Chapter 3 - Weather Hazards
A concise flashcard set explaining key concepts of global atmospheric circulation, including how it influences climate zones, the role of sunlight and latitude, convection cells, the Hadley cell, and global wind patterns.
What’s global atmospheric circulation
Helps to explain the location of world climate zones and the distribution of weather hazards
Key Terms
What’s global atmospheric circulation
Helps to explain the location of world climate zones and the distribution of weather hazards
What’s the most important influence on worldwide variations in climate/ tell me about how sunlight affects the climate
Latitude, because the curved surface of the earth, the equator receives much higher insolation that the polar latitudes ...
What’s a convection cell
The low pressure belt at the equator and the high pressure belt at the poles provides the basis for a simple convection ...
What’s the Hadley cell
The areas of high pressure at the tropics of cancer and Capricorn, air sinks towards the ground there and as it descends...
What’s global circulations
Involves 3 cells Becuase the earth rotates on its axis , the movement generates strong, high altitude winds which wrap a...
What are jet streams
Strong high altitude currents of air
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| Term | Definition |
|---|---|
What’s global atmospheric circulation | Helps to explain the location of world climate zones and the distribution of weather hazards |
What’s the most important influence on worldwide variations in climate/ tell me about how sunlight affects the climate | Latitude, because the curved surface of the earth, the equator receives much higher insolation that the polar latitudes - where’s as at low latitudes, sunlight is more highly concentrated As a result, air at the equator is heated strongly - it becomes less dense and rises to high altitude, this creates a global climate zone of low pressure, the equatorial zone In low insolation received at polar latitudes result in colder, dense air and high pressure As the air sinks towards ground level, it spreads out and flows towards the equator |
What’s a convection cell | The low pressure belt at the equator and the high pressure belt at the poles provides the basis for a simple convection cell to operate |
What’s the Hadley cell | The areas of high pressure at the tropics of cancer and Capricorn, air sinks towards the ground there and as it descends the air warms. The result is high pressure and hot, dry desert conditions. This circulation of air between the tropics and equator is the Hadley cell |
What’s global circulations | Involves 3 cells Becuase the earth rotates on its axis , the movement generates strong, high altitude winds which wrap around the planet like belts These winds flow towards the east, as the earth spins and interact with the convection cells. |
What are jet streams | Strong high altitude currents of air |
What are the global convection cells | Polar cell, Ferrel cell, Hadley cell |
How is precipitation influenced by global pressure and surface winds at the equator | Rainfall is high and constant throughout the year near the equator. As hot air rises, it cools slightly. Water vapour is converted into droplets of conventional rain |
How is the intertropical convergence zones precipitation affected by global pressure and surface winds | It’s a low pressure zone, air rises and triggers bursts of torrential rain. Sometimes the area grows a wave of low pressure which extends further than usual. Tropical storms develop along these waves. Once they gain energy, they can travel even further away from the equator |
How is rainfall affected by coastal areas in Europe by global pressure and surface winds | Rainfall often higher due to movement of the jet stream over Atlantic. Rain bearing weather systems called depressions or cyclones follow the jet stream, often bringing stormy conditions to the uks west coast |
How is rainfall affected in the tropics by global pressure and surface winds | Rainfall is often low around the tropics of Capricorn and cancer. Dry air descends there as part of the Hadley cell, resulting in arid conditions |
Tell me how rainfall is affected in the polar regions by global pressure and surface winds | Precipitation is low in polar regions and mainly falls as snow. The cold air has a limited ability to hold water vapour |
What are tropical storms | Are a natural hazard Occurs when warm air rises to create an area of intense low pressure, much lower than depressions experienced in the U.K.. As the warm moist air reaches high altitudes, powerful winds spiral around the calm central point , creating the “eye of the storm” and the warm air cools and condenses into heavy rainfall and thunderstorms |
How are names of tropical storms made | They are alphabetical and alternate in gender, more recognisable and engaging for public when given names rather than coordinates. Names repeat every 6 years unless a large loss of life or cost In damage would make it insensitive to repeat it |
What are tropical storms called | They are called differently deepening on their location Hurricanes in Atlantic and eastern Pacific oceans Typhoons in the west of the North Pacific Ocean Cyclones in the Indian and South Pacific oceans |
Where do tropical storms occur | In the tropics where the intertropical convergence zone is - broadly south of the tropic or cancer and north of the Tropic of Capricorn Found in areas of low latitude - between 5 and 30 degrees north and south of equator Here a higher insolation means temperatures are higher than at the poles |
Tell me the conditions for a tropical storm to form | Sea must be about 27 C and a depth of 60-70 Metres This provides the heat and moisture that causes the warm air to rise Rapids in this low pressure region. Latent heat is then released which powers the tropical storm . The warmest seasons are between summer and autumn which is most typical for tropical to develop There is low wind shear (which remains constant and does not vary with height) so that the tropical storm clouds can rise to high levels without being torn apart They don’t develop on along the equator because the Coriolis effect is not strong enough here for strong tropical storms to spin |
