The rare case of Hurricane Catarina (2004) over the South Atlantic Ocean: The origin of its precipitation through a Lagrangian approach

Tropical cyclones (TCs) are extremely rare over the South Atlantic Ocean (SATL) due to predominantly unfavourable conditions, that is, cool sea‐surface temperature and strong vertical wind shear. Nevertheless, unusual conditions over SATL associated with a blocking system promoted the formation of H...

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Bibliographic Details
Published in:Quarterly journal of the Royal Meteorological Society 2023-04, Vol.149 (752), p.1038-1055
Main Authors: Pérez‐Alarcón, Albenis, Coll‐Hidalgo, Patricia, Fernández‐Alvarez, José C., Trigo, Ricardo M., Nieto, Raquel, Gimeno, Luis
Format: Article
Language:English
Subjects:
Air parcels
Cyclones
Heavy rainfall
Hurricane Catarina
Hurricanes
Lagrangian approach
Moisture content
moisture sources
Moisture uptake
Oceans
Precipitation
Residence time
South Atlantic Ocean
Surface temperature
Tracking
Tropical cyclones
Uptake
Vertical wind shear
Water content
Water vapor
Water vapour
Wind shear
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Summary:Tropical cyclones (TCs) are extremely rare over the South Atlantic Ocean (SATL) due to predominantly unfavourable conditions, that is, cool sea‐surface temperature and strong vertical wind shear. Nevertheless, unusual conditions over SATL associated with a blocking system promoted the formation of Hurricane Catarina from an extratropical precursor in late March 2004, which produced heavy rainfall over the states of Santa Catarina and the Rio Grande do Sul in south Brazil. This work identifies the moisture sources for the precipitation produced by Catarina along its 6‐hourly trajectory, through a Lagrangian moisture‐tracking method. We extracted the pathways of precipitating air parcels within the cyclone's outer radius from the global outputs of the FLEXPART model forced with the ERA‐Interim reanalysis. Our findings revealed the terrestrial source in south‐southeastern Brazil (SEB) and the oceanic source limited by the box between 20‐40°S and 30–50°W over SATL (WSATL) as the principal moisture sources, with the overall support of ∼27% and ∼66%, respectively. However, their contribution varied according to the development phase of Catarina. While the moisture uptake from SEB decreased from ∼75% during the extratropical phase to ∼8% during the hybrid stage, the moisture contribution from WSATL notable increased from ∼20% to 87%, respectively. Likewise, the contributions from SEB and WSATL during the tropical phase of the cyclone accounted for ∼13% and ∼85%, respectively. The tracked air parcels achieved the high water content in a short period before the precipitation, leading to a reduction of the mean water vapour residence time to ∼3.1 days. Additionally, the precipitating moisture uptake along the Catarina trajectory was noticeably higher than the climatological value. South‐southeastern Brazil and the western South Atlantic Ocean were the principal moisture sources for the precipitation of Catarina. The moisture contribution from each source varied accordingly to the different phase of Catarina development. The anomalous precipitating moisture uptake along the Catarina track exceeded noticeably the climatological value.
ISSN:0035-9009
1477-870X
DOI:10.1002/qj.4452