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Unit 2 Section C - Causes and effects of tropical storms and responses to them

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Saved by K J Hutchinson
on April 18, 2010 at 2:46:22 pm
 

Lesson 1 - What is a tropical storm? Where do they form?

 

Learning objectives:

- to know what a tropical storm is

- to be able to explain the physical processes leading to the formation of a tropical storm

- to be able to describe the locations in which we find tropical storms

- to know how the Saffir-Simpson scale is used to classify tropical storms

 

Note: Depending on where you are in the world, you may call the tropical sotrm by a different name. In the USA, they are referred to as hurricanes; in Bangladesh, they are called tropical cyclones; in Japan, people speak of typhoons; in Australia, they have willw-willies. All of these terms refer to the same weather event. We will call them tropical storms unless we are referring to specific storms, in which case they will be given local names (eg. Hurricane Katrina; Cyclone Nargis).

 

Tropical storms are areas of intense low pressure. On a satellite image, a tropical storm will show as a huge, swirling mass of cloud. The eye (calm area) is at the centre. You can see this in the image below. It shows Tropical Storm Edzani over the Southern Indian Ocean and was taken on 7th January 2010.

 

 

There are several stages in the formation of a tropical storm. These storms occur over water in areas where the sea surface temperature is at least 27 degrees. Essentially, this means that they form between the Tropic of Cancer and the Tropic of Capricorn (hence the name 'tropical' storm). They rarely occur within 5 degrees either side of the equator because the Coriolis force is too weak here.

 

Tropical cyclones use warm, moist air as fuel. That is why they form only over warm ocean waters near the equator. The warm, moist air over the ocean rises rapidly upward from near the surface and becomes saturated with evaporated moisture. This means that there is less air left at the surface (i.e. low pressure). Air from surrounding areas with higher air pressure pushes in to the low pressure area to try to equalise the pressure. Then that “new” air becomes warm and moist and rises, too. As the warm air continues to rise, the surrounding air swirls in to take its place. Trade winds cause the moist air to spin inwards. As the warmed, moist air rises and cools off, the water in the air forms towering cumulonimbus thunderclouds (because there is a huge amount of condensation). The whole system of clouds and wind spins and grows, fed by the ocean’s heat and water evaporating from the surface. The diagram below shows a cross section through a tropical storm.

 

 

Storms that form north of the equator spin counterclockwise. Storms south of the equator spin clockwise. As the storm system spins faster and faster, an eye forms in the centre. It is very calm and clear in the eye, with very low air pressure. Higher pressure air from above flows down into the eye.

 

The video clip below explains this process in images.

 

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When the winds in the rotating storm reach 39 mph, the storm is called a tropical storm. When the wind speeds reach 74 mph, the storm is officially a tropical cyclone, or hurricane. The strength of a storm is measured using the Saffir-Simpson scale, as shown in the table below.

 

 

Tropical cyclones usually weaken when they make landfall (i.e. hit the land) because they are no longer being fed by the energy from the warm ocean waters. In the northern hemisphere they track (i.e. move) westwards due to the Coriolis effect. The video clip below shows Hurricane Dean, from birth to death.

 

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Useful weblinks:

BBC animation - the formation of a hurricane

NASA animated guide to the development and structure of tropical storms

Make a tropical storm - simulator

Investigate how winds work together to determine where a hurricane will strike - simulator

BBC Bitesize revision notes about the formation of tropical storms

 

Lesson 2 - The effects of tropical storms

 

Learning objectives:

- to be able to distinguish between primary and secondary effects of tropical storms

- to be able to categorise the effects of tropical storms into social, economic and environmental (SEE)

- to understand why storm surges can accompany the landfall of a tropical storm

 

We have already seen that the effects of earthquakes and volcanoes can be classified into primary and secondary effects. The same is true of the effects of tropical storms. Primary effects are those that result directly from the event itself. Secondary effects are those that result from the primary effects. The exam specification states that you must be able describe effects in both of these categories.

 

Primary effects of tropical storms

 

Primary effects of tropical storms include high winds, torrential rain and storm surges at landfall (more about this one later on). There may also be localised tornadoes and waterspouts. These are all physical effects.

 

Secondary effects of tropical storms

  

Secondary effects of tropical storms are very wide-ranging. We tend to divide them into social, economic and environmental effects (the SEE classification). To remember this, think about how a good geographer must open their eyes and SEE the world! 

Why not watch the video clips below (about Hurricane Andrew and try to make a list of the primary and secondary effects of the storm. You should also try to classify them into social, economic and environmental. Use the video clips to give you ideas, but do not limit yourself to the information included in the clips!

 

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Social effects of tropical storms

 

There are likely to be food and water shortages.

As a result of extensive flooding, people may catch water-borne diseases. This may eventually lead to death.

Communities are displaced from their homes, and may be broken up if the area is not restored. Many people are made homeless.

People suffer from stress due to loss of possessions and housing.

There may be looting of properties - domestic and commercial.

People may lose their jobs if they work in an industry that has been badly affected.

