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De la Torre, Alejandro

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Artículos en Revistas CientíficasPapers in Scientific Journals

1.     Alexander, P., de la Torre, A., Llamedo, P., Hierro, R., Marcos T., Kaifler, B., Kaifler, N., Giez, A., Rapp, M., and Hormaechea, J.L.. The coexistence of gravity waves from diverse sources during a SOUTHTRAC flight. Journal of Geophysical Research: Atmospheres, 128, https://doi.org/10.1029/2022JD037276, 2023.

 

2.     de la Torre, A., Alexander, P., Marcos, T., Hierro, R., Llamedo, P., Hormaechea, J.L., Preusse, P., Geldenhuys, M., Krasauskas, L., Giez A., Kaifler, B., Kaifler, N. and Rapp, M.. A spectral rotary analysis of gravity waves: An application during one of the SOUTHTRAC flights. Journal of Geophysical Research: Atmospheres, 128, e2022JD037139. https://doi.org/10.1029/2022JD037139, 2023.

 

3.     Antonoglou, N., Balidakis, K., Wickert, J., Dick, G., de la Torre, A., Bookhagen, B.. Water-Vapour Monitoring from Ground-Based GNSS Observations in Northwestern Argentina. Remote Sensing, 14, 5427. https://doi.org/ 10.3390/rs14215427, 2022.

 

4.     Rapp, M., Kaifler, B., Dörnbrack, A., Gisinger, S., Mixa, T., Reichert, R., Kaifler, N., Knobloch, S., Eckert, R., Wildmann, N., Giez, A., Krasauskas, L., Preusse, P., Geldenhuys, M., Riese, M., Woiwode, W., Friedl-Vallon, F., Sinnhuber, B., de la Torre, A., Alexander, P., Hormaechea, J. L., Janches, D., Garhammer, M., Chau, J. L., Conte, J. F., Hoor, P., & Engel, A..   SOUTHTRAC-GW: An airborne field campaign to explore gravity wave dynamics at the world’s strongest hotspot, Bulletin of the American Meteorological Society, E871-E893, https://doi.org/10.1175/BAMS-D-20-0034.1, 2021.

 

5.     Ramezani Ziarani, M., Bookhagen, B., Schmidt, T., Wickert, J., de la Torre, A., Deng, Z., Calori, A.. A Model for the Relationship between Rainfall, GNSS-Derived Integrated Water Vapour, and CAPE in the Eastern Central Andes. Remote Sens., 13, 3788. https://doi.org/10.3390/rs13183788, 2021.

 

6.     Kaifler, N., Kaifler, B., Dörnbrack, A., Rapp, M., Hormaechea, J.L., de la Torre, A., Lidar observations of large-amplitude mountain waves in the stratosphere above Tierra del Fuego, Argentina. Scientific Reports  10, 14529 (Nature Res. Journals). https://doi.org/10.1038/s41598-020-71443-7, 2020.

 

7.     Alexander, P., A. de la Torre, N. Kaifler, B. Kaifler, J. Salvador, P. Llamedo, R. Hierro, JL Hormaechea. Temperature profiles from two close lidars and a satellite to infer 1the structure of a dominant gravity wave, Earth Space Sci. https://doi.org/10.1029/2020EA001074, 2020.

 

8.     Castino, F., Bookhagen, B., de la Torre, A. Atmospheric dynamics of extreme discharge events from 1979 to 2016 in the southern Central Andes. Climate Dynamics. https://doi.org/10.1007/s00382-020-05458-1, 2020.

 

9.     Hierro, R.; Burgos Fonseca, Y.; Ramezani Ziarani, M.; Llamedo, P.; Schmidt, T.; de la Torre, A.; Alexander, P. On the behavior of rainfall maxima at the eastern Andes. Atmospheric Research, 104792.https://doi.org/10.1016/j.atmosres.2019.104792, 2020.

 

10. Llamedo, P., Salvador, J., Torre, A., Quiroga, J., Alexander, P., Hierro, R.. 11 years of Rayleigh lidar observations of gravity wave activity above the southern tip of South America. Journal of Geophysical Research: Atmospheres, 124, 451– 467. https://doi.org/10.1029/2018JD028673, 2019.