How does a tropical storm form | Air is heated above the surface of warm tropical oceans, the warm air rises rapidly under the low pressure conditions The rising air draw up more air and large volumes of moisture from the ocean, causing strong winds The Coriolis effect causes the air to spin upwards around a calm central eye of the storm As the air rises, it cools and condenses to form large, towering cumulonimbus clouds which generate torrential rainfall. The heat given off when the air cool powers the tropical storm Cold air sinks in the eye, therefore there is no cloud, so it’s drier and much calmer The tropical storm travels across the ocean in the prevailing wind When the tropical storm meets land it is no longer fuelled by the source of moisture and heat from the ocean and so it loses power and weaken, the air pressure and temperature rise. Wind and rainfall subside |
Why does a tropical storm spin | The Coriolis effect bends and spins the warm rising air. Hurricanes in the northern hemisphere bend to the right, which causes the clouds to swirl anti clockwise whereas cyclones in the Southern Hemisphere swirl In a clockwise direction |
What direction do tropical storms travel | Travel from east to west due to the direction the earth spins When they hit land, they lose their energy source from the sea that powered them - friction also allows them to slow down and as they slow doe they change direction |
| 1-2 weeks |
What is the Coriolis effects | Wind blows from areas of high pressure to areas of low pressure, as the earth rotates it causes wind to bend because the earths curvature and so the earth spins faster at the equator and difference in speed means that wind bends as it blows across the earth |
How could climate change alter the conditions that cause tropical storms to formed | As the temperature increases, sea levels will rise due to thermal expansion. The impact of rising sea levels will mean storm surges are expected to become higher A Warmer atmosphere will mean the air can hold more moisture. So heavy rainfall is expected to increase. Therefore flooding during a tropical storm would be more destructive |
How does climate change affect the intensity of tropical storms | There is evidence of warmer oceans and the intensity of tropical storms - and expected to become more severe Every 1 C increase in sea surface temperatures will mean a 3-5 percent increase in wind speed |
How does climate change affect the frequency and distribution of tropical storms | Frequency to stay same or decrease By will be more severe storms, and category 1-3 storms will decrease The regions where tropical storms are experienced are not expected to change significantly as a result of climate change |
How does the uncertainty of tropical storms change due to climate change | Predicting impacts is unreliable as the rate of and impact of climate change in the future is uncertain Potential risk to like and property has already increased due to population growth and building in coastal locations even without factoring in climate change |
What are the effects of a tropical storm | Landslide and tornadoes can also be caused by tropical storms Wind speeds are at least 119kM an hour they can demolish houses across ,whole towns and villages, electricity power lines Flooding caused by heavy rain from storm surges - can be up to 5 metres Aid is hampered as roads are flooded |
How are tropical storms measured | Measured using the saffir-Simpson hurricane wind scale It's based on when's speed The higher the category scale 1-5 the higher the intensity of a tropical storm |
What are the responses to a tropical storm | Evacuation to higher ground or even to emergency storm shelters Distributed emergency food and water To survivors, aid may be hindered if roads have become blocked by debris or fallen trees or flooded. |
Tell me about a wind category 1 storm | Some damage to well constructive roofs, large branches of trees will snap, power outraged could last several days Very dangerous winds will produce some damage |
Tell me about a wind category 2 storm | Well constructed roofs will have major roof damage, shallow rooted trees will be snapped or uprooted Near total power is lost and power outrages could last from several Days to weeks Extremely dangerous winds will cause extensive damage |
Tell me about a wind category 3 storm | Devastinh damage, major damage to roof or removal Electricity and water will be unavailable for several days to weeks after storm passed |
Tell me about a wind category 4 storm | Catastrophic damage will occur Loss of most of the roof structure Most trees will be snapped or uprooted Most of area will be uninhabitable for weeks or months |
Tell me about a wind category 5 storm | Catastrophic damage will occur Frames of houses destroyed, total roof failure, fallen Trees, power outraged will last for weeks week months and area will be uninhabitable for weeks to months too |
What's sustainable development | After initial relief effort, these are long term repainted that take longer to implement but have longer lasting impacts Projects include repairing damage to existing buildings, infrastructure and businesses Investing In methods of protection and prediction in storms such as a new warning system for storm surges or new sea defences |
How what the speed to start long term responses depend on | The wealth of country How much destruction Help available from other countries, organisations and charities |
What does monitoring tropical storms mean | Allows predictions to be made which can save lives and reduce impact |
How can satellites monitor tropical storms | There's a classic cloud pattern associated with tropical storms that satellites can monitor The global precipitation measurement satellite measure preoccupation every 3 hours between latitudes 65 degrees north and south of equator to identify the high altitude rainclouds |
