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CLIMATOLOGY

CLIMATOLOGY
WEATHER, CLIMATE AND NATURAL REGIONS
Weather is the atmosphere condition of an area recorded within a short period of time which can be day after day or week after week or after a certain period of time.
The weather condition of the area is determined by recording to the behavior of weather elements such as temperature, humidity, sunshine cloud cover, rainfall, wind etc.
Climate is the description of the atmospheric condition which is recorded over a long period of time which can be above 30 years.
It is determined by measuring or recording the behaviors of weathers elements within a long period of time.
Climatology is the science which involves analysis of spatial distribution of atmospheric phenomena. It is a scientific study of different processes and conditions taking place in the atmosphere.
Micro- climate refers to the atmospheric condition of a small area which is different from the surrounding area.
Isolation is the solar radiation from the sun received in the atmosphere and on the surface of the earth or it is the total energy generated from the sun and received in the atmosphere and on the surface of the earth.
Weather station is the place where all elements of weather are observed, measured and recorded.
Weather forecasting is the practice of predicting future weather condition of the given area. It can be done into two ways
i. Traditional ways
ELEMENTS OF WEATHER
1. TEMPERATURE
Temperature is the degree of hotness or coldness of an area or a body.
Temperature is measured or expressed in terms of centigrade’s
Temperature of the earth’s surface originates from the sun and it called solar energy. Solar energy when reached on the earth’s surface is transformed into heat by the land and the atmosphere before it reaches the surface of the earth.
The amount of incoming solar radiation or isolation received in the area depends on intensity and duration of radiation from the sun. There are determined by both angles at which sunrays strike the earth and the number of day light hours. The two fundamental factors plus the following five factors determine the temperature of any given area on the surface of the earth.
Other factors which influence temperature are;
i. Earth’s inclination (angle of the sun towards the earth)
The axis of the earth that is the imaginary line connecting the North Pole through the South Pole always remains in the same position.
It is titled at about 23.5EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY away from the perpendicular. Every 24hours the earth rotates once at that axis, while rotating the earth slowly revolve around the sun in a nearly circular, annual orbit. If the earth was not titled from the perpendicular, the solar energy received at given latitude would not vary during the course of the year. The rays of the sun would strike the equator and all other parts of the earth equally. When the Northern hemisphere is directly titled towards the sun, the vertical rays of the sun are felt as far North as 23.5 North latitude. Tropical of cancer and this occurs on June 21st and it is called summer solstice, and also winter solstice in the southern hemisphere.
ii. Cloud cover
Clouds which are denser concentrated normally tend to reflect a great deal of energy light, colored surface especially snow cover also serve to reflect large amount of solar energy, therefore the amount of cloud cover amount of sunrays that would reach the surface of the earth. More cloud cover reduces the amount of heat on the surface of the earth. Energy is lost through re-radiation as well as reflection. In re-radiation process the earth’s surface act as a communicator of energy, the energy that is absorbed into the land and water is returned to atmosphere in the form of terrestrial radiation.
iii. Nature of earth’s surface.
Some kinds of earth’s surface materials especially water stone solar energy more effectively than others. Because water is transparent solar rays can penetrate a great distance below its surface. If water currents are present, heat is distributed even more effectively.
The land surface are opaque, so all the energy received from the sun is concentrated at the surface therefore the temperature of the earth between water bodies and the land is different where by the land earth experience more high temperature than the water bodies. Because the earth’s heats and cools faster than water, hot and cold temperature are recorded on the earth or on the land and not in the sea or water bodies.
iv. The distance of elevation above the sea level
The temperature on the surface of the earth vary with the variation in altitudes but in every 100m rise above the sea level, the temperature decreases to the rate of 0.65EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY and this process is called temperature lapse rate.
v. The distance from the sea
Note that, coastal areas have lower summer temperatures and higher winter temperatures than those places at the same distance from the equator excluding sea coasts. This difference in temperature during different season is influenced by water bodies.
vi. Ocean currents
Ocean currents are divided into two types as;
a. Warm ocean currents: warm ocean rises the temperature over the areas they flow
b. Cold ocean currents lowers the temperature of the areas they flow
TEMPERATURE LAPSE RATE AND TEMPERATURE INVERSION
Temperature lapse rate
A temperature lapse rate is the atmospheric condition where temperature decreases with an increase in altitudes. It is mostly found in troposphere and mesosphere. There are two types of temperature lapse rate.
i. Normal lapse rate
It is also called environmental or static lapse rate. It refers to the decrease in temperature due to increase in altitude in the rate 0.65EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY for every 100m above the sea level.
ii. Adiabatic lapse rate
Is the rate of decrease in temperatures with the rising air mass. It is divided in two types.
a. Dry adiabatic lapse rate (DALR) / un saturated.