 

11. Ramezani Ziarani, M., Bookhagen, B., Schmidt, T., Wickert, J., de la Torre, A. and Hierro, R.. Using Convective Available Potential Energy (CAPE) and Dew-Point Temperature to Characterize Rainfall-Extreme Events in the SOUTH- CENTRAL ANDES. Atmosphere, 10, 379, 2019.

 

12. Hierro, R., P. Llamedo, A. de la Torre y P. Alexander, 2019. The Amazon basin as a moisture source for an Atlantic Walker-type Circulation, Atmospheric Research (216), 160-166, ISSN 0169-8095, https://doi.org/10.1016/j.atmosres.2018.10.009, 2019.

 

13. Hierro, R., P. Llamedo, D. Araneo, A. de la Torre and P. Alexander. GPS RO precipitable water as a possible proxy for rainfall distribution over tropical South America: qualitative analysis.Meteorologic and Atmospheric Physics. https://doi.org/10.1007/s00703-018-0648-8, 2018.

 

14. de la Torre, A., Alexander, P., Schmidt, T., Llamedo, P., Hierro, R., On the distortions in calculated GW parameters during slanted atmospheric soundings, Atmospheric Measurements Techniques, 11, 1363–1375, https://doi.org/10.5194/amt-11-1363-2018, 2018.

 

15. Hierro, R., AK. Steiner, A. de la Torre, P. Alexander, P. Llamedo, P. Cremades, Orographic and convective gravity waves above the Alps andAndes mountains during GPS radio occultation events – a case study, Atmos. Meas. Tech., 11, 3523–3539, https://doi.org/10.5194/amt-11-3523-2018, 2018.

 

16. Alexander, P., Schmidt, T., de la Torre, A.: A Method to Determine Gravity Wave Net Momentum Flux, Propagation Direction and «Real» Wavelengths: a GPS Radio Occultations Soundings Case Study, Earth and Space Science,5,222-230, https://doi.org/10.1002/2017EA000342, 2018.

 

17. Burgos Fonseca, Y., Alexander, P., de la Torre, A., Hierro, R.,Llamedo, P., Calori, A., Comparison between GNSS ground-based and GPS radio occultation precipitable water observations over ocean-dominated regions, Atmospheric Research, 209, 115-122, https://doi.org/10.1016/j.atmosres.2018.03.017, 2018.

 

18. Lilienthal, F., Jacobi, Ch., Schmidt, T., de la Torre, A., Alexander, P.: On the Influence of Zonal Gravity Wave Distributions on the Southern Hemisphere Winter Circulation, Ann. Geophysicae, 35, 785-798, 2017.

 

19. de la Torre, A., Alexander, P., Schmidt, T., Llamedo, P., Hierro, R. :On the distortions in calculated GW parameters during slanted atmospheric soundings, Atmospheric Measurements Techniques Discussion, https://doi.org/10.5194/amt-2017-192, 2017.

 

20. Hierro, R., AK. Steiner, A. de la Torre, P. Alexander, P. Llamedo, P. Cremades, Orographic and convective gravity waves above the Alps and Andes mountains during GPS radio occultation events – a case study, Atmospheric Measurements Techniques Discussion, https://doi.org/10.5194/amt-2017-245, 2017.

 

21. Alexander, P., de la Torre, A., Hierro, R., Llamedo, P.: An improvement of the sensitivity of GPS radio occultation data to detect gravity waves through observational and modeling factors, Advances in Space Research, 57, 543–55, 2016.

 

22. Jacobi, Ch., F. Lilienthal, T. Schmidt, and A. de la Torre, Modeling the Southern Hemisphere winter circulation using realistic zonal mean gravity wave information in the lower atmosphere, Rep. Inst. Meteorol. Univ. Leipzig, 54, 37-46, ISBN: 978-3-9814401-4-0, 2016.

 

23. Llamedo, P., R. Hierro, A. de la Torre y P. Alexander, ENSO-related moisture and temperature anomalies over South America derived from GPS radio occultation profiles, International Journal of Climatology, dxdoi.org/10.1002/joc.4702, 2016.

 

24. Schmidt, T., P. Alexander, y A. de la Torre (2016), Stratospheric gravity wave momentum flux from radio occultations, Journal of Geophysical Research, Atmospheres., 121, doi:10.1002/2015JD024135, 2016.

