Abstract
The question of whether and to what extent global warming may be changing tropical cyclone (TC) activity is of great interest to decision makers. The presence of a possible climate change signal in TC activity is difficult to detect because interannual variability necessitates analysis over longer time periods than available data allow. Projections of future TC activity are hindered by computational limitations and uncertainties about changes in regional climate, large scale patterns, and TC response. This review discusses the state of the field in terms of theory, modeling studies and data. While Atlantic TCs have recently become more intense, evidence for changes in other basins is not persuasive, and changes in the Atlantic cannot be clearly attributed to either natural variability or climate change. However, whatever the actual role of climatic change, these concerns have opened a “policy window” that, if used appropriately, could lead to improved protection against TCs.
Similar content being viewed by others
References
Aberson SD (2009) Regimes or cycles in tropical cyclone activity in the North Atlantic. Bull Am Meteorol Soc 90(1):39–41
Bagstadt KJ, Stapleton K, D’Agostino JRD (2007) Taxes, subsidies, and insurance as drivers of United States coastal development. Ecol Econ 63(2/3):285–298
Bender MA, Knutson TR, Tuleya RE, Sirutis JJ, Vecchi GA, Garner ST, Held IM (2010) Modeled impact of anthropogenic warming on the frequency of intense Atlantic hurricanes. Science 327:454–458
Bengtsson L (2007) Tropical cyclones in a warmer climate. WMO Bull 56(3):1–8
Bengtsson L, Hodges KI (2008) Comments on “Is the number of North Atlantic tropical cyclones significantly underestimated prior to the availability of satellite observations” by E Chang and Y Guo. Geophys Res Lett 35:L09810. doi:10.1029/2007GL032251
Bengtsson L, Hodges KI, Esch M, Keenlyside N, Kornblueh L, Luo JJ, Yamagata T (2007) How may tropical cyclones change in a warmer climate? Tellus 59A:539–561
Bjerknes J (1964) Atlantic air-sea interaction. Adv Geophys 10:1–82
Bove MC, Elsner JB, Landsea CW, Niu X, O’Brien JJ (1998) Effect of El Niño on US landfalling hurricanes, revisited. Bull Am Meteoreol Soc 79(11):2477–2482
Bowditch HI (1841) Memoir of Nathaniel Bowditch. James Munroe and Company, Boston
Briggs WM (2008) On the changes in the number and intensity of North Atlantic tropical cyclones. J Clim 21:1387–1402
Brown DP, Franklin JL (2004) Dvorak tropical cyclone wind speed biases determined from reconnaissance-based ‘best track’ data 1997-2003. AMS 26th conference on hurricanes and tropical meteorology, Miami, FL, 2–7 May 2004
Camp JP (1999) Hurricane maximum intensity: past and present. University of Colorado Department of Atmospheric Sciences Master thesis, Fort Collins
Cane MA (2004) The evolution of El Niño, past and future. Earth Planet Sci Lett 164:1–10
Carton JA, Cao X, Giese BS, Da Silva AM (1996) Decadl and interannual SST variability in the tropical Atlantic ocean. J Phys Oceanogr 26:1165–1175
Chan JCL (2006) Comment on “Changes in tropical cyclone number, duration and intensity in a warming environment”. Science 311:1713b
Chan JCL (2008) Decadal variations of intense typhoon occurrence in the western North Pacific. Proc R Soc Lond, Ser A 464:249–272
Chan JCL, Liu KS (2004) Global warming and western North Pacific typhoon activity from an observational perspective. J Clim 17:4590–4602
Chang EKM, Guo Y (2007) Is the number of North Atlantic tropical cyclones significantly underestimated prior to the availability of satellite observations? Geophys Res Lett 34:L14801
