Biomes Notes PDF

Summary

These notes provide a definition and examples of different types of biomes, their defining features, and factors influencing their characteristic vegetation and wildlife. They discuss biotic and abiotic factors, climate impact on plant and animal life, the influence of latitude and elevation on biomes. The notes are valuable for studying biomes and ecosystems.

Full Transcript

What is a biome?
Biomes are places on earth that have different defining features that influence their
unique environments, ecosystems and other characteristics.
What are some different types of biomes?
Desert/Arid
Savannah
Polar/Arctic
Mountain/alpine
Marine/Ocean
Coastal
Rainforest/Jungle → Forest
Riverine
Wetlands

What features differ between biomes?
Climatic → Precipitation → Temperature → Variance/range (seasons, etc)
Water → Distribute → Salt/freshwater → flows/patterns
Altitude/elevation
Habitat → Species → flora/fauna → ecosystem

Questions

What are the world’s major ecosystems referred to as?
The earth’s major ecosystems are often referred to as biomes. The concept of biomes
is an attempt to describe on a global scale how similar climates in different places
support similar vegetation types.

What is a biome?
A biome is a large ecosystem made up of specific vegetation types and specific
wildlife.
How are biomes classified?
Biomes are classified according to the characteristic vegetation within them.

What are the two most significant factors which influence terrestrial biomes?
Temperature and precipitation are the two most significant factors affecting the
location and distribution of terrestrial biomes

Explain why biomes are important to humans
Life can only exist where there is moisture, sunlight and nutrients. Organisms (including
humans) depend on each other for survival. Therefore the sustainability of biomes is
essential to human survival and wellbeing

What is an ecosystem?
An ecosystem is a community of organisms that interact with each other and their
non- living environment.

What are the two types of ecosystems
Ecosystems can be divided into 2 groups – Aquatic (those associated with water) and
terrestrial (those associated with land). Ecosystems exist on a local scale whereas
Biomes occur on a global scale.

Factors that influence Biomes:
https://docs.google.com/document/d/19GMpy8AwZJbsQxmRjLYZhQMBOTsDosvO6Ybe
F_DgHf0/edit

Factors that influence the formation of biomes
Biotic & Abiotic factors
Every environment is made up of biotic and abiotic factors which interact with one another. Biotic
factors are the living parts of the ecosystem, such as plants, animals, and bacteria. Abiotic factors
are the nonliving parts of the environment, such as air, minerals, temperature, and sunlight.
Organisms require both biotic and abiotic factors to survive.

Temperature & precipitation
Temperature and precipitation (rainfall) are very
important abiotic factors that influence the
characteristics and distribution of biomes.
Differences in temperature or precipitation
determine various aspects of the biomes, like
plants. Biomes with low precipitation and extreme
temperatures cause short growing seasons and
poor soil, and as a result there are fewer plant and
animal species found there. Examples of biomes
with extreme climates include polar and desert
biomes, few animals and plants can survive in
these climates.

Latitude
Temperature range and precipitation amounts are influenced by latitude, the positioning of
the biome in terms of its location from the equator. Temperature is influenced by latitude
because of the angle of the earth from the sun. For example, biomes located in the high
latitudes, farthest from the Equator like polar and tundra receive the least amount of
sunlight and have lower temperatures. Biomes located at middle latitudes between the
poles and the Equator, like temperate deciduous forest and temperate grasslands
receive more sunlight and have moderate temperatures. At the low latitudes of the
Tropics the sun's rays strike the Earth most directly, as a result, the biomes located there
receive more sunlight and have higher temperatures, like tropical rain forest and tropical
grassland.

Elevation
Elevation is the height of land above sea
level and this has a very important impact on
biomes. The change occurs because the
atmosphere becomes thinner at higher
elevations, and heat is less retained when
this occurs. Elevation affects precipitation,
because when clouds filled with moisture rise
and cool, then release rain or snow. In the
following pictures we can see how the
biomes change as the elevation increases.

Questions

1. Define what biotic and abiotic factors are and provide an example of each
 Biotic factors are the living parts of the ecosystem, such as plants, animals, and bacteria.
Abiotic factors are the nonliving parts of the environment, such as air, minerals, temperature,
and sunlight.
2. How does climate influence the plants and animals found in a biome
Biomes with low precipitation and extreme temperatures cause short growing seasons and
poor soil, and as a result there are fewer plant and animal species found there. Examples of
biomes with extreme climates include polar and desert biomes, few animals and plants can
survive in these climates.

3. How does latitude affect temperature levels in a biome?
Temperature is influenced by latitude because of the angle of the earth from the sun. For
example, biomes located in the high latitudes, farthest from the Equator like polar and tundra
receive the least amount of sunlight and have lower temperatures.

