Climatological Large-Scale Circulation Patterns over The Middle Americas Region

Autor: Carlos A. Ochoa-Moya, Yoel A. Cala-Pérez, Yanet Díaz-Esteban, Christopher L. Castro, Paulina Ordoñez-Peréz, Arturo I. Quintanar
Jazyk: angličtina
Rok vydání: 2020
Předmět:
Zdroj: Atmosphere, Vol 11, Iss 7, p 745 (2020)
Druh dokumentu: article
ISSN: 2073-4433
DOI: 10.3390/atmos11070745
Popis: In this study, twenty large-scale circulation patterns are identified to generate a synoptic classification of Weather Types (WT) over a region that comprises Mexico, the Intra-Americas Seas, Central America, and northern South America. This classification is performed using Self-Organizing Maps (SOMs) with mean sea-level pressure standardized anomalies from reanalysis. The influence of quasi-permanent pressure centers over the region, such as North Atlantic Subtropical High (NASH) and North Pacific High (NPH) are well captured. Seasonal variability of high-pressure centers for dry (November–April) and wet (May–October) periods over the entire region are also well represented in amplitude and pattern among the WTs. The NASH influence and intensification of the Caribbean low-level jet and the North American monsoon system is well captured. During the dry period, a strong trough wind advects cold air masses from mid-latitudes to the subtropics over the western Atlantic Ocean. High-frequency transitions among WTs tend to cluster around the nearest neighbors in SOM space, while low-frequency transitions occur along columns instead of rows in the SOM matrix. Low-frequency transitions are related to intraseasonal and seasonal scales. The constructed catalog can identify near-surface atmospheric circulation patterns from a unified perspective of synoptic climate variability, and it is in high agreement with previous studies for the region.
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