Chauvin F, Royer JF, Déqué M (2006) Response of hurricane-type vortices to global warming as simulated by ARPEGE-Climat at high resolution. Clim Dyn 27:377–399
Chen SS, Price JF, Zhao W, Donelan MA, Walsh EJ (2007) The CBLAST Hurricane program and the next-generation fully coupled atmosphere-wave-ocean models for hurricane research and prediction. Bull Am Meteorol Soc 311–317
Chu JH, Sampson CR, Levine AS, Fukada E (2002) The Joint Typhoon Warning Center tropical cyclone best tracks, 1945-2000. Joint Typhoon Warning Center NRL/MR/7540-02-16
Chylek P, Lesins G (2008) Multidecadal variability of Atlantic hurricane activity: 1851–2007. J Geophys Res Atmos 113. doi:10.1029/2008JD010036
Collins M, CMIP Modeling Groups (2005) El Niño- or La Niña-like climate change? Clim Dyn 24:89–104
Curry JA, Webster PJ, Holland GJ (2006) Mixing politics and science in testing the hypothesis that greenhouse warming is causing a global increase in hurricane intensity. Bull Am Meteorol Soc 87:1025–1037
Delworth T, Manabe S, Stouffer RJ (1993) Interdecadal variations of the thermohaline circulation in a coupled ocean-atmosphere model. J Clim 6:1993–2010
DeMaria M (1996) The effect of vertical shear on tropical cyclone intensity change. J Atmos Sci 53 (14):2076–2087
DeMaria M, Kaplan J (1994) Sea surface temperature and the maximum intensity of Atlantic tropical cyclones. J Clim 7:1324–1334
Dickson RT, Meincke J, Malmberg SA, Lee AJ (1988) The ,,Great Salinity Anomaly“ in the northern North Atlantic 1968–1982. Prog Ocean 20:103–151
Dima M, Lohmann G (2007) A hemispheric mechanism for the Atlantic Multidecadal Oscillation. J Clim 20:2706–2719
Doherty NA, Grace MF, Klein RW, Kunreuther HC, Michel-Kerjan EO, Pauly MV (2008) Managing Large Scale Risks in a New Era af Catastrophes: Insuring, Mitigating and Financing Recovery from Natural Disasters in the United States, An Extreme Events Project of the Wharton Risk Management and Decision Processes Center in conjunction with Georgia State University and the Insurance Information Institute
Donnelly JP, Webb T (2004) Back-barrier sedimentary records of intense hurricane landfalls in the Northeastern United States. In: Murnane RJ, Kam-Biu L (eds) Hurricanes and typhoons – past, present and future. Columbia University Press
Dorst NM (2007) The National Hurricane Center research project: 50 years of research, rough rides, and name changes. Bull Am Meteorol Soc 88(10):1566–1588
Dunion JP, Velden CS (2004) The impact of the Saharan Air Layer on Atlantic tropical cyclone activity. Bull Am Meteorol Soc 85(3):353–365
Dunn GE (1940) Cyclogenesis in the tropical Atlantic. Bull Am Meteorol Soc 21:215–229
Dunn GE, Miller BI (1960) Atlantic hurricanes. Louisiana State University Press
Dvorak VF (1975) Tropical cyclone intensity analysis and forecasting from satellite imagery. Mon Weather Rev 103:420–430
Edson RT (2004) Tropical cyclone analysis techniques from Quikscat NRCS, wind and ambiguity data and microwave imagery. AMS 26th Conference on Hurricanes and Tropical Meteorology, Miami, FL, 2-7 May 2004
Elsner JB (2003) Tracking hurricanes. Bull Am Meteorol Soc 84:353–356
Elsner JB, Kossin JP, Jagger TH (2008) The increasing intensity of the strongest tropical cyclones. Nature 444:92–95
Emanuel KA (1986) An air-sea interaction theory for tropical cyclones. Part I: steady-state maintenance. J Atmos Sci 43(6):585–604
Emanuel KA (1987) The dependence of hurricane intensity on climate. Nature 326:483–485
Emanuel KA (1995) Sensitivity of tropical cyclones to surface exchange coefficients and a revised steady-state model incorporating eye dynamics. J Atmos Sci 52 (22):3969–3976
Emanuel KA (1999) Thermodynamic control of hurricane intensity. Nature 401:665–669