 

25. Calori, J.R. Santos, M. Blanco, H. Pessano, P. Llamedo, P. Alexander, A. de la Torre, Ground-based GNSS network and integrated water vapor mapping duringthe development of severe storms at the Cuyo region (Argentina), Atmospheric Research, http://dx.doi.org/10.1016/j.atmosres.2016.03.002, 2016.

 

26. Hierro, R., P. Llamedo, A. de la Torre, P., Alexander. Spatio-temporal structures of  rainfall over the Amazon basin derived from TRMM data, International Journal of Climatology,doi: 10.1002/joc.4429, 2015.

 

27. de la Torre, A., H. Pessano, R. Hierro, J.R. Santos, P. Llamedo, P. Alexander. The influence of topography on vertical air velocity of air in relation to severe storms near the Southern Andes Mountains. Atmospheric Research, doi: 10.1016/j.atmosres.2014.12.020156, 2015.

 

28. Alexander, P., Luna, D., de la Torre, A., Schmidt, T..Distribution functions and statistical parameters that may be used to
characterize limb sounders gravity wave climatologies in the
stratosphere, Adv. Space Res., doi: 10.1016/j.asr.2015.05.007, 2015.

 

29. Alexander, P., A. de la Torre, R. Hierro, P. Llamedo.Assessment of precision in ionospheric electron density profiles retrieved by GPS radio occultations, Advances in Space Research, http://dx.doi.org/10.1016/j.asr.2014.08.029, 54, 2249-258, 2015.

 

30. Alexander, P., A. de la Torre, T. Schmidt, P. Llamedo y R. Hierro. Limb sounders tracking topographic gravity wave activity from the stratosphere to the ionosphere around midlatitude Andes, Journal of Geophysical Research, Space Physics, 120, doi:10.1002/2015JA021409, 2015.

 

31. Alexander, P., A. de la Torre, P. Llamedo, R. Hierro, Precision estimation in temperature and  refractivity profiles retrieved by GPS radio occultations. Journal of Geophysical Research (Atmosphere), 119, doi:  10.1002/2013JD021016, 2014.

 

32. de la Torre, A., P. Alexander, P. Llamedo, R. Hierro, B. Nava, S. Radicella, T. Schmidt y J. Wickert. Wave activity at ionospheric heights above the Andes Mountains detected from FORMOSAT-3/COSMIC GPS radio occultation data. Journal of Geophysical Research (Space Physics), 119, doi:10.1002/2013JA018870, 2014.

 

33. de la Torre, A., P. Alexander, P. Llamedo, R. Hierro, H. Pessano y A. Odiard. Algunas aplicaciones recientes de la técnica de radio ocultamiento satelital en el estudio de procesos atmosféricos. Boletín geográfico. Año XXXIV. N°35 – 2013, pp. 29 -45, 2013.

 

34. Hierro, R., P. Llamedo, A. de la Torre, y P. Alexander. Oscillation modes of humidity over theAmazon basin derived from GPS RO profiles. Journal of Geophysical Research (Atmosphere), 118,13,121-13,127, doi:10.1002/2013JD020758, 2013.

 

35. Hierro, R., H. Pessano, P. Llamedo, A. de la Torre, P. Alexander y A. Odiard. Orographic effects related to deep convection events over the Andes region, Atmospheric Research, 120–121, 216-225, doi:10.1016/j.atmosres.2012.08.020, 2013.

 

36. Luna, D.,  P. Alexander y A. de la Torre, Evaluation of uncertainty in gravity wave potential energy calculations through GPS radio occultation measurements Advances in Space Research, 52, 879-882, doi.org/10.1016/j.asr.2013.05.015, 2013.

 

37. Faber, A., P. Llamedo, T. Schmidt, A. de la Torre, y J. Wickert; A New Approach to Global Gravity Wave Momentum Flux Determination from GPS Radio Occultation Data, Atmos. Meas. Tech. Dis., doi:10.5194/amtd-6-2907-2013, 2013.

 

38. Hierro, R.,P. Llamedo, A. de la Torre, P. Alexander y A. Rolla. Climatological patterns over South America derived from COSMIC radio occultation data. Journal of Geophysical Research – Atmospheres, 117, D3, doi:10.1029/2011JD016413, 2012.

