Abstract
The national version of FUND3.6 is used to backcast the impacts of climate change to the 20th century and extrapolate to the 21st century. Carbon dioxide fertilization of crops and reduced energy demand for heating are the main positive impacts. Climate change had a negative effect on water resources and, in most years, human health. Most countries benefitted from climate change until 1980, but after that the trend is negative for poor countries and positive for rich countries. The global average impact was positive in the 20th century. In the 21st century, impacts turn negative in most countries, rich and poor. Energy demand, water resources, biodiversity and sea level rise are the main negative impacts; the impacts of climate change on human health and agriculture remain positive until 2100.
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Notes
Water is a necessary good. The assumed income elasticity is 0.85, that is, a 10 % increase in per capita income leads to an 8.5 % increase in the per capita value of water.
Note that Figure 2 shows the worst off and best off countries at each point in time, rather than the worst off and best off countries averaged over the centuries.
National impacts are weighted with the ratio of world average per capita income and national per capita income. This corresponds to a logarithmic function for individual utility and utilitarian social welfare (Fankhauser et al. 1997).
Infrapolation is extrapolation to the past.
References
Barredo JI (2009) Normalised flood losses in Europe: 1970–2006. Nat Hazards Earth Syst Sci 9(1):97–104
Bessec M, Fouquau J (2008) The non-linear link between electricity consumption and temperature in Europe: a threshold panel approach. Energy Econ 30(5):2705–2721
Byass P (2008) Making sense of long-term changes in malaria. Lancet 372(9649):1523–1525
Campbell-Lendrum D, Woodruff R (2006) Comparative risk assessment of the burden of disease from climate change. Environ Heal Perspect 114(12):1935–1941
Carson C, Hajat S, Armstrong B, Wilkinson P (2006) Declining vulnerability to temperature-related mortality in London over the 20th century. Am J Epidemiol 164(1):77–84
Changnon SA (2003) Shifting economic impacts from weather extremes in the United States: a result of societal changes, not global warming. Nat Hazard 29(2):273–290
Changnon SA, Changnon JM (1992) Temporal fluctuations in weather disasters: 1950–1989. Clim Chang 22:191–208
Changnon D, Changnon SA Jr (1998) Evaluation of weather catastophe data for use in climate change investigations. Clim Chang 38:435–445
Chaves LF, Koenraadt CJM (2010) Climate change and highland malaria: fresh air for a hot debate. Q Rev Biol 85(1):27–55
Cline WR (1992a) Global Warming—The Benefits of Emission Abatement. OECD, Paris
Cline WR (1992b) The Economics of Global Warming. Institute for International Economics, Washington, D.C
Considine TJ (2000) The impacts of weather variations on energy demand and carbon emissions. Resour Energy Econ 22(4):295–314
Craig MH, Kleinschmidt I, Nawn JB, le Sueur D, Sharp BL (2004) Exploring 30 years of malaria case data in KwaZulu-Natal, South Africa: Part I. The impact of climatic factors. Trop Med Int Health 9(12):1247–1257
D’Ippoliti D, Michelozzi P, Marino C, De’Donato F, Menne B, Katsouyanni K, Kirchmayer U, Analitis A, Medina-Ramón M, Paldy A, Atkinson R, Kovats S, Bisanti L, Schneider A, Lefranc A, Iñiguez C, Perucci CA (2010) The impact of heat waves on mortality in 9 European cities: results from the EuroHEAT project. Environ Health Glob Access Sci Source 9(1)
Davis RE, Knappenberger PC, Novicoff WM, Michaels PJ (2002) Decadal changes in heat-related human mortality in the eastern United States. Clim Res 22(2):175–184
Davis RE, Knappenberger PC, Novicoff WM, Michaels PJ (2003) Decadal changes in summer mortality in U.S. cities. Int J Biometeorol 47(3):166–175
Fankhauser S (1994) Protection vs. Retreat—The Economic Costs of Sea Level Rise. Environ Plan A 27:299–319
Fankhauser S (1995) Valuing Climate Change—The Economics of the Greenhouse, 1st edn. EarthScan, London
Fankhauser S, Tol RSJ, Pearce DW (1997) The aggregation of climate change damages: a welfare theoretic approach. Environ Resour Econ 10(3):249–266