Emanuel KA (2000) A statistical analysis of tropical cyclone intensity. Mon Weather Rev 128:1139–1152
Emanuel KA (2003) A century of scientific progress: an evaluation. In: Simpson R (ed) Hurricane: coping with disaster. AGU, Washington D.C., pp 177–204
Emanuel KA (2005a) Increasing destructiveness of tropical cyclones over the past 30 years. Nature 436(4):686–688
Emanuel KA (2005b) Emanuel replies. Nature 438:E13. doi:10.1038/nature04427
Emanuel KA (2007) Environmental factors affecting tropical cyclone power dissipation. J Clim 20:5497–5509
Emanuel K (2008) The hurricane-climate connection. Bull Am Meteorol Soc 89(5):ES10–ES20
Emanuel K, Sundararajan R, Williams J (2008) Hurricanes and global warming: Results from downscaling IPCC AR4 simulations. Bull Am Meteorol Soc 89:347–367
Enfield DB, Mestaz-Nuñez AM, Trimble PJ (2001) The Atlantic multidecadal oscillation and its relation to rainfall and river flows in the continental U.S. Geophys Res Lett 28:2077–2080
Evans JL (1993) Sensitivity of tropical cyclone intensity to sea surface temperature. J Clim 6:1133–1140
Evan AT, Heidinger AK, Bennartz R, Bennington V, Mahowald NM, Corrada-Bravo H, Velden CS, Myhre G, Kossin JP (2008) Ocean temperature forcing by aerosols across the Atlantic tropical cyclone development region. Geochem Geophys Geosyst 9(5). doi:10.1029/2007GC001774
Frederick S, Loewenstein G, O’Donoghue T (2002) Time discounting and time preference: a critical review. J Econ Lit XL:351–401
Garner ST, Held IM, Knutson T, Sirutis J (2009) The roles of wind shear and thermal stratification in past and projected changes of Atlantic tropical cyclone activity. J Clim 22:4723–4734
Goldenberg SB, Shapiro LJ (1996) Physical mechanisms for the association of El Niño and West African rainfall with Atlantic major hurricane activity. J Clim 9:1169–1187
Goldenberg SB, Landsea CW, Mestas-Nunez AM, Gray WM (2001) The recent increase in Atlantic hurricane activity: causes and implications. Science 293:474–479
Government of the United States (1995) The American practical navigator, originally by Nathaniel Bowditch. Online at http://www.irbs.com/bowditch/
Gray WM (1968) Global view of the origin of tropical disturbances and storms. Mon Weather Rev 96(10):669–700
Gray WM (1975) Tropical cyclone genesis. Dept. of Atmospheric Science Paper No 234, Colorado State University, Fort Collins, p 121
Gray WM (1984) Atlantic season hurricane frequency. Part I: El Niño and 30 mb Quasi-Biennial Oscillation influences. Mon Weather Rev 112:1649–1668
Gray WM (1990) Strong association between West African rainfall and US landfall of intense hurricanes. Science 249(4974):1251–1256
Gray WM (1993) Tropical cyclone formation and intensity change. ICSU/WMO international symposium on tropical cyclone disasters, Beijing, 12–16 Oct 1992
Gray WM (1995) Tropical cyclones. Unpublished report prepared at the invitation of the World Meteorological Organization
Gray WM (1998) The formation of tropical cyclones. Meteorol Atmos Phys 67:37–69
Gray WM (2003) Twentieth Century challenges and milestones. In Simpson R (ed) Hurricane!, coping with disaster. AGU, Washington D.C., pp 3–38
Gray WM, Neumann C, Tsui TL (1991) Assessment of the role of aircraft reconnaissance on tropical cyclone analysis and forecasting. Bull Am Meteorol Soc 71(12):1867–1883
Gray WM, Sheaffer JD, Landsea CW (1997) Climate trends associated with multi-decadal variability of Atlantic hurricane activity. In: Diaz HF, Pulwarty RW (eds) Hurricanes—climate and socioeconomic impacts. Springer, New York, pp 15–52
Gregory JM (2000) Vertical heat transports in the ocean and their effect on time-dependent climate change. Clim Dyn 16:501–515