4. At which latitudes is the desert biome most commonly found?
The desert biome is most commonly found around the line of the Tropic of Cancer.

5. At which important line of latitude are tropical rainforests found?
The important line of latitude of the tropical rainforests are found around the equator.

6. There is lots of vegetation at high altitudes. True or false?
False.
7. What type of vegetation is found at lower elevations?
The type of vegetation found at lower elevations is temperate.

Different biomes:
https://www.youtube.com/watch?v=0fb8143ndo8
Tropical rainforest,
https://app.luminpdf.com/viewer/67183bec245ce4d65d7d4f02?credentials-id=49adc
a4d-9c9d-46bb-aeaf-f66d9bd9629d
desert
Ocean
Mountain
Plains
savannah

Biosphere:
The biosphere encompasses all living things (including animals and plants), including their
waste and dead remains. An ecosystem is a community of organisms that interact with
each other and their non- living environment. Ecosystems can be divided into 2 groups –
Aquatic (those associated with water) and terrestrial (those associated with land).
Ecosystems exist on a local scale whereas Biomes occur on a global scale.

Migration and Immigration:
Migration -the movement of people
Immigration- moving to another country

While most people are free to migrate, there are also many forced migrants
Millions of people are forced to cross international borders to escape persecution or
to flee a natural disaster. These people are called refugees

Different factors:

Different types of push and pull factors:
Social- war
Economic- job opportunities
Resources- lack of water

Push factors: something that makes people want to leave a place or escape from a
particular situation
War
Lack of food
Persecution
Lack of resources and services

Pull factors: a motivating cause that attracts a person to migrate to another region or
country
More jobs/employment opportunities
More income
Better living conditions
Better climate
Better education

Median age: the average age

Maps/charts:
Chloropleth maps: show the geographic distribution of different species.
Synoptic charts: the scientific term for a weather map. Synoptic charts provide information
on the distribution, movement and patterns of air pressure, rainfall, wind and temperature.
Cold front- Represented by blue lines with triangles. They occur when cold air pushes
into a region of warmer air, often leading to sudden weather changes like
thunderstorms.

Warm front-Depicted by red lines with semicircles. They form when warm air moves
over cold air, typically resulting in gradual weather changes and prolonged
precipitation.
 Stationary front-Shown as alternating red and blue lines. These occur when two air
masses meet but neither advances, leading to extended periods of cloudy and rainy
weather.

Occluded front-Illustrated by purple lines with alternating triangles and semicircles.
They happen when a cold front overtakes a warm front, often resulting in complex
weather patterns.

Isobars: Lines indicating equal atmospheric pressure. Closely spaced isobars signify
strong winds, while widely spaced ones indicate lighter winds.
Latitude: the distance north or south of the equator
Longitude: the distance west or east of the Greenwich meridian

Mega cities:
Mega cities: A continuous urban area of 10 million people
People move from rural areas to megacities
Lots of opportunities

Sustainable cities:
Sustainable energy e.g solar and local power
Urban growing
Net zero-cutting carbon emissions to a small amount of residual emissions that can
be absorbed and durably stored by nature and other carbon dioxide removal
measures, leaving zero in the atmosphere.

Slums: Densely populated area of substandard housing, usually in a city, characterised by
unsanitary conditions and social disorganisation

Urban:
Urban areas are places of high populations and high density, characterised by their built-up
infrastructure.

Rural:
low population and density whilst maintaining a lack of large infrastructure.

Suburban:
lower density areas that separate residential and commercial areas from one another.

Population pyramids:
Expansive- depict populations that have a larger percentage of people in younger age
groups.
Constrictive- characterised by their beehive-like shape which is bulged in the middle and
tapers towards younger and older age groups.

Stationary- those that show a somewhat equal proportion of the population in each age
group.

Population Density:The amount of people living in an area
Population Distribution: How spread out people are

Aspect and Relief:

local relief:
Local relief is the variation in elevation or height over a relatively small, defined area. It is
determined by working out the difference in height between the highest and lowest points in
the area.

Formula: Highest point – Lowest point = Local relief.

Aspect of a slope:
Aspect is the direction a slope faces e.g. Northerly, Southerly, Westerly, south-westerly e.c.t
Determining aspect involves using the contour lines of the map.

contour interval:
The distance between the contour lines
 Questions

1. What is the local relief between Point B and D?
2. What is the local relief between Point C and D?
3. What is the local relief between Point A and B?
4. What is the contour interval on the map?
5. What is the aspect of the slope at Point D?
6. What is the aspect of the slope at Point C?