It is the rate of cooling of a rising dry at the rate of 1EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY per 100m or 10EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY per 1km.
b. Wet adiabatic lapse rate (WALR)/saturated
It is the rate of cooling of a rising saturated air at the rate of 6EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY for every 100m
Temperature inversion
Under normal situation from environmental situation atmospheric temperature decreases with increase in altitude but in some occasions, Atmospheric temperature tends to increase with increase in altitude.
Temperature inversion is the atmospheric condition where temperature increases in height or altitude. It is mostly observed in stratosphere and thermosphere.
In stratosphere, temperature increases due to concentration of ozone layer or ozone gas which absorbs incoming solar radiation from the sun and converting it into heat energy making the upper part of the atmosphere to be more heated than the lower parts.
In thermosphere temperature increases with increase in height due to concentration of atomic oxygen and presence of electrically charged particles which absorbs incoming solar radiation.
Causes of temperature inversion
i. Presence of ozone gas
In the atmosphere the gas absorbs solar radiation and changing it into heat which eventually increases the temperature on the upper part of the stratosphere and other layers of the atmosphere.
ii. Presence of atomic oxygen gas and electrically charged particles
In the thermosphere these gas and particles increases heat on the atmosphere as the altitude increases.
iii. Terrestrials radiation
During night, there is no sunshine thus the earth’s surface especially the land looses heat more rapidly and this makes warm air to be uplifted or rise up from the land. The process warm up the upper part of the atmosphere increasing the temperature as the altitude increases.
Along wave radiation is responsible for this process.
iv. Convergence of air masses(formation of air fronts)
Convergence of air masses of different temperature condition makes warm air to be forced up by cold air which descends from the atmosphere to the surface of the earth.
v. Presence of water vapour(atmospheric components)
Clouds, dust and other materials on the atmosphere which reflects and absorbs incoming radiation from the sun changing them into heat energy which lattes warm up the atmosphere.

SOLAR RADIATION
Weather results from the interaction of solar radiation on the earth’s atmosphere and the earth’s surface. The two movements (rotation and revolution) explain the changing elevation of the sun as well as latitudinal and seasonal variations in length of the day, receipt and escape of radiation and weather.
The sun is the source of all energy on the earth’s surface. Only a portion of sun radiation reaches the earth’s surface as direct radiation. The remainder being reflected, absorbed or scattered by the atmosphere or atmospheric components, therefore the sun emits almost 100% of the heat but all of it reaches the surface of the earth’ as shown below;
The total amount of solar radiation received on a horizontal surface is about 43%. Out of this 27% penetrates directly to the earth’s surface and 16% arrives as the diffuse sky radiation. So 43% reaches the ground together. The atmosphere including clouds absorbs 15%, the remaining 42% is reflected back into space, which represents the albedo of the earth. The ground which accounts for 33% and the defuse reflection which makes up remaining 9%
It is noticed that defuse radiation towards the grounds (16%) considerable greater than the returned to space (9%). This difference due to the fact that the larger dust particles scatter more radiation the direction away from the sun than the direction towards the sun.
In the figure the radiation received by the earth and atmosphere is counted positive (+ve) and the radiation emitted or reflected and scattered to space is denoted by negative (-ve).
42% of incoming solar radiation is returned direct back to the space and the remaining 58% is absorbed by the ground and the atmosphere.
This 58% must be radiated back to space since the yearly mean temperature of the earth as a whole remains the same. The radiation from the ground is called effective radiation.
The 24% represents the different between the actual radiation from the ground and radiation from the atmosphere to the ground. Out of these 24%, 16% is absorbed in the atmosphere while 8% returns directly to the space. The other 50% is radiated back to space by the atmosphere.
