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Atmósfera ISSN: 0187-6236 [email protected] Universidad Nacional Autónoma de México México Romero-Vadillo, E.; Zaytsev, O.; Morales-Pérez, R. Tropical cyclone statistics in the Northeastern Pacific Atmósfera, vol. 20, núm. 2, abril, 2007, pp. 197-213 Universidad Nacional Autónoma de México Distrito Federal, México Available in: http://www.redalyc.org/articulo.oa?id=56520205 How to cite Complete issue Scientific Information System More information about this article Network of Scientific Journals from Latin America, the Caribbean, Spain and Portugal Journal's homepage in redalyc.org Non-profit academic project, developed under the open access initiative Atmósfera 20(2), 197-213 (2007) Tropical cyclone statistics in the Northeastern Pacific E. ROMERO-VADILLO Universidad Autónoma de Baja California Sur (UABCS) La Paz, Baja California Sur, México O. ZAYTSEV Centro Interdisciplinario de Ciencias Marinas, Instituto Politécnico Nacional La Paz, Baja California Sur, 23096, México Corresponding author´s e-mail: [email protected] R. MORALES-PÉREZ Instituto Mexicano de Tecnología del Agua (IMTA),Yautepec, Morelos, México Received December 14, 2005; accepted September 11, 2006 RESUMEN La principal región de la formación de ciclones en el océano Pacífico Este es el Golfo de Tehuantepec, entre los 8 y los 15° N. En su fase inicial los ciclones se mueven hacia el oeste y el noroeste. El análisis histórico de los ciclones que se han generado durante los últimos 38 años (de 1966 a 2004) muestra un promedio de 16.2 ciclones por año, consistentes en 8.8 huracanes y 7.4 tormentas tropicales. El análisis muestra una gran variabilidad geográfica en la trayectoria de los ciclones, de los cuales un gran número impacta las costas de México. Alrededor del 50% de los ciclones tropicales que se generan en el Pacífico Este recurva hacia el noreste. Los ciclones rara vez pasan de los 30° de latitud norte debido a la corriente fría de California. Las trayectorias de los ciclones del Pacífico Este pueden separarse en 5 grupos. Los datos históricos de las anomalías en la temperatura superficial del mar (SST) relacionados con los eventos de El Niño, fueron comparados con un conjunto de datos de ciclones tropicales, incluyendo frecuencia, intensidad, trayectoria y duración. Aunque la dependencia estadística entre la frecuencia de los ciclones tropicales de las categorías más abundantes en esta región, 1 y 2, y los datos de SST no fue significativa, el porcentaje de huracanes de alta intensidad (categorías 4 y 5) y los huracanes con una larga duración (mayor a 12 días) fue mayor durante los años Niño que durante los años no Niño. ABSTRACT The principal area of tropical cyclogenesis in the tropical eastern Pacific Ocean is offshore in the Gulf of Tehuantepec, between 8 and 15° N, and most of these cyclones move towards the west and northwest during their initial phase. Historical analysis of tropical cyclone data in the Northeastern (NE) Pacific over the last 38 years (from 1966 to 2004) shows a mean of 16.3 tropical cyclones per year, consisting of 8.8 hurricanes 198 E. Romero-Vadillo et al. and 7.4 tropical storms. The analysis shows great geographical variability of cyclone tracks, and that there were a considerable number of hurricane strikes along the Mexican coast. About 50% of the tropical cyclones formed turned north to northeast. It was rare that any passed further north than 30° N in latitude because of the cold California Current. Hurricane tracks that affected the NE Pacific may be separated into 5 groups. We compared the historical record of the sea surface temperature (SST), related with the El Niño events with a data set of tropical cyclones, including frequency, intensity, trajectory, and duration. Although the statistical dependence between the frequencies of tropical cyclones of the most abundant categories, 1 and 2, over this region and SST data was not convincing, the percentage of high intensity hurricanes and hurricanes with a long life-time (greater than 12 days) was more during El Niño years than in non-El Niño years. Keywords: Tropical cyclone, Northeastern Pacific, hurricane track statistics. 1. Introduction Every year a number of tropical cyclones have impact on the NE Pacific subtropical zone. Sadler (1964) stated that the NE Pacific is second after the Western Pacific in its annual frequency of hurricanes. Renard and Bowman (1976) determined that a mean of nine tropical storms and five hurricanes are generated every year in the NE Pacific. Jáuregui (1981) described characteristics of the NE Pacific hurricanes, and particularly the ones that affected the northwest coast of México, using the 1962-1979 data sets. This author emphasized that the western Mexican coast was exposed to a greater number of hurricanes than the coast of the Gulf of México. The most devastating part of hurricane impact on the western Mexican coast is due to the high rainfall associated with NE Pacific hurricanes, which can reach 400 mm per day in the coastal mountain