Hurricane Erika | |
Formed: | August 14, 2003 |
Post-Tropical: | August 17, 2003 |
Dissipated: | August 20, 2003 |
Winds: | 65 |
Pressure: | 986 |
Year: | 2003 |
Fatalities: | 2 direct |
Damage: | 100000 |
Areas: | The Bahamas, Florida, Mexico, Southern Texas |
Hurricane Erika was a weak hurricane that struck extreme northeastern Mexico near the Texas–Tamaulipas border in mid-August of the 2003 Atlantic hurricane season. Erika was the eighth tropical cyclone, fifth tropical storm, and third hurricane of the season. At first, the National Hurricane Center (NHC) operationally did not designate it as a hurricane because initial data suggested winds of 70mph at Erika's peak intensity. It was not until later data was analyzed that the NHC revised the storm to Category 1 intensity in the Saffir-Simpson Hurricane Scale. The storm developed from a non-tropical area of low pressure that was tracked for five days before developing in the eastern Gulf of Mexico on August 14. Under the influence of a high pressure system, Erika moved quickly westward and strengthened under favorable conditions. It made landfall as a hurricane on northeastern Mexico on August 16, and the storm's low-level circulation center dissipated by the next day. However, the storm's mid-level circulation persisted for another three days, emerging into the East Pacific and moving northwestward over Baja California, before dissipating on August 20.
While Erika's precursor disturbance was moving across Florida, it dropped heavy rainfall. In south Texas, Erika produced moderate winds of 50to along with light rain, causing minor and isolated wind damage in the state. Erika produced moderate rainfall in northeastern Mexico, resulting in mudslides and flooding. There, two people were killed when floodwaters swept away their vehicle.
A weak surface area of low pressure detached from a frontal system on August 8, while located 1150miles to the east of Bermuda. It moved southwestward, and on August 9, it generated convection as it passed beneath a cold-core upper-level low. The surface low and the upper-level low turned westward as it revolved around a common center, and by August 11, the surface low developed into a trough while 440miles south of Bermuda. As the system rapidly continued westward, much of the convection remained near the center of the upper-level low, preventing development of a closed surface circulation. On August 13, while located near the northwestern Bahamas, a substantial increase in convection resulted in the upper-level low building downwards to the middle levels of the troposphere, coinciding with the development of an upper level anticyclone.[1]
A closed low-level circulation nearly developed on August 14 to the east of Key Largo, Florida, but it weakened due to the deep convection remaining to the north over the mid-level center. The mid-level storm continued westward and moved across Florida.[1] After crossing Florida, Hurricane Hunters indicated a poorly defined circulation, but with winds exceeding tropical storm strength, and the system was designated as Tropical Storm Erika late on August 14 while located 85miles west of Fort Myers.[2]
With well-established outflow and low levels of wind shear,[2] Erika strengthened as the circulation became better defined. A high pressure system persisted over the south-central United States, forcing the storm to move just south of due west at 25mph. On August 15, convection organized into bands, and as its winds approached hurricane strength, an eye developed within the storm. Erika turned to the west-southwest on August 16, and attained hurricane status just prior to making landfall near Boca San Rafael, Tamaulipas, in northeastern Mexico, or about 40miles south of the United States–Mexico border. The storm rapidly weakened over the mountainous Sierra Madre Oriental, and Erika's low-level circulation center dissipated early on August 17.[1] The mid-level circulation maintained integrity as it crossed Mexico, and led to the formation of a tropical disturbance after entering the Gulf of California on August 18. It turned to the northwest and weakened on August 20, before dissipating soon afterward.[3]
Operationally, Erika was never upgraded to hurricane status. However, based on a persistent eye feature on radar and Doppler weather radar-estimated surface winds of 75mph, the National Hurricane Center posthumously upgraded Erika to a hurricane.[1]
The threat of Erika's onslaught prompted the evacuation of 51 oil platforms and 3 oil rigs in the western Gulf of Mexico. The lack of production led to a loss of production of 8708oilbbl of oil per day and 173.14e6cuft of natural gas per day. On the day of its landfall, the lack of production led to 1,979 less barrels of oil for the day, or about 0.12% of the total daily production for the Gulf of Mexico, while the loss of 32Mcuft of gas for the day was equivalent to 0.23% of the total production.[4] However, due to its rapid motion, the passage of the storm resulted in minimal effects on operations.[5]
While the storm was located in the eastern Gulf of Mexico on August 15, the National Hurricane Center issued a Hurricane Watch and Tropical Storm Warning from Brownsville to Baffin Bay, Texas. The center also recommended a Hurricane Watch spanning from Matamoros to Nuevo Laredo, Tamaulipas,[6] and from Soto la Marina to the international border. Late that same day, when strengthening was underway, a Hurricane Warning was either issued or recommended from La Pesca, Tamaulipas, to Baffin Bay, Texas, though the warnings for south Texas were dropped when a more southward motion occurred.[1] Just one month after Hurricane Claudette caused millions in damage in south Texas, the fast movement of Erika caught citizens by surprise as it was forecast to make landfall near Brownsville. Citizens and business owners boarded up for the storm.[7] About 10,000 were evacuated from northeastern Mexico due to the threat of flooding,[8] including 2,000 in Matamoros.[5]
The precursor disturbance was expected to bring heavy, yet needed rainfall to the Bahamas.[9] The precursor disturbance dropped heavy precipitation while moving across Florida, including in Indian River County,[10] and also produced 6– waves with moderate wind gusts.[11]
Erika produced light rainfall across southern Texas, peaking at 3.83inches in Sabinal, though most locations reported less than 2inches of precipitation. In addition, weather radar estimated isolated accumulations of 4to of precipitation in Kenedy and Brooks Counties. Sustained winds from Erika in south Texas peaked at 39mph in Brownsville, where a gust of 47mph was also recorded.[1] Strong waves were reported northwards to Corpus Christi.[12] The storm caused minor flooding and beach erosion along South Padre Island.[1] Strong wind gusts of up to 60mph caused isolated, minor wind damage in south Texas, including in South Padre Island, where the winds damaged the roof of a business. The winds also uprooted a large tree and caused limb damage to several small- to medium-sized trees in Brownsville. In Texas, damage totaled to $10,000 .[13]
In Mexico, Hurricane Erika primarily affected the states of Tamaulipas and Nuevo León, but also had effects on Coahuila as well. Rainfall peaked at 6.71inches in Magueyes in Tamaulipas.[14] Several other locations reported over 3inches,[1] including 4.02inches in Cerro Prieto, which was the maximum amount in the state of Nuevo León,[14] and 3.42inches in Monterrey,[1] where 30 people were injured.[8] Sustained winds peaked at 40mph in San Fernando, where a gust of 65mph was also reported.[1] The heavy rainfall resulted in severe flooding and mudslides, blocking several highways in northeastern Mexico.[14] In Matamoros, the storm damaged roofs and cars.[8] Moderate winds snapped tree branches and spread debris across roads, though locals considered the storm minor.[5] In the Nuevo León city of Montemorelos, two people died when they were swept away after they drove their truck across a partially flooded bridge.[1] Throughout Mexico, 20,000 people were left without power due to the storm.[8] The remnant circulation produced heavy amounts of precipitation in western Mexico and on the Baja California peninsula.[3] [15]