TERRESTRIAL RADIATION
Terrestrial radiation is the radiation from the earth (from the land masses and water bodies)
The radiation emitted from water and land is a long wave radiation and the radiation from the sun to the surface of the earth and to the atmosphere is a short wave radiation.
2. ATMOSPHERIC PRESSURE AND WIND SYSTEM
Atmospheric pressure
Atmospheric pressure is the downward force exited by weight of our per unit area of the earth’s surface.
The distribution of it is not the same in all regions hence it differs from home time and from one place to another place.
Factors affecting atmospheric pressure
i. The vertical height above the earth’s surface (altitude)
The atmospheric pressure varying with the variation in altitude whereby on the surface of the earth. It decreases due to increase in the altitude.
Therefore near the sea level, pressure is higher than mountainous areas.
ii. Temperature radiation from one places to another causes variation the atmospheric pressure. When air is heated it becomes less denser and it rises up causing a low pressure zone and when it cools. It contracts hence start to exert high pressure
iii. Overhead sun (apparent movement of overhead sun)
When the sun is overhead in the tropic, it creates a considerably seasons change of atmospheric pressure over the earth’s surface in the respective area. And during that time, the rate of insulation is high resulting to low pressure as the air is heated and expand. Other areas which are not experiencing overhead sun, the insulation is low resulting to the cooling of air which creates a high pressure zone.
iv. Latitude
Atmospheric pressure varies from one place to another depending on the latitudinal position of an area, example in equatorial regions there is low pressure due to high solar radiation caused by high temperature at the equator.
In polar area, there is high atmospheric pressure because of low temperature caused by little insolation from the sun.
v. The earth’s rotation
Rotation of the earth causes day and right which results to the variation in atmospheric pressure as the earth is inclined at different angle towards the
Wind system
Wind is an air in motion from the region of high pressure to the region of low pressure.
Wind can be classified into two types :
i. Local winds
ii. Interplanetary winds
i. Local winds
These are wind system operating only in a small area within a short period of time. These winds include the following
a. Land breeze
This is the movement of air from the land to the sea or ocean.
Land breeze occurs during night when the land is colder than the sea hence the land develop high pressure and the sea develop low pressure.


b. Sea breeze
This is the wind that moves from the sea to the land. It occurs during the day time when the ocean is cooler than the earth or the land. During that time, the water bodies especially the oceans and seas develop high pressure and the land develops low pressure.
c. Anabatic wind
The word anabatic is derived from the Greek word anabatos meaning that moving upward. Anabatic is a warm wind which blows up steep slope maintain side, driven by heating of the slope through insolation. It is also known as upslope wind as it blows from the valley towards the mountain slope or valley slope.
This wind occurs during day time when hill side is heated by calm sunny weather. It is common in mountainous area.


d. Katabatic winds
Katabatic, the word is derived from the geek word “katobasis” meaning that descending. It is the technical name for drainage wind, a wind that carries high density air from higher elevation down the slope under the force of gravity.
These winds are sometimes called fall winds. They occur during the right in mountainous area when the highland areas are losing more heat due to high rate of terrestrial radiation.
Monsoon winds
The word monsoon is derived from the Arabic word “mausin” meaning season. Monsoon winds are winds whose directions are reversed from one season to another due to the change of pressure belts caused by apparent movement of overhead sun. They develop due to difference in season when the sun is overhead in tropes. During summer when the sun is overhead in tropic of cancer, wind blows from high pressure belt in the southern hemisphere to the Middle East especially in Asia. During winter when the sun is overhead in tropic of Capricorn, the central Asia develop high pressure hence wind blows from Asia to Australia. Monsoon wind is common in India, Japan, Australia, Indonesia and other parts of Middle East.
ii. Interplanetary winds are as follows:
a. Trade winds
These are prevailing patterns of earthly surface winds found in tropes within the lower portion of the earth’s is atmosphere, in a lower section of the troposphere near the earth’s equator. They blow predominantly from the north East in the Northern hemisphere and from the south East in the southern hemisphere strengthening during winter and when the arctic oscillation is in its warm phase. The wind blows from the sub-tropical high pressure belts, or towards the intertropical convergence zone. They are divided into two types:
i. North East trade wind
These winds are blowing from North-Eastern direction in the Northern hemisphere because of rotation which reflects wind direction.
ii. South East trade wind
They blow from South-Eastern direction in the Southern hemisphere.
b. Mid latitude weasterlies
The westerly, it comprises the air flowing from the sub-tropical highs to the sub polar lows from about 30EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY to 60EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY N and S of the equator.