Grossmann I (2008) Tropical cyclones, climate change, and scientific uncertainty: What do we know, what does it mean, what should be done? Climate decision making center report. Carnegie Mellon University, Pittsburgh, p 61
Grossmann I (2009) Atlantic hurricane risks: preparing for the plausible. Env Sc Tech 43(20):7604–7608
Grossmann I, Klotzbach P (2009) A review of North Atlantic modes of natural variability and their driving mechanisms. J Geophys Res 114:D24107
Gualdi S, Scoccimarro E, Navarra A (2008) Changes in tropical cyclone activity due to global warming: results from a high-resolution coupled general circulation model. J Clim 21(20):5204–5228
Guard CP, Carr LE, Wells FH, Jeffries RA, Gural ND, Edson DK (1992) Joint typhoon warning center and the challenges of multibasin tropical cyclone forecasting. Weather Forecasting 7:328–352
Hasegawa A, Emori S (2007) Effect of air-sea coupling in the assessment of CO2-induced intensification of tropical cyclone activity. Geophys Res Lett 34:L05701
Henderson-Sellers A, Zhang H, Berz G, Emanuel K, Gray W, Landsea CW, Holland G, Lighthill H, Shieh SL, Webster P, McGuffie K (1998) Tropical cyclones and global climate change: a post-IPCC assessment. Bull Am Meteorol Soc 79(1):19–38
Hoarau K, Chalonge L, Hoarau JP (2006) The reasons for a reanalysis of the typhoon’s intensity in the Western North Pacific. AMS 27th Conf. hurricanes and trop. met., Monterey, CA, 24–28th April
Holland GJ (1997) The maximum potential intensity of tropical cyclones. J Atmos Sci 54:2519
Holland GJ (2007) Misuse of landfall as a proxy for Atlantic tropical cyclone activity. Eos Trans AGU 88(36):349–356
Holland GJ, Webster PJ (2007) Heightened tropical cyclone activity in the North Atlantic: natural variability or climate trend? Philos Trans R Soc London Ser A 365:2695–2716. doi:10.1098/rsta.2007.2083
Hoyos CD, Agudelo PA, Webster PJ, Curry JA (2006) Deconvolution of the factors contributing to the increase in global hurricane intensity. Science 312:94–97
Hussain F (2008) Effectivness of Technological Interventions for Education and Information Service in Rural South Asia, PhD thesis, Engineering and Public Policy, Carnegie Mellon University, 193pp
Jaffee D, Kunreuther H, Michel-Kerjan E (2008) Long Term Insurance (LTI) for Addressing Catastrophe Risk, report of the Risk Management and Decision Processes Center, The Wharton School, University of Pennsylvania, 36pp
Jarvinen BR (2006) Storm tides in 12 tropical cyclones including four intense New England hurricanes. NOAA/Tropical Prediction Center/National Hurricane Center
Jarvinen BR, Neumann CJ, Davis MAS (1984, updated 1988) A tropical cyclone data tape for the North Atlantic basin, 1886-1983: contents, limitations, and uses. NOAA Tech. Memo NWS HHC 22
Kamahori H, Yamazaki N, Mannoji N, Takahashi K (2006) Variability in intense tropical cyclone days in the Western North Pacific. Sci Online Lett Atmos 2:104–107
Kaplan J, DeMaria M (2003) Large-scale characteristics of rapidly intensifying tropical cyclones in the North Atlantic basin. Weather Forecasting 18:1093–1108
Kingdon JW (1984) Agendas, alternative and public polices. Little Brown and Company, New York, 240pp
Kleindorfer P, Grossi P, Kunreuther H (2005) The impact of mitigation on homeowners and insurers: an analysis of model cities. In: Grossi P, Kunreuther H (eds) Catastrophe modeling: a new approach to managing risk. Springer, New York, pp 69–91
Klotzbach PJ (2006) Trends in global tropical cyclone activity over the past twenty years (1986–2005). Geophys Res Lett 33:L010805
Klotzbach PJ, Gray WM (2008) Multidecadal variability in North Atlantic tropical cyclone activity. J Clim 21:3929–3935