YEAR 9 GEOGRAPHY SKILLS SUMMARY

TASK: Each lesson we cover a new Geography Skill you need to make notes here on
how to complete the skill. Then you will get worksheets testing whether you can do
them.

SKILL: AREA REFERENCE

NOTES ON HOW TO DO IT IMAGE/S
 1. Find the square of the feature
2. Go to the bottom left corner of the
square
3. Write the x axis first (2 digits)
4. Write the y axis second (2 digits)

SKILL: GRID REFERENCE

NOTES ON HOW TO DO IT IMAGE/S

1. Find the dot point of the feature (centre
of feature)
2. Write the area reference in positions 1, 2
and 4, 5
3. Write the tenths as digits 3 and 6

SKILL: Contours

NOTES ON HOW TO DO IT IMAGE/S

Contour lines: Show the elevation (height)

SKILL: DIRECTION & BEARINGS

NOTES ON HOW TO DO IT IMAGE/S
 1. Underline the word between the locations,
to (first) or from (second)
2. Highlight the location to start with
3. Refer to the compass and write down the
direction of the arrow
(Bearings is angle)

SKILL: SCALE & DISTANCE

NOTES ON HOW TO DO IT IMAGE/S

Four types of scales: Linear:
- Linear
- Bar
- Ratio
- Written
Bar:
1. Locate the locations in the question and
read the scale
2. Measure the distance between locations
on the topographic map given (with ruler)
3. Convert this measurement to the smallest
scale possible.
Ratio:
Tips about ratio scale:
- Always cm
- AKA representative fraction
- 1 : 100,000 = 1 cm on map = 1km real life
Written:

SKILL POPULATION PYRAMIDS/PROFILES

NOTES ON HOW TO DO IT IMAGE/S
What do the right/Pink bars show?
Females
What do the left/blue bars show?
Males
What is displayed on the Y-Axis?
Population (%, mil)
What is displayed on the X-Axis?
Ages (up by 5)
To interpret a population pyramid I can identify
development through three types:
Expansive: Population of a country is rapidly
growing and is shaped like a pyramid or
triangle, expansive population pyramids tend to
have a high birth rate and low life expectancy.
(developing country)
Constrictive: Population is shrinking, looks like a
beehive and has less children being born than
adults with a high life expectancy and low
fertility rate. (developed country)
Stationary: Population is stable (not growing
but not shrinking), has high life expectancy and
a stable fertility rate and enough children being
born or migrants moving to the country to
replace those who die. (middle developed or
developed countries)

SKILL: SYNOPTIC CHARTS

NOTES ON HOW TO DO IT IMAGE/S
Synoptic charts = Weather maps

Show air pressure, rain, wind speed and
direction.

Isobars:
Are lines joining places of equal air pressure,
measured in hPa, in multiples of 2hPa or 4hPa.

Numbers decreasing to low, numbers increasing
to high.

Lines closer = windy, rainy
Lines far apart = sunny, little to no wind
Isobars:
High and Low Pressure Systems:
Readings shown in the centre of the cell.

Low (L): Lines close together - Air is unstable
creating wind, cloud cover and a high chance of
rainfall.
Warm Front (WF):
High (H): Lines far apart - Air is stable creating
little to no wind, little to no cloud cover and a low
chance of rain.
Cold Front (CF):
Two types of weather features:
Warm Front (WM):
Represented by ovals, usually red.
Troughs:
Cold front (CF):
Represented by triangles, usually blue.

Troughs:
Show torrential rain, lots of rain.

SKILL: RELIEF

NOTES ON HOW TO DO IT IMAGE/S
Local Relief: Difference in elevation

Formula: Highest Point - Lowest Point

Peaks (triangle) on topographic map indicate
the highest point, to calculate whether the
intervals go up or down.

SKILL: ASPECT

NOTES ON HOW TO DO IT IMAGE/S

Aspect: Direction of a slope (what way a ball
would roll down)

1. Determine which way is down hill (look at
peaks or contour indexes)
2. Draw a perpendicular line through the
point (check your line is perpendicular by
seeing if it makes a right angle)
3. Write the direction your line is pointing to.

SKILL: LATITUDE & LONGITUDE

NOTES ON HOW TO DO IT IMAGE/S

1. Record latitude
- horizontal lines, N/S, labelled __
degrees N/S
- begins with 0 degrees in the centre
- goes up by 10 degrees - equator
2. Record longitude
- vertical lines, W/E, labelled __
degrees W/E
- begins with 0 degrees in the centre,
- goes up by 10 degrees - prime
meridian