These belts more north and south with the seasonal change of pressure belts
These winds originate from high pressured area in the horse latitude (30EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGYN and S of the equator towards the 60EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGYN and S of the equator (sub polar low pressure belts). The winds are predominantly from the south west in the northern hemisphere and from the north – west in the southern hemisphere.
Westerlies are strongest in the western hemisphere and at times, when the pressure is lower over poles while they are weakest in the southern hemisphere and wind pressure is higher over the polar.
c. Polar winds
They blow from the polar ice towards the equator wards. The movement is pronounced in the southern hemisphere and northern hemisphere. Polar winds are dry and cold wind that blows from high pressure area of the polar at the north and south towards low pressure area (sub-polar low pressure 60EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGYN and S)
AIR MASSES
Air masses are formed resulting from when air remains stationary over a place for several days. During this time the air is likely to assume the temperature and humidity properties of that area.
Air masses are a body of air covering a relatively wide area, exhibiting approximately uniform properties through any horizontal section.
Air masses are a large volume of air in the atmosphere that is mostly uniform in temperature and moisture.
For a place to develop air mass it should have the following conditions.
i. There should be a large uniform surface for Example Ocean or a desert or any other surface which is uniform.
ii. There should be stagnation in atmospheric circulation or no change of weather condition.
iii. There should be relative constant temperature
Air masses can be divided into groups according to their source regions and characteristics, both of temperature and humidity.
On basis of temperature, they are known as polar or tropical and on the basis of humidity they are known as marine (having crossed the oceans and so moist) or continental (originating over the continent and so dry). Their combination allows four main categories of air masses to be distinguished.
i. Polar continental air masses (pc)
This air originates over the continental interiors, the northern Tundra land of northern America, Asia and Greenland forming mass of cold dry air, their air mass yield little / no rainfall
ii. Polar marine time air masses
These are air masses which originates and travel over high latitude oceans 60EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGYN and S such as northern Atlantic Ocean. They are cooler in winter but warm in summer. They have low temperature and low moisture content.
iii. Tropical continental air masses (TC)
These are air masses which originates and develop from tropical deserts such as Sahara and Australian desert. They are warm and generally tropical continental air masses originate from tropical desert.
iv. Tropical marine tire air masses
These originate in tropical latitudes but having crossed the water bodies towards the north and South Pole or originate from tropical oceans such as pacific and Atlantic. They are warm and most, yielding heavy rainfall with lighting and thunders.
FRONTAL ZONES
A frontal zone is the point where two air masses of different characteristics in terms of temperature and humidity meet each other after they have moved outward from the various major high pressure areas.
The situation result in the condition of large scale atmospheric instability in the frontal zones.
Conditions for the occurrence of frontal zones
i. There must be two contrasting air masses moving towards one another
ii. There must a convergence of two air masses
TYPES OF FRONTAL ZONES
i. Warm frontal zones
This is formed when a strong warm air is moving or advancing and is forced to over ride a weak cold air mass. It is formed when a strong warm air mass meet with a weak cold air mass and slide up over it. The whole surrounding to be covered by warm air.
Weather conditions associated with warm frontal zones
i. Formation of clouds
ii. There will be a formation of warm weather condition
iii. Formation of cyclonic rainfall characterized by lightning and thunderstorms
ii. Cold frontal zones
If occurs when a strong advancing cold air mass overcome a body of weak warm air mass. During air meeting, weak warm air is forced to rise above causing the surrounding to be covered by cold air mass.
Weather conditions associated with cold frontal zones
i. formation of little / sparsed clouds
ii. formation of cold weather condition because the surface will be characterized with low or cool temperature
AIR STABILITY & INSTABILITY
AIR STABILITY
Air is said to be stable since dew point may not be reached and therefore making atmosphere produced few clouds with little or no rainfall at all.
The situation occurs when dry adiabatic lapse rate is greater than normal lapse rate.
The atmosphere stability is associated with low degree of dampness in the atmosphere with no cloud, high day temperature.
