K. M. Smalley, A. E. Dessler, S. Bekki, M. Deushi, M. Marchand et al., Contribution of different processes to changes in tropical lower-stratospheric water vapor in chemistry?climate models, Atmospheric Chemistry and Physics, vol.17, issue.13, pp.8031-8044, 2017.
URL : https://hal.archives-ouvertes.fr/insu-01393992

A. Podglajen, A. Hertzog, R. Plougonven, and N. ?agar, Assessment of the accuracy of (re)analyses in the equatorial lower stratosphere, Journal of Geophysical Research: Atmospheres, vol.119, issue.19, pp.11,166-11,188, 2014.

N. Butchart, I. Cionni, V. Eyring, T. G. Shepherd, D. W. Waugh et al., Chemistry?Climate Model Simulations of Twenty-First Century Stratospheric Climate and Circulation Changes, Journal of Climate, vol.23, issue.20, pp.5349-5374, 2010.

F. Chane-ming, S. Jolivet, Y. Liou, F. Jégou, D. Mekies et al., Elliptical Structures of Gravity Waves Produced by Typhoon Soudelor in 2015 near Taiwan, Atmosphere, vol.10, issue.5, p.260, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02987679

R. R. Garcia, A. K. Smith, D. E. Kinnison, Á. D. Cámara, and D. J. Murphy, Modification of the Gravity Wave Parameterization in the Whole Atmosphere Community Climate Model: Motivation and Results, Journal of the Atmospheric Sciences, vol.74, issue.1, pp.275-291, 2017.

E. Yi?it, P. Koucká-kní?ová, K. Georgieva, and W. Ward, A review of vertical coupling in the Atmosphere?Ionosphere system: Effects of waves, sudden stratospheric warmings, space weather, and of solar activity, Journal of Atmospheric and Solar-Terrestrial Physics, vol.141, pp.1-12, 2016.

H. L. Liu, J. M. Mcinerney, S. Santos, P. H. Lauritzen, M. A. Taylor et al., Gravity waves simulated by high-resolution Whole Atmosphere Community Climate Model, Geophysical Research Letters, vol.41, issue.24, pp.9106-9112, 2014.

A. De-la-camara, F. Lott, V. Jewtoukoff, R. Plougonven, and A. Hertzog, On the gravity wave forcing during the southern stratospheric final warming in LMDZ, J. Atmos. Sci, vol.73, pp.3213-3226, 2016.

J. F. Scinocca, An accurate spectral nonorographic gravity wave drag parameterization for general circulation models, J. Atmos. Sci, vol.60, pp.667-682, 2003.

J. P. Mccormack, S. D. Eckermann, and T. F. Hogan, Generation of a Quasi-Biennial Oscillation in an NWP Model Using a Stochastic Gravity Wave Drag Parameterization, Monthly Weather Review, vol.143, issue.6, pp.2121-2147, 2015.

D. C. Fritts and M. J. Alexander, Gravity wave dynamics and effects in the middle atmosphere, Reviews of Geophysics, vol.41, issue.1, 2003.

T. Tsuda, M. Nishida, C. Rocken, and R. H. Ware, A Global Morphology of Gravity Wave Activity in the Stratosphere Revealed by the GPS Occultation Data (GPS/MET), Journal of Geophysical Research: Atmospheres, vol.105, issue.D6, pp.7257-7273, 2000.

C. Ming, F. Roff, G. Robert, L. Leveau, and J. , Gravity waves characteristic over Tromelin island during the passage of cyclone Hudah, Geophys. Res. Lett, vol.29, pp.1-4, 2002.

Y. A. Liou, A. G. Pavelyev, J. Wickert, S. F. Liu, A. A. Pavelyev et al., Application of GPS radio occultation method for observation of the internal waves in the atmosphere, Journal of Geophysical Research, vol.111, issue.D6, 2006.

P. Preusse, S. Schroeder, L. Hoffmann, M. Ern, F. Friedl-vallon et al., New perspectives on gravity wave remote sensing by spaceborne infrared limb imaging, Atmospheric Measurement Techniques, vol.2, issue.1, pp.299-311, 2009.

