South Atlantic tropical cyclone
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A South Atlantic tropical cyclone is an unusual weather event. Strong wind shear (which disrupts cyclone formation) and a lack of weather disturbances favorable for tropical cyclone development make any hurricane-strength cyclones extremely rare.[1] If a "hurricane season" were to be demarcated in the South Atlantic, it would most likely be the opposite of the North Atlantic season, from November to the end of April with mid-March being the peak when the oceans are warmest in the Southern Hemisphere.[2] These tropical cyclones would be given identifiers starting with SL in the future.[3]
Below is a list of known South Atlantic tropical cyclones.
List of known South Atlantic tropical cyclones
Subtropical Storm of March 1974
Similar to the formation of Catarina, a strong ridge persisted for nine and a half days over the western South Atlantic Ocean in late March 1974, which decreased wind shear across the region. A low pressure area developed over the Amazon basin, and intensified as it moved southeastward over open waters. Deep convection increased near the center, and banding features began developing. The system resembled a subtropical cyclone, and there were hints of a warm-core. It was unable to intensify further, due to the ridge weakening, shear increasing, and water temperatures decreasing. Unlike Catarina, the system maintained a southeast motion throughout its duration.[4]
Angola tropical cyclone of 1991
| Tropical storm (SSHWS) | |
 | |
| Duration | April 10 – April 15 |
|---|---|
| Peak intensity | 65 km/h (40 mph) (1-min); Unknown hPa (mbar) |
On April 10, 1991, what was either a strong tropical depression or a weak tropical storm[citation needed] formed in the eastern South Atlantic, recorded by weather satellites off the coast of Angola. It reached a peak on the 13th, and dissipated two days later, drifting west-southwestward from where it formed. Of the few South Atlantic tropical cyclones that have existed, this was the only one in the eastern Atlantic.[5]
Tropical cyclone of January 2004
| Tropical depression (SSHWS) | |
 | |
| Duration | January 18 – January 21 |
|---|---|
| Peak intensity | 55 km/h (35 mph) (1-min); 1003 hPa (mbar) |
A small area of convection developed on a trough of low pressure in mid January off Brazil. It organized and appeared to become a tropical depression on January 18. The next morning, it had a small CDO and well-defined bands, and the system, either a weak tropical storm or a strong tropical depression, likely reached its peak. Located 150 nautical miles (280 km) southeast of Salvador, Brazil, it weakened as upper level shear, typical for the basin, prevailed. The depression moved inland on the 20th as a circulation devoid of convection, and dissipated the next day over Brazil, where it caused heavy rains and flooding.[6]
Cyclone Catarina
| Category 2 tropical cyclone (SSHWS) | |
.jpg)  | |
| Duration | March 24 – March 28 |
|---|---|
| Peak intensity | 155 km/h (100 mph) (1-min); 972 hPa (mbar) |
Cyclone Catarina was an extraordinarily rare tropical cyclone, forming in the southern Atlantic Ocean in March 2004.[7] Just after becoming a hurricane, it hit the southern coast of Brazil in the state of Santa Catarina on the evening of March 28, with winds estimated near 155 km/h (100 mph), making it a Category 2 storm on the Saffir-Simpson Hurricane Scale. The cyclone killed 3-10 people and caused millions of dollars in damage in Brazil.
At the time, the Brazilians were taken completely by surprise, and were at first in utter disbelief that an actual cyclone could have formed in the South Atlantic despite the insistence of the Miami National Hurricane Center otherwise. Later, they were convinced, and adopted the name "Catarina" for the storm, after Santa Catarina state. This event is considered by meteorologists to be a nearly once-in-a-lifetime occurrence.
