ReferencesDevelopment. http://ec.europa.eu/agriculture/stateaid/decisions/n84206_en.pdf.Feuchtmayr, H., Moran, R., Hatton, K., Connor,L., Heyes, T., Moss, B., Harvey, I. <strong>and</strong> Atk<strong>in</strong>son, D.(2009) Global warm<strong>in</strong>g <strong>and</strong> eutrophication: effectson water chemistry <strong>and</strong> autotrophic communities <strong>in</strong>experimental hypertrophic shallow lake mesocosms.Journal of Applied Ecology 46, 713–723. doi:10.1111/j.1365-2664.2009.01644.x.Feyen, L. <strong>and</strong> Dankers, R. (2009) Impact of globalwarm<strong>in</strong>g on streamflow drought <strong>in</strong> <strong>Europe</strong>.Journal of Geophysical Research 114, D17116.doi:10.1029/2008JD011438.Feyen, L., Dankers, R., Bódis, K., Salamon, P. <strong>and</strong>Barredo, J. I. (2011) Fluvial flood risk <strong>in</strong> <strong>Europe</strong> <strong>in</strong>present <strong>and</strong> future climates. Climatic Change 112(1),47–62. doi:10.1007/s10584-011-0339-7.Flörke, M., Wimmer, F., Laaser, C., Vidaurre, R.,Tröltzsch, J., Dworak, T., Mar<strong>in</strong>ova, N., Jaspers,F., Ludwig, F., Swart, R., Giupponi, C., Bosello, F.<strong>and</strong> Mysiak, J. (2011) <strong>Climate</strong> Adaptation – modell<strong>in</strong>gwater scenarios <strong>and</strong> sectoral <strong>impacts</strong>. F<strong>in</strong>al Report(Contract N° DG ENV.D.2/SER/2009/0034). Centerfor Environmental Systems Research, Universityof Kassel, Kassel, Germany. http://circa.europa.eu/Public/irc/env/wfd/library?l=/<strong>fr</strong>amework_directive/climate_adaptation/climwatadapt_report.FOEN (2011) Indicator Water temperature of surfacewaters. Federal Office for the Environment.http://www.bafu.adm<strong>in</strong>.ch/umwelt/<strong>in</strong>dikatoren/08605/08609/<strong>in</strong>dex.html?lang=en(accessed 31 August 2012).Fraser, A. I., Harrod, T. R. <strong>and</strong> Haygarth, P. M. (1999)The effect of ra<strong>in</strong>fall <strong>in</strong>tensity on soil erosion <strong>and</strong>particulate phosphorus transfer <strong>fr</strong>om arable soils.Water Science <strong>and</strong> Technology 39, 41–45. doi:10.1016/s0273-1223(99)00316-9.Futter, M. N., Butterfield, D., Cosby, B. J., Dillon,P. J., Wade, A. J. <strong>and</strong> Whitehead, P. G. (2007)Model<strong>in</strong>g the mechanisms that control <strong>in</strong>-streamdissolved organic carbon dynamics <strong>in</strong> upl<strong>and</strong> <strong>and</strong>forested catchments. Water Resources Research 43.doi:10.1029/2006WR004960.Futter, M. N., Helliwell, R. C., Hutch<strong>in</strong>s, M. <strong>and</strong>Aherne, J. (2009) Modell<strong>in</strong>g the effects of chang<strong>in</strong>gclimate <strong>and</strong> nitrogen deposition on nitrate dynamics<strong>in</strong> a Scottish mounta<strong>in</strong> catchment. Hydrology Research40, 153–166. doi:10.2166/nh.2009.073.García-Herrera, R., Paredes, D., Trigo, R. M., Trigo,I. F., Hernández, E., Barriopedro, D. <strong>and</strong> Mendes,M. A. (2007) The outst<strong>and</strong><strong>in</strong>g 2004/05 drought <strong>in</strong>the Iberian pen<strong>in</strong>sula: Associated atmosphericcirculation. Journal of Hydrometeorology 8, 483–498.doi:10.1175/JHM578.1.Generalitat de Catalunya (2010) Pla de l'Energia deCatalunya 2006–2015. Revisió 2009, 321. Generalitatde Catalunya — Departament d'Economia iF<strong>in</strong>ances. http://www20.gencat.cat/docs/icaen/08_Institut/Documents/pecat0615_rev2009.pdf.George, D. G. <strong>and</strong> Hurley, M. A. (2004) The <strong>in</strong>fluenceof sampl<strong>in</strong>g <strong>fr</strong>equency on the detection of long-term<strong>change</strong> <strong>in</strong> three lakes <strong>in</strong> the English Lake District.Aquatic Ecosystem Health & Management 7, 1–14.doi:10.1080/14634980490281164.George, G., Hurley, M. <strong>and</strong> Hewitt, D. (2007)The impact of climate <strong>change</strong> on the physicalcharacteristics of the larger lakes <strong>in</strong> the EnglishLake District. Freshwater Biology 52, 1 647–1 666.doi:10.1111/j.1365-2427.2007.01773.x.Görgen, K. <strong>and</strong> Beersma, J. (2010) Assessment ofclimate <strong>change</strong> <strong>impacts</strong> on discharge <strong>in</strong> the Rh<strong>in</strong>e RiverBas<strong>in</strong>: results of the Rhe<strong>in</strong>Blick2050 project (Report