AIR ISTABILITY
Air instability occurs when the rising saturated air cools less rapidly than the surrounding air. The rising air remains warmer and lighter than the surrounding air.
If the air gets sufficient moisture and the dew point is reached this condition may reduce heavy clouds, thunderstorm, heavy rainfall and high degree of atmospheric dumpness and very small daily range temperature
It occurs when environment lapse rate is greater than dry adiabatic lapse rate
HUMIDITY AND PRECIPITATION
HUMIDITY
Humidity is the amount of water vapour in the atmosphere. It can be absolute or relative humidity.
Absolute humidity
Is the actual amount of water vapour present in a certain volume of air at a given temperature.
Relative humidity
Is amount of water vapour present in a mass of air expresses as the percentage
Factors affecting humidity
i. attitude
The amount of humidity increases as the altitude from the surface increases. This is because of normal lapse rate.
ii. temperature
High temperature increases humidity in the atmosphere due to increase in rate of evaporation from the earth’s surface.
iii. Rainfall
High rainfall increases the amount of water on the surface of the earth which when evaporates results to the formation of humidity or water vapour on the atmosphere. Also rainfall increases the amount of water in the atmosphere due to increased moisture on the surface.
iv. Availability and size of water bodies on the earth’s surface
Many water bodies like oceans and seas increase the amount of water vapour or humidity in the atmosphere through evaporation.
v. Vegetation cover
Areas covered by denser vegetation like equatorial region, atmospheric water vapour is high due to high rate of evapotranspiration from the vegetation.
vi. Human activities such as a forestation, construction of water reservoirs, also influence humidity on the atmosphere.
CONDESATION
A condensation is the formation of water droplets when a rising air has been cooled beyond its dew point.
A dew point is a temperature where air becomes saturated as a result of cooling process in the atmosphere.
It is the point where atmosphere do not contain any further water vapour and condensation begin to take place.
The cooling of air in the atmosphere occurs through the following ways:
i. When there is horizontal movement of warm air on the cold surface
ii. Through movement of air from warmer to cooler latitudes
iii. Through ascending of warm air.
iv. By direct radiation from the earth’s surface to the atmosphere.
HAZE.
Haze is impaired visibility of 1 to 2 km as a result of dust and other small particles on the atmosphere.
MIST.
Mist is impaired visibility caused by condensation of water vapour into small droplets that form clouds at the ground level. It reduces visibility – less than 2km.
FOG
Is the collection of liquid water droplets or ice crystals suspended in the air at or near the earth’s surface. Fog can be considered as a type of low – flying cloud and heavily influenced by nearby bodies of water, topography wind conditions and even human activities.
Fog forms when the differences between air temperature and dew point are generally less than 2.5EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY. They begin to form when water vapour condenses into a tiny liquid water droplets suspended in the air.
TYPES OF FOG
1. SMOG
It is the combination of smoke and fog, it reduces visibility to about zoom hence it is very dangerous and can cause accidents.
2. RADIATION FOG
Is formed by a cooling of land after sun set by thermo radiation in calm condition with clear sky. Cooling ground produces condensation. Radiation fog occurs at night and usually do not last long after sun rise, but they can persist all day in water months.
3. GROUND FOG
It is the fog that abs cure less than 60% of the sky and does not extend to the base of any overhead clouds
4. ADVECTION FOG
It occurs when moist air passes over a cool surface by advection (wind) and is cooled. It is common as a warm from passing over an area with significant snow-pack. It is common at the sea when moist air encounters cooler waters including areas of cooler waters upwelling.
5. EVAPORATION FOG (STEAM FOG).
These fog are formed over bodies of water over lying by much cooler air.
6. FREEZING FOG
A freezing fog is a composed of droplets of a super cooled water which freezes to surface on contact. They are very common in temperature regions and they occur during winter seasons.
7. PREC
IPITATION FOG
This fog are formed as precipitation falls into dryer air below the cloud the liquid droplets evaporates into water vapour. The water vapour cools and at the dew point it condenses and forms fog.
8. UP SLOPE FOG
This fog forms when the moist air is rising up the slope of a mountain on hill which condenses into fog on account of adiabatic cooling and to a lesser extent the drop in pressure with altitude.
9. VALLEY FOG
This fog forms in the mountain valleys often during winter season.
CLOUDS.