C. I. Meyer, M. Ern, L. Hoffmann, Q. T. Trinh, and M. J. Alexander, Intercomparison of AIRS and HIRDLS stratospheric gravity wave observations, Atmospheric Measurement Techniques, vol.11, issue.1, pp.215-232, 2018.

M. A. Kuester, M. J. Alexander, and E. A. Ray, A Model Study of Gravity Waves over Hurricane Humberto (2001), Journal of the Atmospheric Sciences, vol.65, issue.10, pp.3231-3246, 2008.

S. Y. Kim and H. Y. Chun, Stratospheric Gravity Waves Generated by Typhoon Saomai (2006): Numerical Modeling in a Moving Frame Following the Typhoon, Journal of the Atmospheric Sciences, vol.67, issue.11, pp.3617-3636, 2010.

D. Chen, Z. Chen, and D. R. Lü, Spatiotemporal spectrum and momentum flux of the stratospheric gravity waves generated by a typhoon, Science China Earth Sciences, vol.56, issue.1, pp.54-62, 2012.

P. Preusse, M. Ern, P. Bechtold, S. D. Eckermann, S. Kalisch et al., Characteristics of gravity waves resolved by ECMWF, Atmospheric Chemistry and Physics, vol.14, issue.19, pp.10483-10508, 2014.

C. Ming, F. Ibrahim, C. Barthe, C. Jolivet, S. Keckhut et al., Observation and a numerical study of gravity waves during tropical cyclone Ivan, Atmos. Chem. Phys, vol.14, pp.641-658, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00817637

Y. A. Liou, A. G. Pavelyev, S. F. Liu, A. A. Pavelyev, N. Yen et al., FORMOSAT-3/COSMIC GPS radio occultation mission: Preliminary results, IEEE Trans. Geosci. Remote Sens, vol.45, pp.3813-3826, 2007.

D. Yu, X. Xu, J. Luo, and J. Li, On the Relationship between Gravity Waves and Tropopause Height and Temperature over the Globe Revealed by COSMIC Radio Occultation Measurements, Atmosphere, vol.10, issue.2, p.75, 2019.

K. Emanuel, 100 Years of Progress in Tropical Cyclone Research, Meteorological Monographs, vol.59, pp.15.1-15.68, 2018.

C. Ming, F. Chen, Z. Roux, and F. , Analysis of gravity waves produced by intense tropical cyclones, Ann. Geophys, vol.28, pp.531-547, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00961367

C. Ibrahim, F. Chane-ming, C. Barthe, and Y. Kuleshov, Diagnosis of tropical cyclone activity through gravity wave energy density in the southwest Indian Ocean, Geophysical Research Letters, vol.37, issue.9, pp.n/a-n/a, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00961369

L. Hoffmann, X. Wu, and M. J. Alexander, Satellite Observations of Stratospheric Gravity Waves Associated With the Intensification of Tropical Cyclones, Geophysical Research Letters, vol.45, issue.3, pp.1692-1700, 2018.

D. S. Nolan and J. A. Zhang, Spiral gravity waves radiating from tropical cyclones, Geophysical Research Letters, vol.44, issue.8, pp.3924-3931, 2017.

Y. Liu, D. L. Zhang, and M. K. Yau, A Multiscale numerical study of hurricane Andrew (1992). Part II: kinematics and inner-core Structures, Mon. Wea. Rev, vol.127, pp.2597-2616, 1999.

S. Chen, Y. Lu, W. Li, and Z. Wen, Identification and analysis of high-frequency oscillations in the eyewalls of tropical cyclones, Advances in Atmospheric Sciences, vol.32, issue.5, pp.624-634, 2015.

L. Wu and S. A. Braun, Effects of Environmentally Induced Asymmetries on Hurricane Intensity: A Numerical Study, Journal of the Atmospheric Sciences, vol.61, issue.24, pp.3065-3081, 2004.

D. J. Kepert, Tropical Cyclone Structure and Dynamics, World Scientific Series on Asia-Pacific Weather and Climate, pp.3-53, 2010.

J. C. Chan and D. J. Kepert, , pp.3-53, 2010.

W. C. Skamarock, J. B. Klemp, J. Dudhia, D. O. Gill, D. M. Barker et al., A description of the advanced research WRF version 3, NCAR Technical Note, 2008.

