Climate Change and the European Water Dimension - Agri ...

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82. Riebesell, U., Zondervan, I., Rost, B., Tortell, P.D., Zeebe, R.E., and Morel, F.M.M. 2000. Reduced calcification of marine plankton in response to increased atmospheric CO2. Nature 407:364-367. 83. Rohde, J., and Winsor, P. 2003. On the influence of the freshwater supply on the Baltic Sea mean salinity. Tellus 55A: 455-456. 84. Rutgersson, A., Omstedt, A. and Räisänen, J. 2002. Net precipitation over the Baltic Sea during present and future climate conditions. Clim. Res., 22, 27-39. 85. Schrum, C. 2001. Regionalization of climate change for the North Sea and Baltic Sea. Clim. Res. 18: 31-37. 86. Schwing, F.B., and Mendelssohn, R. 1997. Increased coastal upwelling in the California current system. J. Geophys. Res. 102: 3421-3438. 87. Seitzinger, S.P., and Kroeze, C. 1998. Global distribution of nitrous oxide production and N inputs in freswater and coastal marine ecosystems. Global Biogeochem. Cycles 12: 93-113. 88. Seitzinger, S.P., and Sanders, R.W. 1999. Atmospheric inputs of dissolved organic nitrogen stimulate estuarine bacteria and phytoplankton. Limnol. Oceanogr. 44:721-730. 89. Siegismund, F., and Schrum, C. 2001. Decadal changes in the wind forcing over the North Sea. Clim. Res. 18: 39-45. 90. Skogen, M.D., Soiland, H., and Svendsen, E. 2004. Effects of changing nutrient loads to the North Sea. J. Mar. Syst. 46:23-38. 91. Smith, S.V., Swaney, D.P., Talaue-McManus, L., Bartley, J.D., Sandhei, P.T., McLaughlin, J., Dupra, V.C., Crossland, C.J., Buddemeier, R.W., Maxwell, B.A., and Wulff, F. 2003. Humans, Hydrology, and the distribution of inorganic nutrient loading to the ocean. BioScience 53 (3): 235-245. 92. Snyder, M.A., Sloan, L.C., Diffenbaugh, N.S., and Bell, J.L. 2003. Future climate change and upwelling in the California Current. Geophys. Res. Let. 30, 1823,doi:10.1029/2003GL017647. 93. Stebbing, A. R. D., Turk, S. M. T., Wheeler, A. and Clarke, K. R. 2002. Immigration of southern fish species to south-west England linked to warming of the North Atlantic (1960-2001). - Journal of the Marine Biological Association of the U. K. 82: 177-180. 94. Struyf, E., van Damme, S., and Meire, P. 2004. Possible effects of climate change on estuarine nutrient fluxes: a case study in the highly nutrified Schelde estuary (Belgium, The Netherlands). Estuarine, Coastal and Shelf Science. doi:10.1016/j.ecss.2004.03.004. 95. Sugimoto, N., Uno, I., Nishikawa, M., Shimizu, A., Matsui, I., Dong, X., Chen, Y., and Quan, H. 2003. Record heavy Asian dust in Beijing in 2002: observations and model analysis of recent events. Geophys. Res. Let. 30(12), 1640,doi:10.1029/2002GL016349. 96. Sundquist, E.T. 1985. geological perspective on carbon dioxide and the carbon cycle. In: E.T. Sundquist, W.S. Broecker. The carbon cycle and atmopsheric CO2: natural variations archean to present. Geophys. Monogr. Ser. Vol. 32. AGU, Washington, D.C. 97. Thomas, C. D. and Lennon, J. J. 1999. Birds extend their ranges northwards. - Nature 399: 213. 98. Thomas, H., Bozec, Y., Elkalay, K., and de Baar H.J.W. 2004. Enhanced open ocean storage of CO2 from shelf sea pumping. Science 304:1005-1008. 99. Thomas, H., and Schneider, B. 1999. The seasonal cycle of carbon dioxide in Baltic Sea surface waters. J. Mar. Syst. 22: 53-67. 100. Trigo, R.M., Pozo-Vasquez, D., Osborn, T.J., Castro-Diez, Y., Gamiz-Fortis, S., and Esteban-Parra, M.J. 2004. North Atlantic Oscillation influence on precipitation, river flow, and water resources in the Iberian Peninsula. Int. J. Climatol. 24: 925-944. 101. Tsimplis, M.N., and Baker, T.F. 2000. Sea level drop in the Mediterranean Sea: an indicator of deep water salinity and temperature changes ? Geophys. Res. Let. 27(12):1731-1734. 102. Tsimplis, M.N., and Rixen,M. 2002. Sea level in the Mediterranean Sea: the contribution of temperature and salinity changes. Geophys. Res. Let. 29(23), 2136, doi:10.1029/2002GL015870. 103. Tsunogai, S., Watanabe, S.,and Sato,T. 1999. Is there a “continetal shelf pump” for the absorption of atmospheric CO2? Tellus B51: 701-712. 104. Turner, R.E., and Rabalais, N.N. 1991. Changes in the Mississippi River water quality this century. Implications for coastal food webs. BioScience 41:140-148. 234
105. UNESCO 2003. The integrated strategic design plan for the coastal ocean observations module of the Global Ocean Observing System. GOOS Report # 125, IOC Information Doc. Ser. n o 1183. 106. Verheye, H.M. 2000. Decadal-scale trends across several marine trophic levels in the southern Benguela upwelling system off South Africa. Ambio 29: 30-34. 107. Vichi, M., May, W., and Navarra, A. 2003. Response of a complex ecosystem model of the northern Adriatic Sea to a regional climate change scenario. Clim. Res. 24: 141-158. 108. Warner, A. J. and Hays, G. C. 1994. Sampling by the Continuous Plankton Recorder survey. - Progress in Oceanography 34: 237-256. 109. Winsor, P., Rodhe, J., and Omstedt, A. 2001. Baltic Sea ocean climate: an analysis of 100yr of hydrographic data with focus on the freshwater budget. Cim. Res. 18: 5-15. 110. Woodworth, P.L., and Player, R. 2003. The permanent service for mean sea level: an update to the 21 st century. J. Coast. Res. 19:287-295. 