Knaff JA, Sampson CR (2006) Reanalysis of West Pacific tropical cyclone intensity 1966–1987. AMS 27th Conf. hurricanes and trop. met., Monterey, CA, 24–28th April
Knapp KR, Kossin JP (2007) New global tropical cyclone data from ISCCP B1 geostationary satellite observations. J Appl Remote Sens 1:13505–13510
Knutson TR, Tuleya RE (2004) Impacts of CO2-induced warming on simulated hurricane intensity and precipitation: sensitivity to the choice of climate model and convective parameterization. J Clim 17(18):3477–3495
Knutson TR, Tuleya RE, Shen W, Ginis I (2001) Impacts of CO2-induced warming on hurricane intensities as simulated in a hurricane model with ocean coupling. J Clim 14:2458–2468
Knutson TR, Sirutis JJ, Garner ST, Held IM, Tuleya RE (2007) Simulation of the recent multidecadal increase of Atlantic hurricane activity using an 18-km-grid regional model. Bull Am Meteorol Soc 88(10):1549–1565
Knutson TR, Sirutis JJ, Garner ST, Vecchi GA, Held IM (2008) Simulated reduction in Atlantic hurricane frequency under twenty-first-century warming conditions. Nature Geoscience 1:359–364
Kossin JP (2008) Is the North Atlantic hurricane season getting longer. Geophys Res Lett 35:L23705. doi:10.1029/2008GL036012
Kossin JP, Vimont DJ (2007) A more general framework for understanding Atlantic hurricane variability and trends. Bull Am Meteorol Soc 88:1767–1781
Kossin JP, Knapp JR, Vimont DJ, Murnane RJ, Harper BA (2007) A globally consistent reanalysis of hurricane variability and trends. Geophys Res Lett 34:L04815
Kunreuther HC, Michel-Kerjan EO, Doherty NA, Grace MF, Klein RW, Pauly MV (2009) At war with the Weather: managing large-scale risks in a new era of catastrophes. MIT, Boston, p 416
Lander M (2008) A comparison of typhoon best track data in the western north pacific: irreconcilable differences. AMS 28th Conf. on Hurricanes and Trop. Meteorology, Orlando, Florida, 28 April–2 May 2008
Landsea CW (2005) Hurricanes and global warming. Arising from K. Emanuel Nature 436 (2005). Nature 438(22/29):E11–E13
Landsea CW (2007) Counting Atlantic tropical cyclones back to 1900. Eos Trans AGU 88(18):197–208
Landsea CW, Gray WM (1992) The strong association between Western Sahelian monsoon rainfall and intense Atlantic hurricanes. J Clim 5:435–453
Landsea CW, Bell GD, Gray WM, Goldenberg SB (1998) The extremely active 1995 Atlantic hurricane season: environmental conditions and verification of seasonal forecasts. Mon Weather Rev 126:1174–1193
Landsea CW, Pielke RA Jr., Mestas-Nuñez AM, Knaff JA (1999) Atlantic basin hurricanes: indices of climatic changes. Clim Change 42:89–129
Landsea CW, Anderson C, Charles N, Clark G, Dunion J, Fernandez-Partagas J, Hungerford P, Neumann C, Zimmer M (2004) The Atlantic hurricane database reanalysis project: documentation for the 1851–1910 alterations and additions to the HURDAT database. In: Murname RJ, Liu KB (eds) Hurricanes and typhoons: past, present and future. Columbia University Press, West Sussex
Landsea CW, Harper BA, Hoarau K, Knaff JA (2006) Can we detect trends in extreme tropical cyclones? Science 313:452454
Landsea CW, Glenn DA, Bredemeyer W, Chenoweth M, Ellis R, Gamache J, Hufstetler L, Mock C, Perez R, Prieto R, Sanchez-Sesma J, Thomas D, Woolcock L (2008) A renalysis of the 1911-1920 Atlantic hurricane database. J Clim 21:2138–2168
Landsea CW, Vecchi GA, Bengtsson L, Knutson TR (2009) Impact of duration thresholds on Atlantic tropical cyclone counts. J Clim 23:2508–2519
Lave LB, Apt J (2006) Planning for natural disasters in a stochastic world. J Risk Uncertain 33:117–130
Ludlum DM (1963) Early American hurricanes 1492–1870. American Meteorological Society, Boston
