of air pollution 2010, Informal Document No. 10, Co-Chairs Task Force Hemisph. Transp. Air Pollut. ECE/EB.AIR/2010/10, (corrected).
• 62.Walker G.T., Bliss E.W., 1932, World weather. V, Mem. Roy. Meteorol. Soc., 4 (36), 53-84.
• 63.Wenig M., Spichtinger N., Stohl A., Held G., Beirle S., Wagner T., J¨ahne B., Platt U., 2003, Intercontinental transport of nitrogen oxide pollution plumes, Atmos. Chem. Phys., 3, 287-393. doi:10.5194/acp-3-387-2003
• 64.Zahn M., von Storch H. 2010, Decreased frequency of North Atlantic Polar lows associated with future climate warming, Nature, 467. doi:10.1038/nature09388 PMid:20844533
• 65.Zheng X., Fu C., Xu X., Yan X., Huang Y., Han S., Hu F., Chen G., 2002, The Asian nitrogen cycle case study, Ambio, 31 (2), 79-87. PMid:12078013