Tropical cyclone of February 2006
| Tropical storm (SSHWS) | |
 | |
| Duration | February 21 – February 24 |
|---|---|
| Peak intensity | 100 km/h (65 mph) (1-min); Unknown hPa (mbar) |
A small area of convection 600 miles southeast of Rio de Janeiro was tracked into an area of relatively low shear and marginal 26°C waters on February 23, 2006. The wave had deep convection, was able to form a closed LLC and had 35 mi/h (56 km/h) winds as measured by Quikscat on February 24, 2006. These characteristics were operationally recognized for three hours before high shear began to tear the system apart, just short of the six hours required to be officially declared a tropical depression. The storm was estimated at have peaked in intensity with winds of 65 mph (100 km/h), equivalent to a strong tropical storm, early on February 23. While under study, the system was referred to as 90L Invest. The shear would eventually cause the system to dissipate later that night.[8]
Subtropical cyclone of January 2009
| Subtropical storm (SSHWS) | |
 | |
| Duration | January 28, 2009 – January 31, 2009 |
|---|---|
| Peak intensity | 65 km/h (40 mph) (1-min); Unknown hPa (mbar) |
A cold-core mid to upper-level trough in phase with a low-level warm-core low formed a system over Uruguay and Rio Grande do Sul state in Brazil and moved eastward into the South Atlantic. Winds exceeded 54 kts on the coast of Uruguay and extreme southern Rio Grande do Sul. The storm produced rainfall in 24 hours of 300 mm or more in some locations of Rocha (Uruguay) and southern Rio Grande do Sul. A weather station in Morro Redondo, southern Brazil, recorded 278.2 mm in a 24-hour period. Fourteen deaths and thousands of evacuees are attributed to the storm with an emergency declared in four cities.[9]
Tropical Storm Anita
| Tropical storm (SSHWS) | |
  | |
| Duration | March 8, 2010 – March 12, 2010 |
|---|---|
| Peak intensity | 85 km/h (50 mph) (1-min); 995 hPa (mbar) |
On March 8 2010, a previously extratropical cyclone developed tropical characteristics and was classified as a subtropical cyclone off the coast of southern Brazil. The following day, the United States Naval Research Laboratory began monitoring the system as a system of interest under the designation of 90Q. The National Hurricane Center also began monitoring the system as Low SL90. During the afternoon of March 9, the system had attained an intensity of 55 km/h (35 mph) and a barometric pressure of 1000 hPa (mbar). It was declared a tropical storm on March 10 and became extratropical late on March 12.[10] Anita's ACE was estimated at 2.0525 by the Florida State University. There was no damage associated to the storm, except high sea in the coasts of Rio Grande do Sul and Santa Catarina. Post mortem, the cyclone was given the name "Anita" by private and public weather centers from Southern Brazil. [11]
See also
- Atlantic hurricane
- Hurricane Huron
- List of notable tropical cyclones#Unusual landfalls
- Mediterranean tropical cyclone
- Tropical cyclogenesis#Unusual areas of formation
References
- ^ Chris Landea (Jul 13, 2005). "FAQ: Why doesn't the South Atlantic Ocean experience tropical cyclones?". NOAA. Retrieved May 14, 2009.
- ^ College of Eartha and Mineral Sciences (2004). "Upper-level lows". The Pennsylvania State University. Retrieved May 14, 2009.
- ^ http://www.ofcm.noaa.gov/nhop/09/pdf/04-chap4-09.pdf
- ^ http://ams.allenpress.com/archive/1520-0493/134/11/pdf/i1520-0493-134-11-3029.pdf
- ^ http://www.aoml.noaa.gov/hrd/tcfaq/G6.html
- ^ Monthly Global Tropical Cyclone Summary January 2004
- ^ College of Eartha and Mineral Sciences (2004). "Upper-level lows". The Pennsylvania State University. Retrieved May 14, 2009.
- ^ Gary Padgett (May 2, 2006). "Gary Padgett February 2006 Tropical Weather Summary". Typhoon 2000. Retrieved January 28, 2009.
- ^ Gary Padgett (April 7, 2009). "Gary Padgett January 2009 Tropical Weather Summary". Typhoon 2000. Retrieved May 14, 2009.
- ^ http://www.webcitation.org/5o7vOfDzk
- ^ http://www.metsul.com/blog/