Gething PW, Smith DL, Patil AP, Tatem AJ, Snow RW, Hay SI (2010) Climate change and the global malaria recession. Nature 465(7296):342–345
Giannakopoulos C, Psiloglou BE (2006) Trends in energy load demand for Athens, Greece: weather and non-weather related factors. Clim Res 31(1):97–108
Group EUROWINTER (1997) Cold exposure and winter mortality from ischaemic heart disease, cerebrovascular disease, respiratory disease, and all causes in warm and cold regions of Europe. Lancet 349:1341–1346
Hay SI, Cox J, Rogers DJ, Randolph SE, Stern DI, Shanks GD, Myers MF, Snow RW (2002a) Climate change and the resurgence of malaria in the East African highlands. Nature 415:905–909
Hay SI, Rogers DJ, Randolph SE, Stern DI, Cox J, Shanks GD, Snow RW (2002b) Hot topic or hot air? Climate change and malaria resurgence in East African highlands. Trends Parasitol 18(12):530–534
Hekkenberg M, Benders RMJ, Moll HC, Schoot Uiterkamp AJM (2009) Indications for a changing electricity demand pattern: the temperature dependence of electricity demand in the Netherlands. Energy Policy 37(4):1542–1551
Henley A, Peirson J (1998) Residential energy demand and the interaction of price and temperature: British experimental evidence. Energy Econ 20(2–6):157–171
Holmer B (2008) Fluctuations of winter wheat yields in relation to length of winter in Sweden 1866 to 2006. Clim Res 36(3):241–252
Kundzewicz ZW, Graczyk D, Maurer T, Pinkswar I, Radziejeswki M, Svensson C, Szwed M (2005) Trend detection in river flow series: 1. Annual maximum flow. Hydrol Sci J 50(5):797–810
Lindstroem G, Bergstroem S (2004) Runoff trends in Sweden 1807–2002. Hydrol Sci J 49(1):69–84
Link PM, Tol RSJ (2004) Possible economic impacts of a shutdown of the thermohaline circulation: an application of FUND. Port Econ J 3(2):99–114
Link PM, Tol RSJ (2011) The economic impact of a shutdown of the thermohaline circulation: an application of FUND. Clim Chang 104(2):287–304
Lins HF, Slack JR (1999) Streamflow trends in the United States. Geophys Res Lett 26(2):227–230
Lloyd SJ, Kovats RS, Armstrong BG (2007) Global diarrhoea morbidity, weather and climate. Clim Res 34(2):119–127
Lobell DB, Asner GP (2003) Climate and management contributions to recent trends in U.S. agricultural yields. Science 299(5609):1032
Lobell DB, Field CB (2007) Global scale climate-crop yield relationships and the impacts of recent warming. Environ Res Lett 2(014002):1–7
Lobell DB, Ortiz-Monasterio JI, Asner GP, Matson PA, Naylor RL, Falcon WP (2005) Analysis of wheat yield and climatic trends in Mexico. Field Crops Res 94(2–3):250–256
Lobell DB, Schlenker W, Costa-Roberts J (2011) Climate Trends and Global Crop Production Since 1980. Science 333:616–620
Loevinsohn ME (1994) Climatic warming and increased malaria incidence in Rwanda. Lancet 343(8899):714–718
Long SP, Ainsworth EA, Leakey ADB, Noesberger J, Ort DR (2006) Food for thought: lower-than-expected crop yield stimulation with rising CO2 concentrations. Science 312(5811):1918–1921
Maddison A (1995) Monitoring the World Economy 1820–1992. OECD Publications, Paris
Martens WJM (1998) Climate change, thermal stress and mortality changes. Soc Sci Med 46(3):331–344
McMichael AJ, Dear KBG (2010) Climate change: heat, health, and longer horizons. Proc Natl Acad Sci U S A 107(21):9483–9484
Mendelsohn RO, Morrison WN, Schlesinger ME, Andronova NG (2000) Country-specific market impacts of climate change. Clim Chang 45(3–4):553–569
Moral-Carcedo J, Vicens-Otero J (2005) Modelling the non-linear response of Spanish electricity demand to temperature variations. Energy Econ 27(3):477–494
Myneni RB, Keeling CD, Tucker CJ, Asrar G, Nemani RR (1997) Increased plant growth in the northern high latitudes from 1981 to 1991. Nature 386(6626):698–702
Narita D, Anthoff D, Tol RSJ (2009) Damage costs of climate change through intensification of tropical cyclone activities: an application of FUND. Clim Res 39:87–97
Narita D, Anthoff D, Tol RSJ (2010) Economic costs of extratropical storms under climate change: an application of FUND. J Environ Plan Manag 53(3):371–384
