• Ali MM, Jagadeesh PSV, Jain S. 2007. Effects of eddies on Bay of Bengal cyclone intensity. EOS Transactions American Geophysical Union 88(8), DOI: 10.1029/2007EO080001.
  • Balaguru K, Chang P, Saravanan R, Leung LR, Xu Z, Li M, Hsieh J. 2012. Ocean barrier layers' effect on tropical cyclone intensification. Proceedings of the National Academy of Sciences 109: 1434314347.
  • Carton JA, Chepurin G, Cao X, Giese B. 2000. A simple ocean data assimilation analysis of the global upper ocean 1950–95, Part I: methodology. Journal of Physical Oceanography 30: 294309.
  • DeMaria M, Mainelli M, Shay LK, Knaff JA, Kaplan J. 2005. Further improvements to the statistical Hurricane Intensity Prediction Scheme (SHIPS). Weather and Forecasting 20: 531543.
  • DeMaria M. 1996. The effect of vertical shear on tropical cyclone intensity change. Journal of Atmospheric Sciences 53: 20762087.
  • Emanuel K. 1999. Thermodynamic control of hurricane intensity. Nature 401: 665669.
  • Emanuel K, DesAutels C, Holloway C, Korty R. 2004. Environmental control of Tropical cyclone intensity. Journal of Atmospheric Sciences 61: 843858.
  • Evan AT, Kossin JP, Chung CE, Ramanathan V. 2011. Arabian Sea tropical cyclones intensified by emissions of black carbon and other aerosols. Nature 479, DOI: 10.1038/nature10552.
  • Goni GJ, Kamholz S, Garzoli S, Olson D. 1996. Dynamics of the Brazil-Malvinas confluence based on inverted echo sounders and altimetry. Journal of Geophysical Research 101(16): 273289.
  • Goni GJ, DeMaria M, Knaff J, Sampson C, Ginis I, Bringas F, Mavume A, Lauer C, Lin II, Ali MM, Sandery P, Ramos-Buarque S, Kang K, Mehra A, Chassgnet E, Halliwell G. 2009. Applications of satellite-derived ocean measurements to tropical cyclone intensity forecasting. Oceanography 22: 176183.
  • Goni GJ, Trinanes JA. 2003. Ocean thermal structure monitoring could aid in the intensity forecast of tropical cyclones. EOS Transactions American Geophysical Union 84(51): 577578.
  • Gray WM. 1968. Global view of the origin of tropical disturbances and storms. Monthly Weather Review 96: 669700.
  • Hanley D, Molinari J, Keyser D. 2001. A composite study of the interactions between tropical cyclones and upper tropospheric troughs. Monthly weather review 129: 25702584.
  • Kimball SK, Evans JL. 2002. Idealized numerical simulations of hurricane-trough interaction. Monthly weather review 130: 22102227.
  • Knutson TR, McBride JL, Chan JCL, Emanuel K, Holland G, Landsea C, Held I, Kossin JP, Srivastava AK, Sugi M. 2010. Tropical cyclones and climate change. Nature Geoscience 3.3: 157163.
  • Lin II, Chen C, Pun I, Liu WT, Wu C. 2009. Warm ocean anomaly, air sea fluxes and the rapid intensification of tropical cyclone Nargis 2008. Geophysical Research Letters 36, DOI: 10.1029/ 2008GL0235815.
  • Mainelli M, DeMaria M, Shay LK, Goni G. 2008. Application of oceanic heat content estimation to operational forecasting of recent Atlantic category 5 Hurricanes. Weather and Forecasting 23: 316.
  • Nagamani PV, Ali MM, Goni GJ, Pedro D, Pezzulo JC, Udaya Bhaskar TVS, Gopalakrishna VV, Kurian N. 2012. Validation of satellite-derived tropical cyclone heat potential with in situ observations in the north Indian Ocean. Remote Sensing Letters 3: 615620.
  • Paterson LA, Hanstrum BN, Davidson NL, Weber HC. 2005. Influence of environmental vertical wind shear on the intensity of Hurricane-strength tropical cyclones in the Australian region. Monthly Weather Review 133: 36443660.
  • Shay LK, Goni GJ, Black PG. 2000. Effect of a warm ocean ring on hurricane Opal. Monthly Weather Review 128: 13661383.
  • Singh OP, Ali Khan TM, Rahman MS. 2000. Changes in the frequency of tropical cyclones over the north Indian Ocean. Meteorology and Atmospheric Physics 75: 1120.
  • Wada A, Usui N. 2007. Importance of tropical cyclone heat potential for tropical cyclone intensity and intensification in the western north Pacific J. Oceanography 63: 427447.
  • Wang B, Xu S, Wu L. 2012. Intensified Arabian Sea tropical storms. Nature 489, DOI: 10.1038/nature11470.