Storm surge: Difference between revisions

Storm Surge

A storm surge is a significant rise in sea level resulting from atmospheric pressure changes and wind associated with a storm. This phenomenon is primarily linked to tropical cyclones, hurricanes, and typhoons, but can also occur with extratropical cyclones. Understanding storm surges is crucial for coastal management, disaster preparedness, and mitigating potential damage to infrastructure and loss of life.

Causes and Mechanisms[edit]

The formation of a storm surge is influenced by several factors, including the storm's intensity, speed, size, angle of approach to the coast, and the shape of the coastal land. The primary mechanism behind a storm surge is the wind's force pushing water towards the shore, which can lead to rapid increases in water levels. Additionally, the low atmospheric pressure at the center of a storm can cause the sea level to rise slightly, a phenomenon known as the storm tide.

Impacts[edit]

The impact of a storm surge can be devastating, with the potential to cause extensive flooding, erosion, and damage to buildings and infrastructure. The depth and extent of flooding depend on the surge's height, the local geography, and the presence of coastal defenses. Storm surges can also have significant environmental impacts, including saltwater intrusion into freshwater systems and destruction of habitats such as mangroves and coral reefs.

Prediction and Monitoring[edit]

Advancements in meteorology and oceanography have improved the prediction and monitoring of storm surges. Numerical weather prediction models and storm surge models are used to forecast surge heights and timings, allowing for early warnings and evacuations. Coastal monitoring networks, including tide gauges and satellite observations, play a crucial role in tracking real-time conditions and validating model forecasts.

Mitigation and Adaptation[edit]

Mitigating the risks associated with storm surges involves a combination of hard and soft engineering strategies, emergency preparedness, and community resilience building. Hard engineering solutions include the construction of sea walls, storm surge barriers, and floodgates. Soft engineering approaches focus on restoring and preserving natural barriers such as beaches, dunes, and wetlands. Effective emergency management and public awareness campaigns are essential for reducing the human and economic toll of storm surges.

See Also[edit]

• Flood
• Hurricane Katrina
• North Sea flood of 1953
• Tsunami

References[edit]

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  Storm surge in Wilhelmshaven
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  Damage from Hurricane Ike in Gilchrist
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  Storm surge simulation
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  Diagram of storm surge