Neumayer E, Barthel F (2011) Normalizing economic loss from natural disasters: a global analysis. Glob Environ Chang 21(1):13–24
Nicholls N (1997) Increased Australian wheat yield due to recent climate trends. Nature 387(6632):484–485
Nordhaus WD (1991) To slow or Not to slow: the economics of the greenhouse effect. Econ J 101(444):920–937
Pardo A, Meneu V, Valor E (2002) Temperature and seasonality influences on Spanish electricity load. Energy Econ 24(1):55–70
Pielke RA Jr (2005) Are there trends in hurricane destruction? Nature 438(7071)
Pielke RA Jr, Gratz J, Landsea CW, Collins D, Saunders MA, Musulin R (2008) Normalized hurricane damage in the United States: 1900–2005. Nat Hazards Rev 9(1):29–42
Ryan PC, Pielke JA Jr, McAneney KJ (2011) Emergence timescales for detection of anthropogenic climate change in US tropical cyclone loss data. Environ Res Lett 6(1):014003
Sailor DJ, Munoz JR (1997) Sensitivity of electricity and natural gas consumption to climate in the U.S.A.—Methodology and results for eight states. Energy 22(10):987–998
Small J, Goetz SJ, Hay SI (2003) Climatic suitability for malaria transmission in Africa, 1911–1995. Proc Natl Acad Sci U S A 100(26):15341–15345
Svensson C, Kundzewicz ZW, Maurer T (2005) Trend detection in river flow series: 2. Flood and low-flow index series. Hydrol Sci J 50(5):811–824
Tao F, Yokozawa M, Xu Y, Hayashi Y, Zhang Z (2006) Climate changes and trends in phenology and yields of field crops in China, 1981–2000. Agric For Meteorol 138(1–4):82–92
Tao F, Yokozawa M, Liu J, Zhang Z (2008) Climate-crop yield relationships at provincial scales in China and the impacts of recent climate trends. Clim Res 38(1):83–94
Thomas C (2004) A changed climate in Africa? Nature 427(6976):690–691
Tol RSJ (1995) The damage costs of climate change toward more comprehensive calculations. Environ Resour Econ 5(4):353–374
Tol RSJ (2001) Equitable cost-benefit analysis of climate change. Ecol Econ 36(1):71–85
Tol RSJ (2002a) Estimates of the damage costs of climate change—Part 1: benchmark estimates. Environ Resour Econ 21(1):47–73
Tol RSJ (2002b) Estimates of the damage costs of climate change—Part II: dynamic estimates. Environ Resour Econ 21(2):135–160
Tol RSJ (2002c) Welfare specifications and optimal control of climate change: an application of FUND. Energy Econ 24:367–376
Tol RSJ (2009a) Climate Feedbakcs on the Terrestrial Biosphere and the Economics of Climate Policy: An Application of FUND. Economic and Social Research Institute, Dublin, Working Paper 288
Tol RSJ (2009b) The economic effects of climate change. J Econ Perspect 23(2):29–51
Tol RSJ (2009c) Why worry about climate change? Res Bull 09(1):2–7
Tol RSJ, Verheyen R (2004) State responsibility and compensation for climate change damages—a legal and economic assessment. Energy Policy 32:1109–1130
Tol RSJ, Downing TE, Eyre N (1999) The Marginal Costs of Radiatively-Active Gases. Institute for Environmental Studies, Vrije Universiteit, Amsterdam, W99/32
Toya H, Skidmore M (2007) Economic development and the impacts of natural disasters. Econ Lett 94:20–25
Twine TE, Kucharik CJ (2009) Climate impacts on net primary productivity trends in natural and managed ecosystems of the central and eastern United States. Agric For Meteorol 149(12):2143–2161
Yohe GW, Tol RSJ (2002) Indicators for social and economic coping capacity—moving towards a working definition of adaptive capacity. Glob Environ Chang 12(1):25–40
Zhang T, Zhu J, Wassmann R (2010) Responses of rice yields to recent climate change in China: an empirical assessment based on long-term observations at different spatial scales (1981–2005). Agric For Meteorol 150(7–8):1128–1137
Acknowledgments
I am grateful to the Copenhagen Consensus Center and the EU ClimateCost project for financially supporting this research. Two anonymous referees had excellent comments.
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Tol, R.S.J. The economic impact of climate change in the 20th and 21st centuries. Climatic Change 117, 795–808 (2013). https://doi.org/10.1007/s10584-012-0613-3
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DOI: https://doi.org/10.1007/s10584-012-0613-3