No.I-23). International Commission for the Hydrologyof the Rh<strong>in</strong>e Bas<strong>in</strong>, Lelystad. http://www.chr-khr.org/files/CHR_I-23.pdf.Hannaford, J. <strong>and</strong> Marsh, T. J. (2008) High‐flow <strong>and</strong>flood trends <strong>in</strong> a network of undisturbed catchments<strong>in</strong> the UK. International Journal of Climatology 28(10),1 325–1 338. doi:10.1002/joc.1643.Hari, R. E., Liv<strong>in</strong>gstone, D. M., Siber, R., Burkhardt-Holm, P. <strong>and</strong> Gutt<strong>in</strong>ger, H. (2006) Consequences ofclimatic <strong>change</strong> for water temperature <strong>and</strong> browntrout populations <strong>in</strong> Alp<strong>in</strong>e rivers <strong>and</strong> streams.Global Change Biology 12, 10–26. doi:10.1111/j.1365-2486.2005.001051.x.Hassall, C., Thompson, D. J., French, G. C. <strong>and</strong>Harvey, I. F. (2007) Historical <strong>change</strong>s <strong>in</strong> thephenology of British Odonata are related to climate.Global Change Biology 13(5), 933–941. doi:10.1111/j.1365-2486.2007.01318.x.Hickl<strong>in</strong>g, R., Roy, D. B., Hill, J. K. <strong>and</strong> Thomas, C.D. (2005) A northward shift of range marg<strong>in</strong>s <strong>in</strong>British Odonata. Global Change Biology 11, 502–506.doi:10.1111/j.1365-2486.2005.00904.x.Hisdal, H., Stahl, K., Tallaksen, L. M. <strong>and</strong> Demuth, S.(2001) Have streamflow droughts <strong>in</strong> <strong>Europe</strong> become272 <strong>Climate</strong> <strong>change</strong>, <strong>impacts</strong> <strong>and</strong> <strong>vulnerability</strong> <strong>in</strong> <strong>Europe</strong> 2012
Referencesmore severe or <strong>fr</strong>equent? International Journal ofClimatology 21(3), 317–333. doi:10.1002/joc.619.ICPR (2011) Study of Scenarios for the Discharge Regimeof the Rh<strong>in</strong>e (No. Report No. 188). InternationalCommission for the Protection of the Rh<strong>in</strong>e,Koblenz. http://www.iksr.org/fileadm<strong>in</strong>/user_upload/Dokumente_en/Reports/188_e.pdf.Inamdar, S. P., O'Leary, N., Mitchell, M. J. <strong>and</strong> Riley,J. T. (2006) The impact of storm events on soluteexports <strong>fr</strong>om a glaciated forested watershed <strong>in</strong>western New York, USA. Hydrological Processes 20,3 423–3 439. doi:10.1002/hyp.6141.<strong>in</strong>bo (2011) <strong>Climate</strong> Change: Trend of Southern<strong>Europe</strong>an dragonfly species. Research Institutefor Nature <strong>and</strong> Forest, Brussels. http://<strong>in</strong>dicatoren.milieu<strong>in</strong>fo.be/<strong>in</strong>dicatorenportal.cgi?lang=en&detail=404&id_structuur=25.Jackson, L. J., Lauridsen, T. L., Sondergaard, M.<strong>and</strong> Jeppesen, E. (2007) A comparison of shallowDanish <strong>and</strong> Canadian lakes <strong>and</strong> implications ofclimate <strong>change</strong>. Freshwater Biology 52, 1 782–1 792.doi:10.1111/j.1365-2427.2007.01809.x.Jöhnk, K. D., Huisman, J., Sharples, J., Sommeijer,B., Visser, P. M. <strong>and</strong> Stroom, J. M. (2008)Summer heatwaves promote blooms of harmfulcyanobacteria. Global Change Biology 14, 495–512.doi:10.1111/j.1365-2486.2007.01510.x.Keirle, R. <strong>and</strong> Hayes, C. (2007) A review ofcatchment management <strong>in</strong> the new context ofdr<strong>in</strong>k<strong>in</strong>g water safety plans. Water <strong>and</strong> EnvironmentJournal 21(3), 208–216. doi:10.1111/j.1747-6593.2007.00074.x.Kundzewicz, Z. W., Radziejewski, M. <strong>and</strong> Pínskwar,I. (2006) Precipitation extremes <strong>in</strong> the chang<strong>in</strong>gclimate of <strong>Europe</strong>. <strong>Climate</strong> Research 31, 51–58.doi:10.3354/cr031051.Lehner, B., Czisch, G. <strong>and</strong> Vassolo, S. (2005) Theimpact of global <strong>change</strong> on the hydropowerpotential of <strong>Europe</strong>: a model-based analysis. EnergyPolicy 33(7), 839–855. doi:10.1016/j.enpol.2003.10.018.Lehner, B., Döll, P., Alcamo, J., Henrichs, T. <strong>and</strong>Kaspar, F. (2006) Estimat<strong>in</strong>g the Impact of GlobalChange on Flood <strong>and</strong> Drought Risks <strong>in</strong> <strong>Europe</strong>: ACont<strong>in</strong>ental, Integrated Analysis. Climatic Change75(3), 273–299. doi:10.1007/s10584-006-6338-4.Leppäranta, M., Re<strong>in</strong>art, A., Erm, A., Arst, H.,Hussa<strong>in</strong>ov, M. <strong>and</strong> Sipelgas, L. (2003) Investigationof