J. S. Kain, The Kain Fritsch Convective Parameterization: An Update, J. App. Meteor, vol.43, pp.170-181, 2004.

S. Y. Hong, Y. Noh, and J. Dudhia, A New Vertical Diffusion Package with an Explicit Treatment of Entrainment Processes, Monthly Weather Review, vol.134, issue.9, pp.2318-2341, 2006.

G. Thompson, P. R. Field, R. M. Rasmussen, and W. D. Hall, Explicit Forecasts of Winter Precipitation Using an Improved Bulk Microphysics Scheme. Part II: Implementation of a New Snow Parameterization, Monthly Weather Review, vol.136, issue.12, pp.5095-5115, 2008.

E. J. Mlawer, S. J. Taubman, P. D. Brown, M. J. Iacono, and S. A. Clough, Radiative transfer for inhomogeneous atmospheres: RRTM, a validated correlated-k model for the longwave, Journal of Geophysical Research: Atmospheres, vol.102, issue.D14, pp.16663-16682, 1997.

J. Dudhia, Numerical study of convection observed during the Winter Monsoon Experiment using a mesoscale two-dimensional model, J. Atmos. Sci, vol.46, pp.3077-3107, 1989.

L. M. Ma and X. W. Bao, Parametrization of Planetary Boundary-Layer Height with Helicity and Verification with Tropical Cyclone Prediction, Boundary-Layer Meteorology, vol.160, issue.3, pp.569-593, 2016.

D. Choudhury and S. Das, The sensitivity to the microphysical schemes on the skill of forecasting the track and intensity of tropical cyclones using WRF-ARW model, Journal of Earth System Science, vol.126, issue.4, pp.1-10, 2017.

W. K. Tao, J. J. Shi, S. S. Chen, S. Lang, P. L. Lin et al., The impact of microphysical schemes on hurricane intensity and track, Asia-Pacific Journal of Atmospheric Sciences, vol.47, issue.1, pp.1-16, 2011.

S. G. Gopalakrishnan, S. Goldenberg, T. Quirino, X. Zhang, F. Marks et al., Toward Improving High-Resolution Numerical Hurricane Forecasting: Influence of Model Horizontal Grid Resolution, Initialization, and Physics, Weather and Forecasting, vol.27, issue.3, pp.647-666, 2012.

D. L. Zhang and X. Wang, Dependence of Hurricane intensity and structures on vertical resolution and time-step size, Advances in Atmospheric Sciences, vol.20, issue.5, pp.711-725, 2003.

Z. Ma, J. Fei, X. Huang, and X. Cheng, Sensitivity of tropical cyclone intensity and structure to vertical resolution in WRF, Asia-Pacific Journal of Atmospheric Sciences, vol.48, issue.1, pp.67-81, 2012.

A. O. Fierro, R. F. Rogers, F. D. Marks, and D. S. Nolan, The Impact of Horizontal Grid Spacing on the Microphysical and Kinematic Structures of Strong Tropical Cyclones Simulated with the WRF-ARW Model, Monthly Weather Review, vol.137, issue.11, pp.3717-3743, 2009.

R. A. Vincent, S. J. Allen, and S. D. Eckermann, Gravity-Wave Parameters in the Lower Stratosphere, Gravity Wave Processes, pp.7-25, 1997.

K. Hamilton and . Ed, , pp.7-25, 1997.

K. Sato, S. Tateno, S. Watanabe, and Y. Kawatani, Gravity Wave Characteristics in the Southern Hemisphere Revealed by a High-Resolution Middle-Atmosphere General Circulation Model, Journal of the Atmospheric Sciences, vol.69, issue.4, pp.1378-1396, 2012.

A. E. Gill, Acknowledgments, International Geophysics, p.xv, 1982.

C. Ming, F. Molinaro, F. Leveau, J. Keckhut, P. Hauchecorne et al., Vertical short-scale structures in the upper tropospheric-lower stratospheric temperature and ozone at la Réunion island

F. Chane-ming, F. Molinaro, J. Leveau, P. Keckhut, A. Hauchecorne et al., Vertical short-scale structures in the upper tropospheric and lower stratospheric temperature and ozone at la Réunion Island (20.8°S 55.3°E), Journal of Geophysical Research: Atmospheres, vol.105, issue.D22, pp.26857-26870, 2000.

