Coastal Impacts, Adaptation, and Vulnerabilities - Climate ...

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References 163Science Program and Subcommittee on Global Change Research., Washington, DC. 544 pp.Justic, D., Bierman, V.J., Scavia, D., & Hetland, R.D. (2007). Forecasting Gulf’s hypoxia: the next50 years? Estuaries and Coasts, 30, pp. 791-801.Justic, D., Rabalais, N.N., & Turner, R.E. (1996). Effects of climate change on hypoxia in coastalwaters: a doubled CO 2scenario for the northern Gulf of Mexico. Limnology and Oceanography,41, pp. 992-1003.Kane, A. (2011). Practical Guidance for Climate-Smart Conservation Projects in the Northeast:Case Examples for Coastal Impoundments and Living Shorelines. National Wildlife Federation,Washington, D.C. 45 pp.Karl, T., Melillo, J.M., & Peterson, T.C. (Eds.). (2009). Global Climate Change Impacts in theUnited States. Cambridge University Press.Karoly, D.J. & Wu, Q.G. (2005). Detection of regional surface temperature trends. Journal ofClimate, 18, pp. 4337-4343.Kaushal, S.S., Groffman, P.M., Band, L.E., Shields, C.A., Morgan, R.P., Palmer, M.A., Belt, K.T.,Swan, C.M., Findlay, S.E.G., & Fisher, G.T. (2008). Interaction between urbanization andclimate variability amplifies watershed nitrate export in Maryland. Environmental Science &Technology, 42(16), pp. 5872–5878.Kemp, W.M., Testa, J.M., Conley, D.J., Gilbert, D., & Hagy, J.D. (2009). Temporal responses ofcoastal hypoxia to nutrient loading and physical controls. Biogeosciences. 6(12), pp. 2985-3008.Kennish M., Paerl, H.W. (2010). Coastal Lagoons: Critical Habitats of Environmental Change.CRC Marine Science Series, CRC Press, Boca Raton, FL.Kildow, J.T., Colgan, C.S., & Scorse, J. (2009). State of the U.S. Ocean and Coastal Economies.National Ocean Economics Program. Retrieved from http://www.oceaneconomics.org/nationalreport.Kim, Y., Ueyama, M., Nakagawa, F., Tsunogai, U., Harazono, Y., & Tanaka, N. (2007). Assessmentof winter fluxes of CO 2, and CH 4in boreal forest soils of central Alaska estimated bythe profile method and the chamber method: a diagnosis of CH 4emission and implicationsfor the regional carbon budget, DOI: 10.1111/j:1600-0889.2006.00233.x, Tellus B, 59(2), pp.223-243.Kimmel, D.G., Miller, W.D., & Roman, M.R. (2006). Regional scale climate forcing of mesozooplanktondynamics in Chesapeake Bay. Estuaries and Coasts, 29, pp. 375-387King County. (2008). Vulnerability of major wastewater facilities to flooding from sea-levelrise. Department of Natural Resources and Parks, King County, WA. Also see Feifel, K.(2010). Vulnerability of King County, Washington Wastewater Treatment Facilities to Sea LevelRise [Case study on a project of the King County Wastewater Treatment Division]. Productof EcoAdapt’s State of Adaptation Program. Retrieved from CAKE: http://www.cakex.org/case-studies/719.King, P.G., McGregor, A.R., Whittet, J.D. (2008). The Economic Costs of Sea Level Rise to CaliforniaBeach Commities. California Department of Boating and Waterways and San FranciscoState University.Kirshen, P., Douglas, E., Paolisso, M., and Enrici, A. (2012). Community Attitudes to Adaptationto Coastal Flooding under Climate Change in Karl et al, Restoring and Sustaining Lands:Coordinating Science, Politics, and Action, Springer, in press.Kirshen, P., Watson, C., Douglas, E., Gontz, A., Lee, J., and Tian, Y. (2008). Coastal flooding inthe Northeastern United States due to climate change. Mitigation and Adaptation Strategies forGlobal Change, 13(5-6), pp. 437-451.Kirwan, M., Murray, A., Boyd, W. (2008). Temporary vegetation disturbance as an
164 Coastal Impacts, Adaptation, and Vulnerabilitiesexplanation for permanent loss of tidal wetlands. Geophysical Research Letters, 35, L05403.doi:10.1029/2007GL032681.Kirwan, M.L., Guntenspergen, G.R., D’Alpaos, A., Morris, J.T., Mudd, S.M., and Temmerman, S.(2010). Limits on the adaptability of coastal marshes to rising sea level. Geophysical ResearchLetters, 37, L23401, doi:10.1029/2010GL045489.Kjerfve, B. (Ed.). (1994). Coastal lagoon processes. Elsevier, Amsterdam, The Netherlands.Kleinosky, L.R., Yarnal, B., & Fisher, A. (2007). Vulnerability of Hampton Roads, Virginia tostorm-surge flooding and sea-level rise. Natural Hazards, 40(1), pp. 43-70.Kling, G.W., Hayhoe, K., Johnson, L.B., Magnuson, J.J., Polasky, S., Robinson, S.K., Shuter, B.J.,Wander, M.M., Wuebbles, D.J., Zak, D.R., Lindroth, R.L., Moser, S.C., & Wilson, M.L. (2003).Confronting Climate Change in the Great Lakes Region: Impacts on our Communities and Ecosystems.Union of Concerned Scientists, Cambridge, Massachusetts, and Ecological Society ofAmerica, Washington, D.C.Knowles, N. (2010). Potential Inundation Due to Rising Sea Levels in the San Francisco BayRegion. San Francisco Estuary and Watershed Science, 8, pp. 1-19.Knowles, N., Dettinger, M.D., & Cayan, D.R., 2006, Trends in snowfall versus rainfall for theWestern United States. Journal of Climate, 19(18), pp. 4545-4559.Knowlton, K., Lynn, B., Goldberg, R.A., Rosenzweig, C., Hogrefe, C., Rosenthal, J.K., Kinney, P.L.