Clouds are formed when water vapour from the earth’s surface reaching the atmosphere cools and condenses at different height in the atmosphere.
Clouds may be classified basing on two main criteria
i. According to the height
ii. According to the general form/appearance.
According to the height clouds are classified into the following types:
1. HIGH LEVEL CLOUDS
These clouds are formed above 20000 feet or 6000m and since the temperature is so cold at such high elevations, these clouds are primarily, composed of ice crystals. High level clouds are typically thin and white in appearance but can appear in magnificent array of colors when the sun is low on horizon.
High level of clouds includes,
a. CIRRUS
These are fibers or feather like clouds in a blue sky. They indicate a fair weather condition (stable).
b. CIRROSTRATUS
These are thin sheet clouds found at high altitude but still spread out to the large area.
c. CIRROCUMULUS
A small heaped clouds with ripples or wave appearance.
2. MEDIUM LEVEL
The bases of medium level clouds typically appear between 6500 feet to 2000 feet. Because of their lower altitude they are composed of primarily water droplets however they can also be composed of ice crystals when temperature is cool enough.
Medium level clouds includes
a. ALTOCUMULUS
These are white – grey head clouds appearing like waves and are separated by patches of blue sky.
b. ALTOSTRARTUS
These are greyish sheet clouds which are much denser than cirrostratus clouds.
3. LOW LEVEL CLOUDS
These are mostly composed of water droplets since their bases generally lies below 6500 feet. However when temperature is cold enough these clouds may also contain ice particles and snow.
Low level clouds includes
a. NIMBOSTRATUS
These are very low sheet clouds found at a very low height . If rain falls from these clouds are known as nimbostratus rain.
b. STRATOCUMULUS
These are dark and heavy clouds with pronounced waves
DEPRESSIONS, CYCLONES AND ANTICYCLONES DEPRESSIONS
DEPRESSIONS
Depressions are large areas of low pressure due to the meeting of warm equatorial and cold polar air. They are oval or circular shaped on maps with closed isobars. Air of depression circulates in anti- clockwise direction in the northern hemisphere and in a clockwise in the southern hemisphere where they blow towards the centre.
Depressions mainly develop over the oceans, mid or temperate latitudes where humid tropical air meet with the cold polar air especially around latitude 60EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY North and south of the equator. It is at this point where westerly winds meet with the polar winds. The zone where these two winds meet or converge is called polar front and it is in this zone where depressions forms.
Weather conditions associated with depressions.
i. Clear sky with the formation of circus clouds which are little bit high.
ii. Winds blow from the south east after a definite time , a cloud cover develops and heavily occurs.
iii. When rain stops, wind direction changes and its starts blowing from south west, temperature rises and there occurs more humidity air.

CYCLONES AND ANTICYCLONES
A cyclone is a storm or a system of winds that rotates around a centre of low atmospheric pressure.
An anticyclone is storm or a system of wind that rotates around a centre of high pressure.
Distractive weather patterns tend to be associated with both cyclones and anticyclones are as follows;
i. Cyclones (commonly as lows)
Generally are indicators of rain clouds and other forms of bad weather,(lightning & thundering)
ii. Anticyclones (commonly known as highs)
They are predictor of fair weather.
iii. Wind in cyclones blow clockwise in the northern hemisphere and anticlockwise in the southern hemisphere
iv. In cyclones air close to the ground is forced inwards towards the centre of the cyclones where pressure is lowest, it then begins to rises up , expanding and cooling in the process. The situation increases humidity of the rising air which results in the cloud and high humidity in the cyclone.
v. Anticyclones, the situation are reversed. Air at the centre of anticylone is forced away from high pressure that occurs there.
TROPICAL CYCLONES
Tropical cyclones are areas of low pressure system which originates in temperature latitudes between 20EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY to 60EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY north and south of the equator. They occur all over the oceans except in the northern Atlantic ocean.
Tropical cyclone develops where the air mass brought by northern and southern trade winds meet, that is along the inter – tropical front. They from over the oceans as the air masses which have travelled over oceans.
Weather conditions associated with tropical cyclones:
i. The air becomes still, temperature and humidity rises.
ii. Thick clouds appear or develop
iii. Winds blow violently and finally dense clouds and torrential rainfall reduces visibility to a few meter.