C. Lu, S. E. Koch, and N. Wang, Stokes parameter analysis of a packet of turbulence-generating gravity waves, Journal of Geophysical Research, vol.110, issue.D20, p.20105, 2005.

C. Ming, F. Vignelles, D. Jegou, F. Berthet, G. Renard et al., Gravity-wave effects on tracer gases and stratospheric aerosol concentrations during the 2013 ChArMEx campaign, Atmos. Chem. Phys, vol.16, pp.8023-8042, 2016.
URL : https://hal.archives-ouvertes.fr/insu-01398535

Y. L. Lin, N. C. Witcraft, and Y. H. Kuo, Dynamics of Track Deflection Associated with the Passage of Tropical Cyclones over a Mesoscale Mountain, Monthly Weather Review, vol.134, issue.12, pp.3509-3538, 2006.

L. Liu, Y. L. Lin, and S. H. Chen, Effects of Landfall Location and Approach Angle of an Idealized Tropical Cyclone over a Long Mountain Range, Frontiers in Earth Science, vol.4, 2016.

J. F. Wu, X. H. Xue, L. Hoffmann, X. K. Dou, H. M. Li et al., A case study of typhoon?induced gravity waves and the orographic impacts related to Typhoon Mindulle (2004) over Taiwan, Journal of Geophysical Research: Atmospheres, vol.120, issue.18, pp.9193-9207, 2015.

C. T. Chang, M. A. Vadeboncoeur, and T. C. Lin, Resistance and resilience of social?ecological systems to recurrent typhoon disturbance on a subtropical island: Taiwan, Ecosphere, vol.9, issue.1, 2018.

M. C. Wu, J. S. Hong, L. F. Hsiao, L. H. Hsu, and C. J. Wang, Effective Use of Ensemble Numerical Weather Predictions in Taiwan by Means of a SOM-Based Cluster Analysis Technique, Water, vol.9, issue.11, p.836, 2017.

M. A. Mallik, M. N. Ahasan, and M. A. Chowdhury, Simulation of track and landfall of tropical cyclone Viyaru and its associated strom surges using NWP models, Am. J. Mar. Sci, vol.3, pp.11-21, 2015.

A. Mehra, V. Tallapragada, Z. Zhang, B. Liu, L. Zhu et al., Advancing the state of the art in operational tropical cyclone forecasting at NCEP, Trop. Cyclone Res. Rev, vol.7, pp.51-56, 2018.

M. Mohapatra, D. P. Nayak, M. Sharma, R. P. Sharma, and B. K. Bandyopadhyay, Evaluation of official tropical cyclone landfall forecast issued by India Meteorological Department, Journal of Earth System Science, vol.124, issue.4, pp.861-874, 2015.

E. Omranian, H. O. Sharif, and A. A. Tavakoly, How Well Can Global Precipitation Measurement (GPM) Capture Hurricanes? Case Study: Hurricane Harvey, Remote Sensing, vol.10, issue.7, p.1150, 2018.

Y. Liu, D. L. Zhang, and M. K. Yau, A multiscale numerical study of Hurricane Andrew (1992). Part I: Explicit simulation and verification, Mon. Wea. Rev, vol.125, pp.3073-3093, 1997.

R. S. Jaiswal, S. R. Fredrick, M. Rasheed, V. S. Neela, and L. Zaveri, Study of TRMM estimated freezing level height in the 36 N-36 S region, Indian J. Geo-Mar. Sci, vol.44, pp.1071-1095, 2015.

D. L. Zhang, Y. Liu, and M. K. Yau, A multiscale numerical study of Hurricane Andrew (1992). Part V: Inner-core thermodynamics, Mon. Wea. Rev, vol.130, pp.2745-2763, 2002.

D. P. Stern and D. S. Nolan, On the Height of the Warm Core in Tropical Cyclones, Journal of the Atmospheric Sciences, vol.69, issue.5, pp.1657-1680, 2012.

C. Q. Kieu, V. Tallapragada, D. L. Zhang, and Z. Moon, On the Development of Double Warm-Core Structures in Intense Tropical Cyclones, Journal of the Atmospheric Sciences, vol.73, issue.11, pp.4487-4506, 2016.