111. Yan, Z., Tsimplis, M.N., and Woolf, D. 2004. Analysis of the relationship between the North Atlantic oscillation and sea-level changes in Northwest Europe. Int. J. Climatol. 24: 743-758. 112. Yool, A., and Fasham, M.J.R. 2001. An examination of the “continental shelf pump” in an open ocean general circulation model. Global Biogeochem. Cycles. 2000GB001359. IV.D. Lagoons 1. Kjerfve B. 1994. Coastal Lagoon Processes, Elsevier Science Publishers, Amsterdam, xx + 577 p. 2. De Wit R., Stal L.J., Lomstein B.Aa., Herbert R.A., Van Gemerden H., Viaroli P., Ceccherelli V.U., Rodriguez-Valera F., Bartoli M., Giordani G., Azzoni R., Schaub B., Welsh D:T:, Donnelly A., Cifuentes A., Anton J., Finster K., Nielsen L.B., Underlien Pedersen A-E., Turi Neubauer A., Colangelo M., Heijs S.K., 2001. ROBUST: the role of buffering capacities in stabilising coastal lagoon ecosystems. Continental Shelf Research, 21: 2021-2041. 3. Lasserre, P., 1979. Coastal lagoons. Sanctuary ecosystems, cradles for culture, targets for economic growth. Nature and Resources (UNESCO) 15, 2–21. 4. Schramm W. and Nienhuis P.H. (eds), 1996. Marine benthic vegetation. Recent changes and the effect of eutrophication. Ecological Studies 123, Springer, Berlin 5. Castel, J., Caumette, P., Herbert, R.A., 1996. Eutrophication gradients in coastal lagoons as exemplified by the Bassin d’Arcachon and the Etang du Prévost. Hydrobiologia, 329: xi-xxx. 6. Hemminga, M.A., 1998. The root rhizome system of seagrasses: an asset and a burden. Journal of Sea Reearch 39, 183–196. 7. Morand, P., Briand, X., 1996. Excessive growth of macroalgae: a symptom of environmental disturbance. Botanica Marina, 39: 491-516 8. Valiela, I., McClelland, J., Hauxwell, J., Behr, P.J., Hersh, D., Foreman, K., 1997. Macroalgal blooms in shallow estuaries: control and ecophysiological and ecosystem consequences. Limnology and Oceanography 42 (5), 1105–1118. 9. Flindt, M.R., Pardal, M.A., Lilleb_, A.I., Martins, I., Marques, J.C., 1999. Nutrient cycling and plant dynamics in estuaries: a brief review. Acta Oecologica 20, 237–248. 10. Sfriso, A., Pavoni, B., Marcomini, A., Orio, A.A., 1992. Macroalgae, nutrient cycles, and pollutants in the lagoon of Venice. Estuaries 15, 517–528. 11. Viaroli, P., Azzoni, R., Bartoli, M., Giordani, G. and Tajé, L. 2001, Evolution of the trophic conditions and dystrophic outbreaks in the Sacca di Goro lagoon (Northern Adriatic Sea). In F. M. Faranda, L. Guglielmo and G. Spezie (eds), Structure and processes in the Mediterranean Ecosystems. Chapter 56, 443-451. Springer-Verlag, Milano. Italia. 12. Chapelle, A., Lazure, P. and Souchu, P. 2001. Modélisation numérique des crises anoxiques (malaïgues) dans la lagune de Thau (France). Oceanologica Acta 24, S87- S97 13. Cadée, N., Dronkers, J., Heip, C.H.R., Martin, J.-M., Nolan, C., 2001. European Land–Ocean Interaction Studies, Science Plan, Ecosystem Research Report 11. European Commission, Luxembourg 235
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Climate Change and the European Wat
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European Commission- Joint Research
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At the 2003 Rome Informal Meeting o
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Changes in the diurnal variation of
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Fugure I.2. (a) Maximum grid covera
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century. This corresponds to a sea
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Other causes Other causes of climat
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tropospheric ozone are photochemica
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Figure. I.4. Radiative forcings and
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There are two indirect effects of a
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The projected warming is not unifor
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water towards the west Pacific caus
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Aerosols and climate change in the
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precipitation intensities have been
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Chapter III. The Hydrologic Cycle I
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Figure III.2. Long-term average ann
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Figure III.4. Projected change in s
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eduction in the rate of evaporation
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characteristics may or may not be u
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temperatures potentially lead to hi
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Chapter IV.A. Proxy indicators of C
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Mean Air Temperature (Dec.-March) [
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correlation coefficient -0.4 -0.3 -
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Chapter IV. B. The Impact of Climat
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numbers refer to water bodies bigge