(2007). Projecting heat-related mortality impacts under a changing climate in the New YorkCity region. American Journal of Public Health, 97, pp. 2028-2034.Knowlton, K., Rotkin-Ellman, M., King, G., Margolis, H.G, Smith, D., Solomon, G., Trent, R., &English, P. (2009). The 2006 California Heat Wave: Impacts on Hospitalizations and EmergencyDepartment Visits. Environmental Health Perspectives, 117, pp. 61-67. http://dx.doi.org/10.1289/ehp.11594Knowlton, K., Solomon, G., Rotkin-Ellman, M. (2009). Fever Pitch: Mosquito-Borne Dengue FeverThreat Spreading in the Americas. Natural Resources Defense Council. Retrieved from http://www.nrdc.org/health/dengueKnutson, T.R., Delworth, T.L., Dixon, K.W., Held, I.M., Lu, J., Ramaswamy, V., Schwarzkopf,M.D., Stenchikov, G., & Stouffer, R.J. (2006). Assessment of Twentieth-Century regionalsurface temperature trends using the GFDL CM2 coupled models. Journal of Climate, 19(9),doi:10.1175/JCLI3709.1.Knutson, T.R., McBride, J., Chan, J., Emanuel, K.A., Holland, G., Landsea, C., Held, I.M., Kossin,J., Srivastava, A.K., & Sugi, M. (2010). Tropical cyclones and climate change. Nature Geoscience,3, doi:doi:10.1038/ngeo779.Knutson, T.R., Sirutis, J.J., Garner, S.T., Vecchi, G.A., & Held, I.M. (2008). Simulated reduction inAtlantic hurricane frequency under twenty-first-century warming conditions. Nature Geoscience,1(6), pp. 359-364.Komar, P.D. & Allan, J.C. (2008). Increasing hurricane-generated wave heights along the US EastCoast and their climate controls. Journal of Coastal Research, 24(2), pp. 479-488.Komar, P.D. (1998). Beach processes and sedimentation, Second edition, Prentice Hall, Saddle River,N.J., 544 pp.Komar, P.D., Allan, J.C., & Ruggiero, P. (2009). Ocean wave climates: Trends and variations dueto Earth’s changing climate. Handbook of Coastal and Ocean Engineering, edited by Y.C.Kim, World Scientific Publishing Co., pp. 971-975.Kopp, R.E., Mitrovica, J.X., Griffies, S.M., Yin, J., Hay, C.C., & Stouffer, R.J. (2010). The impact ofGreenland melt on local sea levels: a partially coupled analysis of dynamic and static equilibriumeffects in idealized water-hosing experiments. Climatic Change, 103, pp. 619-625
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National Climate Assessment Regiona
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© 2012 The National Oceanic and At
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Coastal Impacts, Adaptation,and Vul
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Chapter 3Lead Author: Carlton H. He
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ContentsKey TermsAcronymsCommunicat
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4.4 Human Health Impacts and Implic
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Key TermsxixExposure 3 - The nature
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AcronymsxxiNAO - North Atlantic Osc
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Executive Summaryxxvffffffffffffffo
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Executive Summaryxxviiweakened by v
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Executive SummaryxxixAdaptation and
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Introduction and Context 3irrigatio
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Introduction and Context 9coastal w
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Physical Climate Forces 11fffffffff
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Physical Climate Forces 13Figure 2-
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Physical Climate Forces 15Sea-level
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Physical Climate Forces 17maintain
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Physical Climate Forces 19These low
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Physical Climate Forces 21Figure 2-
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Physical Climate Forces 23that surv
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Physical Climate Forces 25Table 2-2
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Physical Climate Forces 27Most of t
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Physical Climate Forces 29(low to m
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Physical Climate Forces 31A number
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Physical Climate Forces 33off the c
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Physical Climate Forces 35in these
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Physical Climate Forces 37this diff
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Physical Climate Forces 39in input
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Physical Climate Forces 41Intensifi
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Physical Climate Forces 43depth qua
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Physical Climate Forces 45precipita
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Physical Climate Forces 47Sea and w
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Physical Climate Forces 49by sea ic
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Physical Climate Forces 51niche ero
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Vulnerability and Impacts on Natura
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Vulnerability and Impacts on Human
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Vulnerability and Impacts on Human
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Chapter 5Adaptation and MitigationK
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