Manabe S, Holloway JL Jr, Stone HM (1970) Tropical circulation in a time-integration of a global model of the atmosphere. J Atmos Sci 27:580–612
Mann ME, Emanuel KA (2006) Atlantic hurricane trends linked to climate change. Eos Trans AGU 87(24):233–244
Mann ME, Sabbatelli TA, Neu U (2007a) Evidence for a modest undercount bias in early historical Atlantic tropical cyclone counts. Geophys Res Lett 34:L22707
Mann ME, Emanuel KA, Holland GJ, Webster P (2007b) Atlantic tropical cyclones revisited. Eos Trans AGU 88(36):349–350
Marshall J, Kushnir Y, Battisti D, Chang P, Czaja A, Dickson R, Hurrell J, McCartney M, Saravanan R, Visbeck M (2001) North Atlantic climate variability: phenomena, impacts and mechanisms. Int J Climatol 21(15):1863–1898
Maue R (2009) Northern hemisphere tropical cyclone activity. Geophys Res Lett 36:L05805. doi:10.1029/2008GL035946
McDonald RE, Bleaken DG, Cresswell DR, Pope VD, Senior CA (2005) Tropical storms: representation and diagnosis in climate models and the impacts of climate change. Clim Dyn 25:19–36
Meehl, GA, Stocker, TF, Collins, WD, Friedlingstein, P, Gaye, AT, Gregory, JM, Kitoh, A, Knutti, R, Murphy, JM, Noda, A, Raper, SCB, Watterson, IG, Weaver, AJ, Zhao, ZC (2007) Global climate projections. In: Climate change 2007, the physical science basis. Contributions of working group I to the fourth assessment report of the Intergovernmental Panel on Climate Change
Merryfield WJ (2006) Changes to ENSO under CO2 doubling in a multimodel ensemble. J Clim 19:4009–4027
Michaels PJ, Knappenberger PC, Davis RE (2006) Sea-surface temperatures and tropical cyclones in the Atlantic basin. Geophys Res Lett 33:L09708. doi:10.1029/2006GL025757
Namias J (1963) Interactions of circulation and weather between hemispheres. Mon Weather Rev 91:482–286
Nolan DS, Rappin ED (2008) Increased sensitivity of tropical cyclogenesis to wind shear in higher SST environments. Geophys Res Lett 35:L14805. doi:10.1029/2008GL034147
Nyberg J, Malmgren BA, Winter A, Jury MR, Kilbourne KH, Quinn TM (2007) Low Atlantic hurricane activity in the 1970s and 1980s compared to the past 270 years. Nature 447:698–702
Oouchi KJ, Yoshimura J, Yoshimura H, Mizuta R, Kusunoki S, Noda A (2006) Tropical cyclone climatology in a global-warming climate as simulated in a 20 km-mesh global atmospheric model: frequency and wind intensity analysis. J Meteorol Soc Jpn 84(2):259–276
Palmén E (1948) On the formation and structure of tropical cyclones. Geophysica 3:26–38
Persing J, Montgomery MT (2005) Is environmental CAPE important in the determination of maximum possible hurricane intensity? J Atmos Sci 62:542–550
Piddington H (1860) The sailor’s horn-book for the law of storms. Williams & Norgate, London
Pielke RA Jr, Landsea CW (1999) La Niña, El Niño, and Atlantic hurricane damages in the United States. Bull Am Meteorol Soc 80(10):2027–2033
Pielke RA, Landsea C, Mayfield M, Laver J, Pasch R (2005) Hurricanes and global warming. Bull Am Meteorol Soc 86:1571–1575
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
Rappaport EN, Simpson RH (2003) Impact of technologies from two world wars. In Simpson R (ed) Hurricane: coping with disaster. AGU, Washington D.C., pp 39–62
Ritchie EA, Simpson J, Liu WT, Halverson J, Velden C, Brueske KF, Pierce H (2003) Present day satellite technology for hurricane research: a closer look at formation and intensification. In Simpson R (ed) Hurricane!, coping with disaster. AGU, Washington D.C, pp 249–290
Royer JF, Chauvin F, Timbal B, Araspin P, Grimal D (1998) A GCM study of the impact of greenhouse gas increase on the frequency of occurrence of tropical cyclones. Clim Change 38:307–343