areas. Tropical cyclones of the NE Pacific are normally generated above waters with surface temperatures higher than 27 °C between May and October, and outside the low-pressure equatorial belt. Figure 1 shows the distribution of the origins of tropical storms in the NE Pacific from 1966 to 2004. The maximum frequency zone of cyclone origin was between latitude 10 and 15º N, and between longitudes 93 and 110º W, close to the Mexican Pacific coast. Latitude (°N) Longitude (°W) Fig. 1. Frequency and spatial distribution (percentages per unit area) of the birthplaces of tropical cyclones in the northeastern Pacific (1966-2004). Tropical cyclone statistics in the northeastern Pacific 199 The formation of NE Pacific tropical cyclones is the topic of extensive ongoing research, and is still not fully understood. There are several favorable environmental factors in tropical cyclogenesis: warm ocean waters throughout a sufficient depth, high low-level relative vorticity, low vertical shear of zonal wind, the Coriolis parameter and pre-existing near-surface disturbance (McBride and Zehr, 1981). Cyclonic horizontal shear of the low-level (850 mb) zonal wind corresponded to high relative velocity and low vertical wind shear support tropical cyclogenesis. Tropical cyclones tend to form near regions of zero vertical shear of the zonal wind because higher vertical shear would tend to tilt the vortex circulation and suppression of convection. Montgomery and Farrel (1992) mentioned that tropical cyclones are initiated by asymmetric interactions associated with migrating upper-level vortices and low altitude disturbances. This mechanism that explains well the genesis of many tropical cyclones in the Atlantic, is probably not very common in the NE Pacific, since the upper-level troughs migrate into the subtropics from latitude higher than 15 °C. Many researchers (e.g. Avila and Pasch, 1992; Molinari et al., 1997) believe that eastern Pacific tropical cyclones develop frequently in association with synoptic-scale easterly waves that originate in Africa and propagate westward across the Atlantic Ocean, the Caribbean and into the NE Pacific, providing substantial convection conditions at these regions. At least, these authors note the existence of easterly waves in the western Caribbean prior to the cyclogenesis. However, localized easterly waves can be characterized as dispersive Rossby wave packets, in which a local wave disturbance upon poor conditions of convection would weaken and lose its structure before reaching the NE Pacific (Molinari et al., 1997). Initially the eastern wave disturbances contain considerable convection, but typically convection is not maintained over the cool central Atlantic (Carlson, 1969). So, the amplitude of easterly waves leaving Africa has little correlation with the likelihood of a wave over the NE Pacific region. Although synoptic-scale easterly waves reach the NE Pacific regularly, it is not obvious that all of them could be sufficiently intensive to affect significantly tropical cyclogenesis. Nevertheless, some periodical features of the easterly waves have been registered over the NE Pacific region (Molinari and Vollaro, 2000; Fuller and Stensrud, 2000). Easterly waves may interact with other, low-frequency phenomena over the Pacific, such as the eastward-propagating Madden-Julian Oscillation (MJO) that has a baroclinic mixed Kelvin and Rossby wave structure with a characteristic period of 30-60 days (Madden and Julian, 1994). During certain phases of the MJO a modulation of both the 850 mb zonal wind and convective activity occurs over the NE Pacific near México and Central America (Maloney and Hartmann, 2000). Maximum positive amplitude of the MJO cycle provokes westerly 850-mb wind anomalies with intensified convection and high relative vorticity, and negative amplitude accompanies easterly 850-mb anomalies with suppressed convection and low relative vorticity. Figure 2, adapted from Maloney and Hartmann (2000), shows favorable conditions for cyclone formation in the NE Pacific during the maximum MJO period. These authors assumed that the interaction between intensified convection of easterly waves and westerly 850 mb wind anomalies during active period of the MJO wave may be considered the hypothetical mechanism of tropical ciclogenesis modulation, and about 50% of the June-September time series and about 60 % of the May-November series during 1979-95 are spanned by significant MJO events. 200 E. Romero-Vadillo et al. Fig. 2. (a) The 850-mb wind and relative vor- ticity anomalies corresponded to the maximum amplitude of the MJO during May-Nov 1979- 95. Contours of vorticity are every 1.2 × 10−6 s−1 starting at 0.6 × 10−6 s−1. Maximum wind vectors are 3.0 m s−1. (b) Vertical shear of zonal wind (the 200-mb wind minus 850-mb wind) for the same MJO conditions. Contours are every 5.0 m s−1 starting at 0.0 m s−1. Grey shading indicate most favorable zones for tropical cyclogenesis. Adapted from Maloney and Hartmann (2000).
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