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Table IV.B.2. Number of large dams*
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quality degradation and meet the in
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sufficient resolution and accuracy
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Windermere in the English Lake Dist
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their vertical structure. In partic
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have recently described a method th
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The available evidence suggests tha
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1979). In contrast, heavy rain incr
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The projected increase in the atmos
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Aulacoseira spp. favour the changed
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vertical bars are a simple measure
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values, with an upper limit of 30°
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the processes controlling, regional
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Sea level rise is partially due to
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Box # 1: The North Sea The North Se
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and organic material more rapidly t
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suggesting that climate rather than
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CO2 2- ). In turn, the alkalinity i
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looms are often associated with tox
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events of dense water through the D
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(1) Are we already observing a resp
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eastern and western side of the Nor
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system, their physiology and intern
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each coastal element be studied and
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IV.D.1. Introduction Coastal lagoon
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In the last decade, a general model
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topics in coastal lagoons (de Wit e
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Po River Delta lagoons, the long dr
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esilient to environmental changes a
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Chapter V.A. Climate Change and Ext
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It is realized that adaptation to c
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member states. Moreover some agenci
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Large, global scale climatic driver
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V.B.5. Climate change and droughts
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Evacuation from forest fires at Mas
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In European forest policy, water is
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Drought mitigation and the involvem
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DSS-DROUGHT A Decision Support Syst
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Chapter V .C. Climate Change, Ecolo
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The quality class boundaries within
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An example of this kind of relation
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Regions 1 to 5 represent mainly a m
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een observed in southwestern countr
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Table V.D.2: Percentage area affect
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Lake Surface Temperature [°C] Desc
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Case Study: Esthwaite Water, Cumbri
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Residence time (days) Chlorophyll (
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Case Study: Lake Erken, Sweden ►
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TP (µg l -1 ) Modelling To analyse
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Data availability and investigation
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smaller volume of water. The warmer
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Chapter VI.B. Climate Change and th
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Concerning the flora of the lagoon
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Figure VI.B.2: Frequency of “bora
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Figure VI.C.2. Daily flows in Ebro
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Figure VI.C.4. Mean temperature inc
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factors including an appropriate su
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with the lower limit range indicate
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