Citas bibligráficas
Chávez, V., (2019). Tropical and Extratropical Wave Disturbances Impact on the Amazon Basin Precipitation: Subseasonal to Intraseasonal Timescales [Universidade de São Paulo]. https://renati.sunedu.gob.pe/handle/sunedu/3233977
Chávez, V., Tropical and Extratropical Wave Disturbances Impact on the Amazon Basin Precipitation: Subseasonal to Intraseasonal Timescales []. BR: Universidade de São Paulo; 2019. https://renati.sunedu.gob.pe/handle/sunedu/3233977
@phdthesis{renati/3877,
title = "Tropical and Extratropical Wave Disturbances Impact on the Amazon Basin Precipitation: Subseasonal to Intraseasonal Timescales",
author = "Chávez Mayta, Víctor Raúl",
publisher = "Universidade de São Paulo",
year = "2019"
}
Observational evidences linking tropical and extratropical wave disturbances in organizing precipitation over the Amazon basin (AB) are presented. The time scale of the wave disturbances considered in this thesis are from intraseasonal (low- and high-frequency intraseasonal) to subseasonal. The results are based on observed, satellite, and reanalysis datasets. The results suggest that on 30-70-day low-frequency, the Madden-Julian oscillation (MJO) is one of the main atmospheric mechanisms modulating intraseasonal rainfall variability over the Amazon region, playing an important role, particularly during the austral winter. Despite of the fact that the AB region extends over tropical region, the 30-70-day low-frequency intraseasonal are not strictly associated to the forcing produced by the equatorially propagating MJO. In addition, it is suggested that convective-based MJO indices are able to better account the influence of the MJO on intraseasonal precipitation. The 10-30-day high-frequency intraseasonal (HFIS) activity account for about 22% of the total Amazon low-frequency intraseasonal rainfall events and it is part of large-scale pattern observed over South America during the onset of austral rainfall season (October-November) and during the dry season (May-September). It seems that during the peak of the wet season (December-April), the Northwest-Southeast orientation of the precipitation seems to be influenced by Rossby wave trains not previously documented, with a southeastern South America (SESA)-South America convergence zone (SACZ) pattern. At higher time-scales, the Convectively Coupled Kelvin waves (CCKW) has a relevant role in organizing convection over the Amazon. They are more active during the transition seasons (austral spring and autumn), with peaks in November and March. The vertical structure observed on both radiosonde and reanalysis data have confirmed the existence of a second baroclinic mode as widely documented in previous works. CCKW propagate slightly faster over central and eastern Pacific (24.0 m s-1), slow down over the Amazon (13.5 m s-1) and then continues their propagation over the tropical Atlantic at about 20.8 m s-1. Two main types of Kelvin waves over the Amazon are found: Kelvin waves with a Pacific precursor that propagates into the Amazon, and Kelvin waves with a South America precursor. CCKW associated with a preexisting Kelvin in the eastern Pacific account for about 35% of the total events. The cases with South America precursor are associated with either pressure surges from extratropical wave trains activity, responsible for 40% of the total events, or “in situ“ convection that locally excite Kelvin waves, accounting for the remaining 25%.
Fichero | Descripción | Tamaño | Formato | |
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ChavezMaytaVR.pdf Acceso restringido | Tesis (abierta en repositorio de origen) | 68.43 MB | Adobe PDF | Visualizar/Abrir Solicita una copia |
Autorizacion.pdf Acceso restringido | Autorización del registro | 216.46 kB | Adobe PDF | Visualizar/Abrir Solicita una copia |
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