D. L. Zhang and H. Chen, Importance of the upper-level warm core in the rapid intensification of a tropical cyclone, Geophysical Research Letters, vol.39, issue.2, pp.n/a-n/a, 2012.

D. P. Stern and F. Zhang, How Does the Eye Warm? Part I: A Potential Temperature Budget Analysis of an Idealized Tropical Cyclone, Journal of the Atmospheric Sciences, vol.70, issue.1, pp.73-90, 2013.

Z. Moon and C. Kieu, Impacts of the Lower Stratosphere on the Development of Intense Tropical Cyclones, Atmosphere, vol.8, issue.12, p.128, 2017.

H. R. Winterbottom and Q. Xiao, An Intercomparison of GPS RO Retrievals with Colocated Analysis and In Situ Observations within Tropical Cyclones, Advances in Meteorology, vol.2010, pp.1-10, 2010.

P. Vergados, Z. J. Luo, K. Emanuel, and A. J. Mannucci, Observational tests of hurricane intensity estimations using GPS radio occultations, Journal of Geophysical Research: Atmospheres, vol.119, issue.4, pp.1936-1948, 2014.

L. Rivoire, T. Birner, and J. A. Knaff, Evolution of the upper-level thermal structure in tropical cyclones, Geophysical Research Letters, vol.43, issue.19, pp.10,530-10,537, 2016.

Y. A. Liou, J. C. Liu, F. Chane-ming, J. S. Hong, C. Y. Huang et al., Remote Sensing for Improved Forecast of Typhoons, Remote Sensing of the Asian Seas, pp.251-267, 2018.

V. Barale and M. Gade, , pp.251-267, 2019.

S. Y. Kim, H. Y. Chun, and J. J. Baik, A numerical study of gravity waves induced by convection associated with Typhoon Rusa, Geophysical Research Letters, vol.32, issue.24, p.24816, 2005.

S. Y. Kim and H. Y. Chun, Impact of typhoon-generated gravity waves in the typhoon development, Geophysical Research Letters, vol.38, issue.1, pp.n/a-n/a, 2011.

L. Pfister, K. R. Chan, T. P. Bui, S. Bowen, M. Legg et al., Gravity waves generated by a tropical cyclone during the STEP tropical field program: A case study, Journal of Geophysical Research: Atmospheres, vol.98, issue.D5, pp.8611-8638, 1993.

S. K. Dhaka, M. Takahashi, Y. Shibagaki, M. D. Yamanaka, and S. Fukao, Gravity wave generation in the lower stratosphere due to passage of the typhoon 9426 (Orchid) observed by the MU radar at Shigaraki (34.85°N, 136.10°E), Journal of Geophysical Research, vol.108, issue.D19, p.4595, 2003.

S. Y. Kim, H. Y. Chun, and D. L. Wu, A study on stratospheric gravity waves generated by Typhoon Ewiniar: Numerical simulations and satellite observations, Journal of Geophysical Research, vol.114, issue.D22, 2009.

H. H. Bindu, M. V. Ratnam, V. Yesubabu, T. N. Rao, A. Kesarkar et al., Characteristics of cyclone generated gravity waves observed using assimilated WRF model simulations over Bay of Bengal, Atmos. Res, vol.180, pp.178-188, 2016.

K. Sato, Small-scale wind disturbances observed by the MU radar during the passage of Typhoon Kelly, J. Atmos. Sci, vol.50, pp.518-537, 1993.

T. Sato, N. Ao, M. Yamamoto, S. Fukao, T. Tsuda et al., A typhoon observed with the MU radar, Mon. Weath. Rev, vol.119, pp.755-768, 1991.

J. F. Wu, X. H. Xue, H. L. Liu, X. K. Dou, and T. D. Chen, Assessment of the Simulation of Gravity Waves Generation by a Tropical Cyclone in the High?Resolution WACCM and the WRF, Journal of Advances in Modeling Earth Systems, vol.10, issue.9, pp.2214-2227, 2018.

, Figure 2?figure supplement 1. Representative images used in the experiment, sampled from http://commons.wikimedia.org/wiki/Main_Page under the Creative Commons Attribution 4.0 International Public License https://creativecommons.org/licenses/by/4.0/., © 2019 by the authors. Licensee MDPI