Large scale features associated with strong frontogenesis in equivalent potential temperature in the South American subtropics east of the Andes

Arraut, Joséfina Moraes; Barbosa, H. M.

doi:10.5194/adgeo-22-73-2009

Cited by 9 publications

(9 citation statements)

References 16 publications

(18 reference statements)

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“…The composites identify northward propagating frontal systems and the associated low-pressure anomalies as common drivers of extreme rainfall in SESA and the establishment of a low-level wind channel from the Amazon to the subtropics: a low-pressure anomaly originating from Rossby-wave activity propagates northwards, led by a cold front causing abundant rainfall in SESA through the uplifting of warmer air masses 9,10,30,31 . When the frontal system propagates from SESA northeastward through the La Plata Basin in northeastern Argentina, the low-pressure anomaly extends to central Bolivia and merges with the Northwestern Argentinean Low 4,12 (Fig. 3a).…”

Section: Resultsmentioning

confidence: 99%

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Prediction of extreme floods in the eastern Central Andes based on a complex networks approach

et al. 2014

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Changing climatic conditions have led to a significant increase in the magnitude and frequency of extreme rainfall events in the Central Andes of South America. These events are spatially extensive and often result in substantial natural hazards for population, economy and ecology. Here we develop a general framework to predict extreme events by introducing the concept of network divergence on directed networks derived from a non-linear synchronization measure. We apply our method to real-time satellite-derived rainfall data and predict more than 60% (90% during El Niño conditions) of rainfall events above the 99th percentile in the Central Andes. In addition to the societal benefits of predicting natural hazards, our study reveals a linkage between polar and tropical regimes as the responsible mechanism: the interplay of northward migrating frontal systems and a low-level wind channel from the western Amazon to the subtropics.

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Section: Resultsmentioning

confidence: 99%

“…The cause of the circulation variability and the corresponding rainfall anomalies has not yet been identified in a way that sufficiently resolves the temporal order of events [9][10][11][12] . Since this is crucial for predicting associated extreme rainfall events, an early warning system for extreme rainfall in the ECA has been lacking.…”

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confidence: 99%

Prediction of extreme floods in the eastern Central Andes based on a complex networks approach

et al. 2014

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“…The number of these events is similar throughout the day, with a slightly higher number of events during the afternoon and evening (1800 and 0000 UTC). The summer month's maximum number of q-gradient events is highly coincident with the region of maximum mean frontogenesis at 850 hPa identified by Arraut and Barbosa (2009). They showed that deformation frontogenesis was the primary source of this maximum.…”

Section: A Annual Cycle and Geographical Distribution Of Drylinesmentioning

confidence: 76%

Drylines in Argentina: Synoptic Climatology and Processes Leading to Their Genesis

Bechis

Salio

Ruiz

2019

Monthly Weather Review

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Drylines have been identified as relevant synoptic-scale phenomena that frequently occur in several regions around the world. Despite previous works and the experience of local forecasters that recognizes the occurrence of drylines in Argentina and suggests its possible association with convection initiation, knowledge about the mechanisms leading to the genesis of these features is poor. This paper presents the first synoptic climatology of these drylines as well as a first approach to the understanding of the processes leading to their formation. The climatology is based on an automated algorithm for dryline identification applied to reanalysis data. We found that drylines are more frequent between the northern Patagonia plateau and the central Argentinean plains. A composite analysis is performed to analyze the processes leading to the formation of synoptic-scale drylines within this region. It was found that these drylines form in the confluence between a warm and moist air mass driven by a northwesterly flow and drier air flowing east over the northern Patagonia plateau. The dry air originates on top of the Pacific maritime boundary layer and experiences lee subsidence after crossing the Andes range creating an area of dry and warm air that is advected to the east by the westerly synoptic-scale flow, and transported downward during the day due to strong boundary layer turbulence. At the same time, surface heating over the plateau leads to substantial warming of the originally colder dry air behind the dryline, thus reversing the horizontal temperature gradient across the dryline.

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“…The authors state that disturbances in the middle or exit regions of the storm track tend to develop due to the ageostrophic fluxes convergence, while the disturbances at the entrance region of the storm tracks grow by baroclinic conversion. This seems to be the case of the K2 and K3, because K2 maximum develops (with AFC term important) at the end of the Pacific Storm track and the K3 maximum develops over the South America (in the beginning of Atlantic Storm tracks) region known to be frontogenetic (Satyamurty and Mattos, ; Arraut and Barbosa, ).…”

Section: Discussionmentioning

confidence: 99%

Energetics of wave propagation leading to frost events in South America: extratropical latitudes

Müller

Gan

Piva

2017

Atmospheric Science Letters

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The dynamics of wave propagation and energy associated with frosts in extratropical versus tropical South American latitudes is studied. A double wave train propagates through the southern hemisphere following the polar and subtropical jets. If, in the previous day, both trains coincide in phase over the southeast Pacific (southwest Atlantic) Oceans, it will contribute to generate generalized frosts (strong frosts) at extratropical (tropical) latitudes, not affecting tropical (extratropical) latitudes given the wave train zonal propagation. The vertically averaged eddy kinetic energy composites show three maxima associated with those trains over the South Pacific Ocean and South American region.

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Large scale features associated with strong frontogenesis in equivalent potential temperature in the South American subtropics east of the Andes

Cited by 9 publications

References 16 publications

Prediction of extreme floods in the eastern Central Andes based on a complex networks approach

Prediction of extreme floods in the eastern Central Andes based on a complex networks approach

Drylines in Argentina: Synoptic Climatology and Processes Leading to Their Genesis

Energetics of wave propagation leading to frost events in South America: extratropical latitudes

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