 

39. de la Torre, A., Alexander, P., Hierro, R., Llamedo, P., Rolla, A, Schmidt, T.; Wickert, J. Large Amplitude Gravity Waves above the Southern Andes, the Drake Passage and the Antarctic Peninsula. Journal of Geophysical Research – Atmospheres, 117, D2, doi:10.1029/2011JD016377, 2012.

 

40. de la Torre, A., R. Hierro, P. Llamedo, A. Rolla y P. Alexander,  Severe Hailstorms near Southern Andes in the Presence of Mountain Waves, Atmospheric Research, 101, 112–123, 2011.

 

41. Alexander, P., A. de la Torre, P. Llamedo, R. Hierro, T. Schmidt y J. Wickert, A method to improve the determination of wave perturbations close to the tropopause by using a digital filter. Atmospheric Measurement Techniques, 4, 1777–1784, 2011.

 

42. Alexander, P. y A.  de la Torre. Uncertainties in the measurement of the atmospheric velocity due to balloon-gondola pendulum-like motions. Advances in Space Research, .47, 736 – 739. 2011.

 

43. Alexander, P. y A. de la Torre, A method to infer the three cartesian wavelengths of a mountain wave from three soundings (Journal of Applied Meteorology and Climatology, 49, 9,. 2069-2074, 2010.

 

44. de la Torre, A., P. Llamedo, P. Alexander, T. Schmidt y J. Wickert. Estimated errors in a global gravity wave climatology from GPS radio occultation temperature profiles, Advances in  Space Research, 46, 2, 174-179, 2010.

 

45. Alexander P., D. Luna, A. de la Torre, P. Llamedo, T. Schmidt y J. Wickert.A comparative and numerical study of effects of gravity waves in small- distance and miss-time GPS radio occultation temperature profiles Advances in Space Research,  45, 10, 1231-1234, 2010.

 

46. Alexander, P., Luna, D., Llamedo, P., de la Torre, A.A gravity waves study close to the Andes mountains in Patagonia and Antarctica with GPS radio occultation observations, Annales Geophysicae, 28(2), 587-595, 2010.

 

47. Llamedo, P., A. de la Torre, P. Alexander, D. Luna, T. Schmidt y J. Wickert. A gravity wave analysis near to the Andes Range from GPS radio occultation data and mesoscale numerical simulations: Two case studies, Advances in Space Research, 44, 4, 494-500, 2009.

 

48. Alexander P., A. de la Torre y P. Llamedo. The interpretation of gravity waves signatures extracted from GPS radio occultations. Journal of Geophysical Research., 113, D16117, doi:10.1029/2007JD009390, 2008.

 

49. Schmidt T., A. de la Torre, J. Wickert. Global gravity wave activity in the tropopause region from CHAMP radio occultation data, Geophysical Research Letters, 35, L16807, doi:10.1029/2008GL034986, 2008.

 

50. Fröhlich, K., T. Schmidt, M. Ern, P. Preusse, A. de la Torre, J. Wickert, Ch. Jacobi. The global distribution of gravity wave energy in the lower stratosphere derived from GPS data and gravity wave modeling: attempt and challenges, Journal of Atmospheric and Solar Terrestrial Physics, 69, 2238-2248,2007.

 

51. de la Torre A., T. Schmidt  y J. Wickert. A Global Analysis of Wave Potential Energy in the Lower and Middle Atmosphere from CHAMP and SAC-C GPS-RO Long Term Data, Geophysical Research Letters, 33, L24809, doi:10.1029/2006GL027696, 2006.

 

52. de la Torre A. y otros. Gravity Waves above Andes Detected from GPS Radio Occultation Temperature Profiles. II: Jet Mechanism?,Geophysical Research Letters, 33, L24810, doi:10.1029/2006GL027343, 2006.

 

53. de la Torre A y P. Alexander. Gravity Waves above Andes Detected from GPS Radio Occultation Temperature Profiles: Mountain Forcing? Geophysical Research Letters, 32, 17, L17815, 10.1029/2005GL022959, 2005.

 

54. de la Torre A, D. Vincent, R. Tailleaux y H. Teitelbaum. A Deep convection event above the Tunuyán Valley near to the Andes Mountains. Monthly Weather Review, 132, 9, 2259-2268, 2004.