How can aircraft monitor tropical storms | They can collect air pressure, rainfall and wind speed data, they release drop sondes (sensors) which send measurements every second by radio back to the aircraft On board radar and microwaves help scientists to understand more about the formation of tropical storms to improve forecasting models |
Can tropical storms be predicted | All available weather data is fed into supercomputers which run models to predict the path and intensity of tropical storms Can now give 4 days warning and a location within 400km accuracy Cyclone Phailin predicted and 1.2 million evacuated |
What's the problem with evacuation | Is costly and time consuming, especially if the path of tropical storm does not pass area they live |
How can we protect ourselves from tropical storms | Areas can be reinforced to reduce damage caused by winds- mitigation Install hurricane straps between the roof and walls Install storm shutters on Windows Install an emergency generator Tie down windborne objects Reinforce garden doors Remove trees close to buildings Coastal flood defences such as levées and floodwalls reduce impact on storm surge |
How can planning reduce risks | Prepare disaster supply kits Having fuel in vehicles Knowing where official evacuation shelters Storing loose objects Planning with family what to do |
What's extreme weather | It's damage done to societies that make these event hazardous Main types of hydro meteorological hazards: storms, flooding, drought and extreme cold weather |
Tell me about general flooding in the U.K. | Caused by heavy rainfall or strong waves brought by a depression May also trigger landslide as a secondary hazard |
Tell me about coastal flooding | A deep depression brings a storm surge to a major river estuary Strong winds funnel coastal water into the mouth of a river In 1953, 300 people died when a storm surge hit the Thames estuary |
Tell me about river flash flooding | High intensity Rainfall brings flash flooding especially on steep slopes |
Tell me about slow onset river flooding | A long period of steady rainfall gradually saturates the catchment soil |
Tell me about surface water flooding | Intense rainfall collects in hollows and depressions where homes are located |
Tell me about storm events in the uk | U.K. Regularly hit by depressions which bring heavy rainfall and trigger river floods |
Tell me about tornadoes in the uk | A tornados is a rotating column of spiralling sit whose formation is triggered by strong heating of the ground |
Tell me about droughts in the uk | It's an extended period of low or absent rainfall relative to expected average for a region 15 days with less than 0.2mm of rain means there may be insufficient moisture for average crop production |
Tell me about extremes of cold water in the U.K. | Cold conditions take over if depressions are not passing over the uk as usual Freezing conditions mean trains can be cancelled Blizzard conditions - transport grinds to a halt, creating costly airline delays |
How could we manage the risk of extreme weather in uk | Use Twitter and other social media to alarm others of damage Future proof their homes by very sensibly having stone tiles rather than carpets in their ground and basement rooms |
What are bottom up actions | Actions people take to increase their human resilience to hazards |
What are top down actions | Taken to protect communities |
What top down actions can we take for droughts | A hose pipe ban can be put in place - even send out hose pipe patrols Water supplies to houses are turned off and members of public take their then queuing in the street at standpipes Encourage people to have a water meter fitter and do more to repair old water pipes |
What top down actions can be taken to storms | The U.K. met office is trying to improve weather predictions Severe weather warnings can be issued using social media and social media Airlines and rail companies cancel their services when there are very strong winds |
What top down actions can be taken for floods | The Thames barrier was completed to avoid storm surges The environment agency constantly monitors ground moisture levels in river basins so EA can make accurate flood predictions to allow evacuation Any new housing on floodplains face higher insurance bills - deter construction |
What top down actions can we take for cold water | Clear roads of snow and ice Make announcements in media warning people to take care while in blizzard conditions Charities for elderly raise awareness about more health risks for old people in cold conditions - work to raise public awareness of issue |
How has climate change changed storm frequency | There has been an increase in extreme rainfall since 1980s as the Atlantic Ocean has warmed and rain bearing depressions will be |
What does temperature record tell us about drought frequency | U.K. Temps have increased by 1 C since 1980 - however in the graph showing temp change the spikes shown don't all correspond with drought where the spikes are a higher temp as rain deficiency is needed to |
What are the extreme weather predictions for the future | Some suggest a global Temp rise of 2-3 C in the 21st century If this happens U.K. Could face warmer and wetter winters - more rain bearing depressions Risk of extreme flooding and high winds will increase A global temp increase of 4-5 C would melt a lot of land and sea ice in artic, colder water would pour into the North Atlantic which would cause unknown effects but with a warmer world the U.K. Could be left facing more extremes of cold water |
Tell me about the current and predicted precipitation | No change in annual uk total but more winter rainfall has fallen in heavy events since 1980s But in future will become more seasonal but annual uk total will stay the Same |
Tell me about the current and predicted changes in river flow | The frequency and magnitude of winter river flooding has increased since 1980s Some predict uk river will flood more in future winters |
Tell me about current and future evaporation changes | Not sure if evaporation has increased but temp has risen by 1 C Evaporation will increase due to higher air temps causing more droughts |