Effects of tropical cyclones
i. There is rapid rising of air giving rise to torrential rainfall that causes floods.
ii. Strong blowing wind which cause considerable damage to property such as electricity, buildings etc.
iii. Formation of ocean wave storms, radial surges resulting from high winds
iv. Landslide which can result from heavy rainfall where buildings have been erected on steep and stable slopes as in the case of hongkong where landslides were responsible for 480 deaths between 1948 to 1998.
NATURAL REGIONS OF THE WORLD
Is a large area of earth’s surface with similar characteristics of temperature, rainfall and vegetation cover. They are classified according to climatic type and natural vegetation.
CLIMATE TYPES
The major climatic types are classified basing on temperature and rainfall pattern.
CLASSIFICATION OF CLIMATE BASING ON TEMPERATURTE
i. If a place has a temperature above 20EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY is said to be hot climate.
ii. If a place has temperature between 10EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY and 20EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY is said to be warm climate
iii. If a place has temperature between 0EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY and 10EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY is said to be cool climate.
iv. If a place has temperature less than 0EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY is said to be cold climate.
CLASSIFICATION OF CLIMATE BASING ON RAINFALL
i. If a place has rainfall more than 1500mm is said to be very wet climate.
ii. If a place has rainfall between 1000mm-1500mm, the climate is said to be wet climate.
iii. If a place has a rainfall between 500mm and 1000mmm, the climate is said to be moderate.
iv. If a place has a rainfall between 250mm and 500mm, the climate is said to be dry climate.
v. If a place has a rainfall below 250mm the climate is said to be very dry climate or desert climate.
1. HOT CLIMATE
Areas which experience hot climate include the following climate regions;
i. Equatorial climate
ii. Tropical climate
iii. Monsoon climate
iv. Hot deserts
I. EQUATORIAL CLIMATE
This climate covers areas between 0EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY– 5EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY north and south of the equator. It includes places like
Amazon basin
Congo basin
Guinea
Southern eastern Asia
Parts of west Africa
Characteristics of equatorial climate
i. They experience high temperature throughout the year , sometimes a monthly temperature may be above 27EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY
ii. Have very small annual temperature range which is less than 4EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY
iii. They have double maximum of rainfall ie. They receive heavy rainfall twice a year.
iv. They have thick forest and even green such as Amazon forest and Congo forest.
v. They have high and low vegetations ie. Vegetations in this area are grown in layers with no undergrowth.
vi. The areas experience high humidity and high cloud cover throughout the year.
Economic activities taking place in Equatorial climate
i. Lumbering activities examples in Gabon ,Amazon forest
ii. Tourism activities
iii. Agricultural activities especially cultivation of rice , banana, cocoa, coffee etc.
II. TROPICAL CLIMATE
It covers the areas located within the tropical belt. They are divided into two:
a. Tropical continental climate (savanna)
It is found in the interior of continent and located within 5EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY – 20EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY north and south of equator. It includes places like
Central Africa
Venezuela
South Australia
Parts of Sudan
This climate in Africa and Australia is known as savanna because it is dominated by grassland. In Brazil, it is known as compass and in Europe is known as Steppe.
Characteristics of savanna climate
i. It experiences moderate rainfall and convectional in type
ii. Temperature is high during hot season and low during cold season
iii. They have high annual range of temperature between 8EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY and 11EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY
iv. The zone is under the influence of inter tropical convergence zone (ITCZ)
v. They experience moderate and sometimes wet rainfall
vi. Natural vegetation which dominated the region are grasses with very little scattered trees
Economics Activities
i. Tourism activities because of natural vegetations or grasses which are good for wildlife
ii. Cultivations of crops such as maize
iii. Pastoralism which is done in pastoral societies. Example Fulani in Northern Nigeria, Maasai in East Africa.
b. Tropical marine climate
They are found in the Eastern side of major landmass or of the continent especially where there is a steep highland. Such as areas are like;
Philippines
Mozambique
Hawaii
Characteristics of tropical marine climate
i. They experience conventional and or graphic / relief rainfall
ii. They face trade wind coast
iii. They experience high temperature with a very small fluctuation
III. MONSOON CLIMATE
It is influence by seasonal wind. It is found in:
South East Asia
China
North Australia
Burma
Indonesia
Somalia
Characteristics of monsoon climate
i. They experience seasonal wind
ii. The summer season is hot with warm air.
iii. The annual rainfalls vary one area to another, due to the influence of water bodies, relief and natural vegetation.