 

55. de la Torre A., T. Tsuda, G. Hajj y J. Wickert. A global distribution of the stratospheric gravity wave activity from GPS occultation profiles with SAC-C and CHAMP, Journal of Meteorological Society of Japan, 82, 1B, 407-417, 2004.

 

56. Alexander, P. y A. de la Torre. A program for the simulation and analysis of open atmospheric balloon soundings. Computer Physics Communications,  151, 96-120, 2003.

 

57. de la Torre, A., P.Alexander y J. Cornejo. A relationship between skin thermal conductivity and gas polytropic index in an open atmospheric balloon, Journal of Applied Meteorology, 42, 325-330, 2003.

 

58. Hocke, K., T. Tsuda y A. de la Torre. A study of stratospheric GW fluctuations and sporadic E at mid latitudes with focus on possible orographic effects of Andes. Journal of Geophysical Research (Atmospheres)), 107, 10.1029/2001JD001330, 2002.

 

59. de la Torre A., P. Alexander  y A. Giraldez. The kinetic to potential energy ratio and spectral separability from high-resolution balloon soundings near the Andes Mountains, Geophysical Research Letters, 26, 1413, 1999.

 

60. Alexander, P. and de la Torre, A., The interpretation of saturated spectra as obtained from atmospheric balloon measurements, Journal of Applied Meteorology, 38, 334, 1999.

 

61. Giraldez, A. and de la Torre, A., On the effect of the mean shear wind in the predicted «universal» spectral shape of the atmospheric variables, Geophysical Research Letters, 25, 3521, 1998.

 

62. de la Torre a., P. Alexander y A. Giraldez. High resolution temperature profiles measured with atmospheric balloons near the Andes Mountains, Geophysical Research Letters, 24, 1079, 1997.

 

63. de la Torre A., P. Alexander y A. Giraldez. Large amplitude waves detected near the Andes Mountains, Geophysical Research Letters, 23, 1103, 1996.

 

64. de la Torre,  A.H. Teitelbaum  y  F.Vial.  Tropospheric and Stratospheric wave  measurements  near the  Andes  Mountains,  Journal of  Atmospheric and Terrestrial.  Physics, 58, 521, 1996.

 

65. Alexander P., J. Cornejo y A. de la Torre. The behaviour of a stratospheric balloon in the presence of inertio-gravity waves. Journal of  Applied Meteorology, 35, 60, 1996.

 

66. de la Torre A. y P. Alexander. The interpretation of wavelengths and periods as measured from atmospheric balloons. Journal of Applied Meteorology , 34, 2747, 1995.

 

67. Alexander P. y A. de la Torre. The solar wind angular momentum and energy carried by the interplanetary  magnetic  field.  Solar  Physics, 157, 367-373, 1995.

 

68. de la Torre A., A.Giraldez y  P.Alexander.  Saturated  gravity wave  spectra  measured  with  balloons in  Mendoza  (Argentina).  Geophysical Research. Letters, 21, 2039, 1994.

 

69. de la Torre A.  Energy budget  of stable magnetohydrodynamic waves in an homogeneous heat-conducting collisionless plasma in a strong magnetic field.  Journal of Plasma Physics, 45, 475, 1990.

 

70. de la Torre A. y Duhau S..Absolute stability in a collisionlessheat  conducting plasma in strong magnetic  fields.  Journalof  PlasmaPhysics, 42, 107, 1989.

 

71. Duhau  S. y  de  la  Torre  A..  Hydromagnetic waves for a collisionless plasma in strong magnetic fields. Journalof  PlasmaPhysics,  34, 67, 1985.

 

72. Duhau S. y de la Torre A.. Modelo teórico  de  concentración  de  CO2 en la baja termosfera. Geoacta XIII, 1986.

 

73. Duhau S. y de la Torre A.. Inestabilidades hidromagneticas en el viento solar. Geoacta, XIII, 1986.

 

74. de la Torre A. y Duhau S. Modelo teórico par la predicción analítica del contenido de CO2 termosférico. Geoacta, XIII, 1986.

 

75. de la Torre A. y Duhau S.. La temperatura vibracional del N2  en la región E ionosferica. I. Teoría. Geoacta, XII, 2, 1985.

 

76. de la Torre A. y Duhau S.. La temperatura vibracional del N2 en la región E ionosferica. II Analisis de parametros  y  resultados. Geoacta, XII, 2, 1985.