The Conversation: Hurricanes to deliver a bigger punch to coasts

The Conversation: Hurricanes to deliver a bigger punch to coasts

By Ryan Mulligan, Associate Professor, Civil Engineering

March 21, 2019

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[Hurricane Idai flooding]
Flood waters cover large tracts of land in Mozambique after cyclone Idai made landfall. Rapidly rising floodwaters have cut off thousands of families from aid organizations. (World Food Programme)

When tropical cyclone Idai made landfall near Beira, Mozambique on March 14, a spokesperson for the UN World Meteorological Organization called it possibly the .

This storm caused catastrophic flooding and widespread destruction of buildings and roads in Mozambique, Zimbabwe and Malawi. Mozambique鈥檚 President Filipe Nyusi feared the people.

Cyclones, also known as hurricanes or typhoons, are intense wind storms that can take thousands of lives and cause billions of dollars in damage. They generate and raise water levels by creating a . The combined effects cause coastal erosion, flooding and damage to anything in its path.

Although other storms have hit this African coast in the past, the . Warmer-than-usual sea-surface temperatures were directly linked to the near Madagascar and Mozambique in 2000, including . Warmer ocean temperatures could also be behind the intensity of cyclone Idai, as the the long-term average.

may be linked to the increasing intensity of storms making landfall and to the development of strong hurricanes reaching places not affected in recent history. These regions may not be prepared with the coastal infrastructure to withstand the extreme forces of these storms.

The role of climate change

Scientists are working to improve their forecasts for and , and research on is boosting our understanding of the relationship between climate and the formation of hurricanes. Still, there is considerable uncertainty in predicting trends in extreme weather conditions 100 years into the future. Some computer simulations suggest possible changes in these storms due to climate change.

[Hurricane Idai]
Tropical cyclone Idai rapidly strengthened to a category 3 storm in the warm waters between Mozambique and Madagascar. (NOAA)

For example, scientists have computed detailed simulations of hurricane-type storms for future climate-warming scenarios and revealed that in some cases the . The so that there are more major hurricanes (categories 4 and 5 on the ) with winds reaching speeds greater than 209 km/h.

Since these storms are fuelled by ocean heat, warmer ocean conditions will influence their intensity and longevity. This may enable them to travel further over ocean water at higher latitudes, and further across the continent after they make landfall.

With global sea level rise expected to continue to accelerate through the 21st century, the impacts of is also expected to worsen.

Atlantic hurricanes

On the Atlantic coast of North America, the hurricane season starts in June and runs to November. We have very recent reminders that these storms can be catastrophic. , which struck Puerto Rico in 2017, caused infrastructure and may have .

Urban areas can take weeks or months to recover from the flooding caused by the storm surge, which can be compounded by heavy rainfall. When the category 4 hit Houston in 2017, it caused in damage, mostly due to flooding in the metropolitan area.

Hurricanes that reach places that historically have not been affected have major and long-lasting impacts. An example is hurricane Sandy in 2012, the largest storm on record in the Atlantic Ocean. This storm made a westward turn that is tropical hurricane tracks.

Its waves and storm surge , with a huge impact , and causing .

It also had a major economic impact, costing with long-term effects on the and lasting impacts in a densely populated area.

Damage to coasts

Hurricanes can cause severe erosion and breach islands, creating new pathways for water flow between the ocean and back-barrier estuaries. As these storms impact land, they can also create a of fast-moving air, water and debris.

[Hurricane Irma]
Hurricane Isabel made landfall on North Carolina鈥檚 Outer Banks on Sept. 18, 2003. Its effects were felt as far as western New England and into the eastern Great Lakes. (NASA)

Urban coastal areas are under a major threat, since coastal structures may not have been designed for the waves and surges that these storms generate. Hurricane Katrina, the mega-disaster that took more than and cost in 2005, taught engineers the hard way that on bridges, buildings and coastal structures.

The amount of damage a hurricane creates depends on the intensity and characteristics of the storm, combined with the physical and social setting of the coastal area that it hits. Cities face a high risk of hurricane-related disasters, since they contain higher populations and more infrastructure. This can lead to widespread and catastrophic impacts, such as the massive storm surge and flooding generated by , which lead to in the Philippines in 2013.

Future Impacts

Regardless of changes to the climatic conditions that cause hurricanes to form and intensify, the fact is that these storms already occur frequently. Each year, .

Climate change projections suggest the . Ocean warming will enable these storms to travel further, and we may see greater hurricane impacts on coasts in the future.

This could include more storm strikes to northern coasts in places like Atlantic Canada, where in 2003.

We may also see more hurricanes reaching large inland lakes such as the Great Lakes, affecting major cities like Toronto and Chicago. Rare events, such as in 2017, may become more common.

When we build houses, roads and bridges and increase population density in low-lying coastal areas, we walk a fine line if these coastal regions are not prepared for the ferocity of extreme storms in the future.The Conversation


, is an associate professor in Civil Engineering at Queen's.

This article is republished from under a Creative Commons license. Read the .

The Conversation is seeking new academic contributors. Researchers wishing to write articles should contact Melinda Knox, Associate Director, Research Profile and Initiatives, at knoxm@queensu.ca.  

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