Saunders MA, Lea AS (2008) Large contribution of sea surface warming to recent increase in Atlantic hurricane activity. Nature 451:557–561
Shapiro LJ, Goldenberg SB (1998) Atlantic sea surface temperatures and tropical cyclone formation. J Clim 11:578–590
Shea DJ, Gray WM (1973) The hurricane’s inner core region I: symmetric and asymmetric structure. J Atmos Sci 30:1544–1564
Shen W, Tuleya RE, Ginis I (2000) A sensitivity study of the thermodynamic environment on GFDL model hurricane intensity: implications for global warming. J Clim 13:109–121
Shepherd JM, Knutson T (2007) The current debate on the linkage between global warming and hurricanes. Geography Compass 1(1):1–24
Smed J (1943) Annual and seasonal variations in salinity of the North Atlantic surface water. Rapp. Et Process-Verb. des Re’unions, International Council for exploration of the sea, pp 77–94
Smith RK, Montgomery MT, Vogl S (2008) A critique of Emanuel’s hurricane model and potential intensity theory. Quart J Roy Meteor Soc 134:551–561
Solow AR, Beet AR (2008) On the incompleteness of the historical record of North Atlantic tropical cyclones. Geophys Res Lett 35:L11803. doi:10.1029/2008GL033546
Solow AR, Moore L (2002) Testing for trend in North Atlantic hurricane activity, 1900-1998. J Clim 15:3111–3114
Sriver R, Huber M (2006) Low frequency variability in globally-integrated tropical cyclone power dissipation. Geophys Res Lett 33:L11705
Sugi M, Noda A, Sato N (2002) Influence of the global warming on tropical cyclone climatology: an experiment with the JMA global model. J Meteorol Soc Jpn 80(2):249–272
Sugi M, Murakami H, Yoshimura J (2009) A reduction in global tropical cyclone frequency due to global warming. Sc Online Lett Atmos 5:164–167
Sun D, Lau KM, Kafatos M (2008) Contrasting the 2007 and 2005 hurricane seasons: evidence of possible impacts of Saharan dry air and dust on tropical cyclone activity in the Atlantic basin. Geophys Res Lett 35:L15405. doi:10.1029/2008GL034529
Sutton RT, Hodson DLR (2005) Atlantic ocean forcing of North American and European Summer Climate. Science 309:115–118
Swanson KL (2007) Impact of scaling behavior on tropical cyclone intensities. Geophys Res Lett 34:L18815. doi:10.1029/2007GL030851
Swanson KL (2008) Nonlocality of Atlantic tropical cyclone intensities. Geochem Geophys Geosyst 9:Q04V01. doi:10.1029/2007GC001844
Talib NN (2007) The black swan: the impact of the highly improbable. Random House 2007, p 366
Tsutsui J (2002) Implications of anthropogenic climate change for tropical cyclone activity: a case study with the NCAR CCM2. J Meteorol Soc Jpn 80(1):45–65
Vecchi GA, Knutson TR (2008) On estimates of historical North Atlantic tropical cyclone activity. J Clim 21:3580–3600
Vecchi GA, Soden BJ (2007a) Effect of remote sea surface temperature change on tropical cyclone potential intensity. Nature 450(7172):1066–1070
Vecchi GA, Soden BJ (2007b) Increased tropical Atlantic wind shear in model projections of global warming. Geophys Res Lett 34:L08702
Vecchi GA, Swanson KL, Soden BJ (2008) Whither hurricane activity? Science 322:687–689
Velden C, Harper B, Wells F, Beven JLII, Zehr R, Olander T, Mayfield M, Guard C, Lander M, Edson R, Avila L, Burton A, Turk M, Kikuchi A, Christian A, Caroff P (2006) The Dvorak tropical cyclone intensity estimation technique. Bull Am Meteorol Soc 87:1195–1210
Vimont DJ, Kossin JP (2007) The Atlantic Meridional Mode and hurricane activity. Geophys Res Lett 34:L07709
Walker GT (1924) Correlations in seasonal variations of weather. Ind Met Mem 24(IX):275–332