ice <strong>and</strong> water properties <strong>and</strong> under-ice light fields<strong>in</strong> <strong>fr</strong>esh <strong>and</strong> brackish water bodies. Nordic Hydrology34, 245–266. doi:10.2166/nh.2003.015.Liv<strong>in</strong>gstone, D. M. (1993) Lake Oxygenation —Application Of A One-Box Model With Ice Cover.Internationale Revue Der Gesamten Hydrobiologie 78,465–480. doi:10.1002/iroh.19930780402.Liv<strong>in</strong>gstone, D. M. (2003) Impact of secular climate<strong>change</strong> on the thermal structure of a large temperatecentral <strong>Europe</strong>an lake. Climatic Change 57, 205–225.doi:10.1023/a:1022119503144.Magnuson, J. J., Robertson, D. M., Benson, B. J.,Wynne, R. H., Liv<strong>in</strong>gstone, D. M., Arai, T., Assel, R.A., Barry, R. G., Card, V., Kuusisto, E., Gran<strong>in</strong>, N.G., Prowse, T. D., Stewart, K. M. <strong>and</strong> Vugl<strong>in</strong>ski, V. S.(2000) Historical Trends <strong>in</strong> Lake <strong>and</strong> River Ice Cover<strong>in</strong> the Northern Hemisphere. Science 289(5 485),1 743–1 746. doi:10.1126/science.289.5485.1743.Malmaeus, J. M., Blenckner, T., Markensten, H. <strong>and</strong>Persson, I. (2006) Lake phosphorus dynamics <strong>and</strong>climate warm<strong>in</strong>g: A mechanistic model approach.Ecological Modell<strong>in</strong>g 190, 1–14. doi:10.1016/j.ecolmodel.2005.03.017.Manca, M. M., Portogallo, M. <strong>and</strong> Brown, M.E. (2007) Shifts <strong>in</strong> phenology of Bythotrepheslongimanus <strong>and</strong> its modern success <strong>in</strong> LakeMaggiore as a result of <strong>change</strong>s <strong>in</strong> climate <strong>and</strong>trophy. Journal of Plankton Research 29, 515–525.doi:10.1093/plankt/fbm033.Melles, M., Brigham-Grette, J., Glushkova, O. Y.,M<strong>in</strong>yuk, P. S., Nowaczyk, N. R. <strong>and</strong> Hubberten, H.W. (2007) Sedimentary geochemistry of core PG1351<strong>fr</strong>om Lake El'gygytgyn — a sensitive record ofclimate variability <strong>in</strong> the East Siberian Arctic dur<strong>in</strong>gthe past three glacial-<strong>in</strong>terglacial cycles. Journal ofPaleolimnology 37, 89–104. doi:10.1007/s10933-006-9025-6.Milly, P. C. D., Dunne, K. A. <strong>and</strong> Vecchia, A. V. (2005)Global pattern of trends <strong>in</strong> streamflow <strong>and</strong> wateravailability <strong>in</strong> a chang<strong>in</strong>g climate. Nature 438(7 066),347–350. doi:10.1038/nature04312.Monteith, D. T., Stoddard, J. L., Evans, C. D., deWit, H. A., Forsius, M., Høgåsen, T., Wil<strong>and</strong>er, A.,Skjelkvåle, B. L., Jef<strong>fr</strong>ies, D. S., Vuorenmaa, J., Keller,B., Kopácek, J. <strong>and</strong> Vesely, J. (2007) Dissolved organiccarbon trends result<strong>in</strong>g <strong>fr</strong>om <strong>change</strong>s <strong>in</strong> atmosphericdeposition chemistry. Nature 450, 537–541.doi:10.1038/nature06316.<strong>Climate</strong> <strong>change</strong>, <strong>impacts</strong> <strong>and</strong> <strong>vulnerability</strong> <strong>in</strong> <strong>Europe</strong> 2012273
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EEA Report No 12/2012Climate change
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ContentsContentsAcknowledgements...
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ContentsMap 4.1 Change in the numbe
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ContentsList of boxesBox 1.1 The IP
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AcknowledgementsAblain, Gilles Larn
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AcknowledgementsComments from the E
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Executive summaryThe causes of the
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Technical summaryTable TS.1 Observe
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Vulnerability to climate changein f
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- Page 264 and 265: ReferencesIsaksen, K., Sollid, J. L
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- Page 272 and 273: ReferencesVermeer, M. and Rahmstorf
- Page 276 and 277: ReferencesMooij, W. M., Hulsmann, S
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- Page 288 and 289: ReferencesApplied Climatology 74, 4
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