If insurance premiums rise in the future, some people may not be able to afford them and will consequently not be financially protected against future storms.

People might be stranded due to flooding - this will cause trauma.

 

Economic effects of tropical storms

 

There are the obvious costs of repairing any damage caused.

Insurance claims will be made, and this may cause the cost of insurance premiums to rise in the future.

Whilst businesses are closed, earnings (and profits) will be lost.

Crops may be damaged and exports lost. These may be a key source of income for the local economy.

Oil prices may increase (this was a significant effect in the aftermath of Hurricane Katrina).

 

Environmental effects of tropical storms (sometimes referred to as physical effects)

 

A huge amount of water is released in a tropical storm so there will be extensive flooding.

Flooding might led to swer systems being flushed out and spreading disease.

There will be structural damage to buildings and they may have to be pulled down and rebuilt. This is very costly. Other buildings may have broken windows, chimneys etc.

Roads and other infrastructure such as railways may be destroyed. This can lead to communication problems.

Electricity lines might be blown down and, as a result, people could be without power supplies.

Sensitive ecosystems may be destroyed and plant and animal habitats lost.

Sea fish are often killed because of silting, and freshwater fish may be killed in storm surges.

Fishing boats and other craft may be damaged.

Crops and livestock may be damaged or destroyed.

Mudslides become common because the soil is saturated. They will flow quickly down hillsides and may bury houses, crops and livestock (or even people).

 

Storm surges

  

Storm surges occur where the sea level along a shoreline rises as the result of a storm. This is shown in the diagram below.

 

 

There are two main causes of storm surges (described below and shown on the accompanying diagram):

 

1. The eye pile. The low pressure draws the water beneath it upwards to form the eye pile. It gets dragged along with the eye. The eye pile grows in height as it is forced into shallower water. It splats onto the land as the storm makes landfall.

 

2. Wind-blown water. Zonal winds push the water in the same direction that they are moving. If the winds blow long enough and hard enough, the water banks up and floods the land when the winds blow onshore.

 

 

The shape of the coastline will affect the likelihood of there being a damaging storm surge. The steepness of the shoreline affects the manner in which the waves strike it, as shown on the two animations below.

 

         

 

Storm surges can cause considerable damage to property and to people!

 

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Useful weblinks: 

An experiment to see how the shape of the coastline affects storm surges - you will need playdough, sugar cubes and a hair-dryer!

 

Lesson 3 - MEDC case study: Hurricane Katrina, New Orleans, USA

 

Learning objectives:

- to develop a case study factfile for Hurricane Katrina

- to begin to consider how the effects of tropical storms might vary among countries with different levels of economic development

 

The exam specification requires you to study the effects of tropical storms in both MEDCs and LEDCs so that you can compare how they vary among countries with different levels of economic development.

 

Hurricane Katrina struck in August 2005. It tracked over the Gulf of Mexico and devastated most of the coastline from Louisiana to Alabama (see map below). It arrived as a category 4 storm with winds of over 140 mph and a storm surge of approximately 6 metres. The city of New Orleans was very badly affected because it is mostly below sea-level and is surrounded by water. The city was protected by defence walls called leveees. However, the levees were overwhelmed by the extra water from the storm surge and rainfall, and many collapsed allowing water to flood into the city. ABout 80% of the city was flooded to depths of up to 6 metres.

 

         

 

The National Hurricane Centre predicted accurately where Hurricane Katrina would make landfall and how strong it would be. This gave people the opportunity to prepare for the storm. The mayor of New Orleans ordered people to evacuate the city. About 80% of the city's residents did so, but about 20% remained. The majority of these were in the poorest areas of the city (people had little access to transport so couldn't leave in many cases).

 

Over 10,000 people sought refuge in the city's Superdome football stadium. Conditions here deteriorated quickly - food and water soon ran out and the toilet facilities were inadequate. The atmosphere in the stadium was described as 'very tense and unsafe'.

 

         

 

More than 80% of the city was submerged with floodwater and over 1200 people drowned. Approximately 1 million people were made homeless and thousands of businesses were destroyed. Thousands of jobs were lost and millions of dollars lost in tax income. There was a lot of looting. Criminal gangs roamed the streets, looting homes and businesses and committing other crimes.

 

Major highways were disrupted and some major road bridges were destroyed. Agricultural production was badly damaged by the tornaodes and also by flooiding. Cotton and sugar-cane crops were flattened.

 

Hurricane Katrina didn't just impact people in the USA. Many offshore oil facilities were damaged and supplies of oil werev reduced. This caused the price of oil to rise on the global markets and the price f petrol in the UK rose as a result.

 

Estimates suggest that Hurricane Katrina has cost over $300 billion. This makes it one of the costliest hurricanes ever to hit the USA.

 

Useful weblinks: 

The Met Office's guide to Hurricane Katrina for GCSE students (this is well worth reading as a summary of the case study)

BBC Special in-depth report on Hurricane Katrina - lots of useful weblinks from this page

BBC animation showing Katrina's track and where she made landfall

BBC guide to how the levees were repaired in New Orleans

 

 

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