Walsh KJE, Nguyen KC,McGregor JL (2004) Fine-resolution regional climate model simulations of the impact of climate change on tropical cyclones near Australia. Clim Dyn 22:47–56
Wang Y, Wu CC (2004) Current understanding of tropical cyclone structure and intensity changes—a review. Meteorol Atmos Phys 87:257–278
Wang C, Lee S-K, Enfield DB (2008) Atlantic Warm Pool acting as a link between Atlantic Multi-decadal Oscillation and Atlantic tropical cyclone activity. Geochem Geophys Geosys 9(5)
Webster PJ, Holland GJ, Curry JA, Chang HR (2005) Changes in tropical cyclone number, duration and intensity in a warming environment. Science 309:1844–1846
Willoughby HE, Clos JA, Shoreibah MG (1982) Concentric eyewalls, secondary wind maxima, and the evolution of the hurricane vortex. J Atmos Sci 39:395–411
Wilson RM (1999) Statistical aspects of major (intense) hurricanes in the Atlantic basin during the past 49 hurricane seasons (1950–1998): implications for the current season. Geophys Res Lett 26(19):2957–2960
Wing AA, Sobel AH, Camargo SJ (2007) Relationship between the potential and actual intensities of tropical cyclones on interannual time scales. Geophys Res Lett 34:L08810. doi:10.1029/2006GL028581
Wohlleben TMH,Weaver AJ (1995) Interdecadal climate variability in the subpolar North Atlantic. Clim Dyn 11:459–467
Wong S, Dessler AE (2005) Suppression of deep convection over the tropical North Atlantic by the Saharan Air Layer. Geophys Res Lett 32:L09808. doi:10.1029/2004GL022295
World Meteorological Organization (2006) Statement on tropical cyclones and climate change. WMO 6th International Workshop on Tropical Cyclones, San Jose
Wu L, Wang B (2008) What has changed the proportion of intense hurricanes in the last 30 years. J Clim 21:1432–1439
Wu L, Wang B, Braun SA (2008) Implications of tropical cyclone power dissipation index. Int J Climatol 28:727–731
Wu MC, Yeung KH, Chang WL (2006) Trends in Western North Pacific tropical cyclone intensity. Eos Trans AGU 87(48):537–548
Xie L, Yan T, Pietrafesa L (2005) The effect of Atlantic sea surface temperature dipole mode on hurricanes: implications for the 2004 Atlantic hurricane season. Geophys Res Lett 32:L03701
Yoshimura J, Sugi M, Noda A (2006) Influence of greenhouse warming on tropical cyclone frequency. J Meteorol Soc Jpn 84 (2):405–428
Zehr RM (1992) Tropical cyclogenesis in the western North Pacific. NOAA Technical Report NESDIS 61
Zeng Z, Wang Y, Wu CC (2007) Environmental dynamical control of tropical cyclone intensity—an observational study. Mon Weather Rev 135:38–59
Zhang R (2007) Anticorrelated multidecadal variations between surface and subsurface tropical North Atlantic. Geophys Res Lett 34:L12713
Zhang R (2008) Coherent surface-subsurface fingerprint of the Atlantic meridional overturning circulation. Geophys Res Lett 35:L20705
Zhang R, Delworth TL (2006) Impact of Atlantic multidecadal oscillations on India/Sahel rainfall and Atlantic hurricanes. Geophys Res Lett 33:L17712
Zhao M, Held IM, Lin S-J, Vecchi GA (2009) Simulations of global hurricane climatology, interannual variability, and response to global warming using a 50 km resolution GCM. J Clim 22:6653–6678
Zickfeld K, Levermann A, Morgan MG, Kuhlbrodt T, Rahmstorf S, Keith DW (2007) Expert judgments on the response of the Atlantic meriodional overturning circulation to climate change. Clim Change 82:235–265
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Grossmann, I., Morgan, M.G. Tropical cyclones, climate change, and scientific uncertainty: what do we know, what does it mean, and what should be done?. Climatic Change 108, 543–579 (2011). https://doi.org/10.1007/s10584-011-0020-1
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10584-011-0020-1