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References

  • Bender, M. A., and I. Ginis (2000), Real-case simulations of hurricane-ocean interaction using a high-resolution coupled model: Effects on hurricane intensity, Mon. Weather Rev., 128, 917946.
  • Cangialosi, J. P., and J. L. Franklin (2011), 2010 National Hurricane Center forecast verification report, technical report, Natl. Hurricane Cent., Miami, Fla. [Available at http://www.nhc.noaa.gov/verification/pdfs/Verification_2010.pdf.]
  • Chu, J.-H., C. R. Sampson, A. S. Levine, and E. Fukada (2002), The Joint Typhoon Warning Center tropical cyclone best-tracks, 1945–2000, Ref. NRL/MR/7540-02-16, Nav. Res. Lab., Washington, D. C.
  • Cione, J. J., and E. W. Uhlhorn (2003), Sea surface temperature variability in hurricanes: Implications with respect to intensity change, Mon. Weather Rev., 131, 17831796.
  • DeMaria, M. (1996), The effect of vertical shear on tropical cyclone intensity change, J. Atmos. Sci., 53, 20762087.
  • DeMaria, M., M. Mainelli, L. K. Shay, J. A. Knaff, and J. Kaplan (2005), Further improvements to the statistical hurricane intensity prediction scheme (SHIPS), Weather Forecast., 20, 531543.
  • Emanuel, K. (1988), The maximum intensity of hurricanes, J. Atmos. Sci., 45, 11431155.
  • Emanuel, K. (1999), Thermodynamic control of hurricane intensity, Nature, 401, 665669.
  • Emanuel, K., C. DesAutels, C. Holloway, and R. Korty (2004), Environmental control of tropical cyclone intensity, J. Atmos. Sci., 61, 843858.
  • Fiorino, M., and R. L. Elsberry (1989), Some aspects of vortex structure related to tropical cyclone motion, J. Atmos. Sci., 46, 975990.
  • George, J. E., and W. M. Gray (1976), Tropical cyclone motion and surrounding parameter relationships, J. Appl. Meteorol., 15, 12521264.
  • Ginis, I. (2002), Tropical cyclone-ocean interactions, in Atmosphere-Ocean Interactions, Adv. Fluid Mech. Ser., vol. 33, edited by W. Perrie, pp. 83114, WIT Press, Southampton, U. K.
  • Goni, G., et al. (2009), Applications of satellite-derived ocean measurements to tropical cyclone intensity forecasting, Oceanography, 22, 190197.
  • Hart, R. E., R. N. Maue, and M. C. Watson (2007), Estimating local memory of tropical cyclones through MPI anomaly evolution, Mon. Weather Rev., 135, 39904005.
  • Holland, G. J. (1997), The maximum potential intensity of tropical cyclones, J. Atmos. Sci., 54, 25192541.
  • Houze, R. A., Jr., S. S. Chen, B. F. Smull, W.-C. Lee, and M. M. Bell (2007), Hurricane intensity and eyewall replacement, Science, 315, 12351239.
  • Landsea, C. W. (2005), Hurricanes and global warming, Nature, 438, E11E13.
  • Lin, I.-I., I.-F. Pun, and C.-C. Wu (2009), Upper-ocean thermal structure and the western North Pacific category 5 typhoons. Part II: Dependence on translation speed, Mon. Weather Rev., 137, 37443757.
  • Lloyd, I. D., and G. A. Vecchi (2011), Observational evidence for oceanic control on hurricane intensity, J. Clim., 24, 11381153.
  • Mainelli, M., M. DeMaria, L. K. Shay, and G. Goni (2008), Application of oceanic heat content estimation to operational forecasting of recent Atlantic category 5 hurricanes, Weather Forecast., 23, 316.
  • Malmstadt, J. C., J. B. Elsner, and T. H. Jagger (2010), Frequency and intensity of hurricanes within Florida's threat zone, in Hurricanes and Climate Change: Volume 2, edited by J. B. Elsner et al., pp. 191203, Springer, Dordrecht, Netherlands.
  • McAdie, C. J., C. W. Landsea, C. J. Neumann, J. E. David, E. Blake, and G. R. Hammer (2009), Tropical Cyclones of the North Atlantic Ocean, 1851-2006, Hist. Climatol. Ser., vol. 6-2, 238 pp., Natl. Clim. Data Cent., Asheville, N. C.
  • Merrill, R. T. (1988), Environmental influences on hurricane intensification, J. Atmos. Sci., 45, 16781687.
  • Peng, M. S., B.-F. Jeng, and R. T. Williams (1999), A numerical study on tropical cyclone intensification. Part I: Beta effect and mean flow effect, J. Atmos. Sci., 56, 14041423.
  • Pollard, R. T., P. B. Rhines, and R. O. R. Y. Thompson (1973), The deepening of the wind-mixed layer, Geophys. Fluid Dyn., 3, 381404.
  • Price, J. F. (1981), Upper ocean response to a hurricane, J. Phys. Oceanogr., 11, 153175.
  • Schade, L. R., and K. A. Emanuel (1999), The ocean's effect on the intensity of tropical cyclones: Results from a simple coupled atmosphere-ocean model, J. Atmos. Sci., 56, 642651.
  • Shay, L. K., G. J. Goni, and P. G. Black (2000), Effects of a warm oceanic feature on Hurricane Opal, Mon. Weather Rev., 128, 13661383.
  • Wang, Y., and C.-C. Wu (2004), Current understanding of tropical cyclone structure and intensity changes—A review, Meteorol. Atmos. Phys., 87, 257278.
  • Wu, C.-C., C.-Y. Lee, and I.-I. Lin (2007), The effect of the ocean eddy on tropical cyclone intensity, J. Atmos. Sci., 64, 35623578.
  • Zedler, S. E. (2009), Simulations of the ocean response to a hurricane: Nonlinear processes, J. Phys. Oceanogr., 39, 26182634.