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Tellus A: Dynamic Meteorology and Oceanography Volume 62, 2010 - Issue 3
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Original Articles

Structural variation in genesis and landfall locations of North Atlantic tropical cyclones related to SST

Jonas RumpfUlm University, Institute of Stochastics, 89069 Ulm, Germany;Correspondence[email protected]
,
Helga WeindlMunich Reinsurance Company, 80791 Munich, Germany
,
Eberhard FaustMunich Reinsurance Company, 80791 Munich, Germany
&
Volker SchmidtUlm University, Institute of Stochastics, 89069 Ulm, Germany;
Pages 243-255 | Received 13 Mar 2009, Accepted 15 Jan 2010, Published online: 15 Dec 2016

References

  • Cacoullous, T. 1966. Estimation of a multivariate density. Ann. I. StaL Math. 18 (2), 179–189.
  • Camargo, S. J., Emanuel, K. A. and Sobel, A. H. 2007. Use of a genesis potential index to diagnose ENSO effects on tropical cyclone genesis. J. Climate 20,4819–4834.
  • Chan, J., Duan, Y. and Shay, L. 2001. Tropical cyclone intensity change from a simple ocean-atmosphere coupled model. J. Atmos. Sci. 58 (2), 154–172.
  • Dailey, P. S., Zuba, A., Ljung, G., Dima, I. M. and Guin, J. 2009. On the relationship between North Atlantic sea surface temperatures and U.S. hurricane landfall risk. J. AppL MeteoroL Clim. 48 (1), 111–129.
  • Diggle, P. J. 2003. Statistical Analysis of Spatial Point Patterns, 2nd Edition, Arnold, London.
  • Emanuel, K. A. and Nolan, D. S. 2004. Tropical cyclone activity and global climate. Proceedings of the 26th Conference on Hurricanes and Tropical Meteorology, Miami, FL, 240–241.
  • Emanuel, K., Ravela, S., Vivant, E. and Risi, C. 2006. A statistical deterministic approach to hurricane risk assessment. B. Am. MeteoroL Soc. 87, 299–314.
  • Epanechnilcov, V. A. 1969. Non-parametric estimation of a multivariate probability density. Theor. Probab. Appl 14 (1), 153–158.
  • Goldenberg, S. B., Landsea, C. W., Mestas-Nuñez, A. M. and Gray, W. M. 2001. The recent increase in Atlantic hurricane activity: causes and implications. Science 293, 474–479.
  • Gray, W. M. 1979. Hurricanes: their formation, structure and likely role in the tropical circulation. In: Meteorology Over Tropical Oceans (ed. D. B. Shaw), Roy. Meteor. Soc., Berkshire, 155–218.
  • Hall, T. M. and Jewson, S. 2007. Statistical modeling of North Atlantic tropical cyclone tracks. Tellus 59A, 486–498.
  • Hall, T. M. and Jewson, S. 2008. Comparison of local and basinwide methods for risk assessment of tropical cyclone landfall. J. AppL Meteorol. Clim. 47, 361–367.
  • Holland, G. J. and Webster, P. J. 2007. Heightened tropical cyclone activity in the North Atlantic: natural variability or climate trend? Philos. Trans. R. Soc. London, Ser A 365 (1860), 2695–2716.
  • Illian, J., Penttinen, A., Stoyan, H. and Stoyan, D. 2008. Statistical Analysis and Modelling of Spatial Point Patterns, J. Wiley & Sons, Chichester.
  • Jarvinen, B. R., Neumann, C. J. and Davis, M. A. S. 1984. A tropical cyclone data tape for the North Atlantic basin, 1886-1983, contents, limitations and uses. NOAA Tech. Memo. NVVS NHC 22, Miami, FL.
  • Kelsall, J. E. and Diggle, P. J. 1995. Non-parametric estimation of spatial variation in relative risk. Stat. Med. 14, 2335–2342.
  • Knight, J. R., Allan, R. J., Folland, C. K., Vellinga, M. and Mann, M. E. 2005. A signature of persistent natural thermohaline circulation cycles in observed climate. Geophys. Res. Lett. 32, L20708.
  • Kossin, J. P. and Vimont, D. J. 2007. A more general framework for understanding atlantic hurricane variability and trends. B. Am. MeteoroL Soc. 88 (11), 1767–1781.
  • Latif, M., Keenlyside, N. and Bader, J. 2007. Tropical sea surface temperature, vertical wind shear, and hurricane development. Geophys. Res. Lett. 34, L01710.
  • Mann, M. E. and Emanuel, K. A. 2006. Atlantic hurricane trends linked to climate change. EOS, Trans., Am. Geophys. Un. 87, 233–244.
  • Møller, J. and Waagepetersen, R. P. 2003. Statistical Inference and Simulation for Spatial Point Processes, Chapman & Hall, New York.
  • Rayner, N. A., Parker, D. E., Horton, E. B., Folland, C. K., Alexander, L. V. and co-authors. 2003. Global analyses of sea surface temperature, sea ice, and night marine air temperature since the late nineteenth century. J. Geophys. Res. 108 (D14) 4407.
  • Rumpf, J., Weindl, H., Hoppe, P., Rauch, E. and Schmidt, V. 2007. Stochastic modelling of tropical cyclone tracks. Math. Meth. Oper Res. 66 (3), 475–490.
  • Rumpf, J., Weindl, H., Hoppe, R, Rauch, E. and Schmidt, V. 2009. Tropical cyclone hazard assessment using model-based track simulation. Nat. Hazards 48 (3), 383–398.
  • Saunders, M. A. and Lea, A. S. 2008. Large contribution of sea surface warming to recent increase in Atlantic hurricane activity. Nature 451 (7178), 557–560.
  • Scott, D. W. 1992. Multivariate Density Estimation: Theory, Practice, and Visualization, Wiley, New York.
  • Silverman, B. W. 1986. Density Estimation for Statistics and Data Analysis, Chapman & Hall, London.
  • Swanson, K. L. 2008. Nonlocality of Atlantic tropical cyclone intensities. Geochem. Geophys. Geosyst. 9, Q04V01.
  • Vellinga, M. and Wu, P. 2004. Low-latitude freshwater influence on centennial variability of the Atlantic thermohaline circulation. J. Clim. 17,4498–4511.
  • Wand, M. P. and Jones, M. C. 1995. Kernel Smoothing, Chapman & Hall, London.
  • Wang, C., Lee, S.-K. and Enfield, D. B. 2008. Atlantic warm pool acting as a link between Atlantic multidecadal oscillation and Atlantic tropical cyclone activity. Geochem. Geophys. Geosyst. 9, Q05V03.
  • Zhang, R. and Delworth, T. L. 2006. Impact of Atlantic multidecadal oscillations on India/Sahel rainfall and Atlantic hurricanes. Geophys. Res. Lett. 33, L17712.

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