IV. HOT DESERT/TROPICAL DESERT CLIMATE
iv. Hot deserts occur on the western side of the continent between 20EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY north and south of the equator. Example of the deserts are;
Atakama desert
Namib desert
Sahara desert
Kalahari desert
California desert
Characteristics of hot desert
i. They experience very high daily temperature above 35EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY, which vary from the day time tonight. The daytime is more high and night temperature is lower to about 16EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY.
ii. The area is very dry as they receive very little or no rainfall. The annual rainfall in deserts is below 250mm but it changes by increasing as you approach the transitional zone between desert and tropical climate.
iii. They are characterized by little or scarce vegetation cover
iv. The velocity of wind in desert is high due to lack of vegetation cover and little or no water bodies.
VEGETATION
Vegetation is the general assemblage of plant species and the ground cover they provide. Is the total plant community growing in a certain area under the influence of the natural and man-made conditions.
Vegetation can be divided into the following types
1. NATURAL VEGETATION
These are primary or original plant cover that goes (grows) in the area even when there is no human influence. They exist in the given geographical area naturally.
2. SEMI- NATURAL VEGETATION
These are wild vegetation which their exi
stence directly or indirectly have influence from man . Such vegetations are like palm, rubber, which were wild but now grown by human being.
3. CULTIVATED VEGETATION
Refers to the crops and cultivated trees planted to replace the destroyed vegetation
Important terminologies used to describe vegetation
1. ECOSYSTEM
An ecosystem is a community of living organism in conjunction with the non- living components of their environment (things like air , water and mineral soil) interacting as a system. These biotic and abiotic components are regarded as linked together through nutrients cycles and energy flows.
2. HABITATS
Is a surface of the earth adjacent to the atmosphere in which all organisms live, or in which all organic life exist. It is the natural home or environment for animals, plants and other organisms.
3. PLANT SUCCESSION
Plant succession is the changing of plant communities over time. Plant communities go through all sorts of changes over time depending upon various changing conditions, disasters, human influence, animal influence etc.
Or
A plant succession is the orderly process of one plant community gradually or rapidly replacing another.
The community begins with relatively few pioneering plants and animals and develops through increasing complexity until it becomes stable or self perpetuating as a climax community.
TYPES OF PLANT SUCCESSION
a. Primary succession
A primary succession is a dynamic which begins with colonization of an area that has not been previously occupied by an ecological community such as newly exposed rocks, lava flows, newerly exposed glacial tills.
Stages of primary succession include;
i. Pioneer plants (lichens and mosses)
ii. Grass stage grasses , smaller shrubs and trees.
Animals begin to return when there is food for them to eat
b. Secondary succession
Is a successional dynamies following sever disturbance or removal of a pre- existing community. Dynamics in secondary succession are influenced by pre-disturbance conditions when the former vegetation is cleared or bunt by wild harm fire caused by volcanic eruption and later the area become colonized by a new vegetation or plant community quite different from the former vegetation. Disturbance of the former vegetation can be by natural forces and human being through his different activities.
Secondary succession is often shorter process by which plant communities can shift rather rapidly if given the proper opportunity. Initially diversity increases, can decrease or hit a terminal point by which little change occurs.
c. Old field succession
Is the inversion of plant communities following the abandonment of the manage plant community by human
Qn.1 In brief, describe the characteristics of tropical rain forest vegetation
Qn.2.What are the characteristics of desert vegetation which have made them to thrive the hard condition of desert climate.
Qn.3. Write short notes of the following
i. Temperature lapse rate
ii. Plant community
iii. Fog
iv. Heat budget
v. Isolation
vi. Ecosystem

vii. Terrestrial radiation




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EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY

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2 Comments

  • EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY

    Mansour, January 22, 2024 @ 1:15 pm Reply

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  • EcoleBooks | GEOGRAPHY A LEVEL(FORM SIX) NOTES - CLIMATOLOGY

    Gilbert ggilbert, January 6, 2024 @ 2:44 pm Reply

    Well well re well researched notes thank you

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