Life Sciences Grade 10 Revision Booklet 2024 - PDF

Summary

This is a revision booklet for Grade 10 Life Sciences, covering topics from the 2024 terms 3 and 4. It includes content on ecosystems, biodiversity, and the history of life on Earth. This booklet is for students preparing for their Life Sciences examination.

Full Transcript

Western Cape Education Department
Directorate: Curriculum FET

LIFE SCIENCES
REVISION BOOKLET
2024 TERMS 3 and 4

Grade 10

This revision program is designed to assist you in revising the critical
content and skills that you have covered during the 3rd and 4th terms.
The purpose is to prepare you to understand the key concepts and to
provide you with an opportunity to establish the required standard and
the application of the knowledge necessary to succeed in the
examination.

The revision program covers the following topics:
Biosphere to ecosystems
Biodiversity and classification
History of life on earth
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

Table of Contents
TERM 3 AND 4 CONTENT 2
1. BIOSPHERE TO ECOSYSTEMS 2
2. BIODIVERSITY AND CLASSIFICATION 13
3. HISTORY OF LIFE ON EARTH 16
4. REVISION QUESTIONS: 20

TERM 3 AND 4 CONTENT
1. BIOSPHERE TO ECOSYSTEMS

1.1 The biosphere

The biosphere is that part of the earth where living organisms occur. The biosphere
is the global sum of all ecosystems. The biosphere consists of the:

Atmosphere – the layer of air that surrounds the earth and that consists of a
mixture of gases e.g. nitrogen, oxygen and carbon dioxide.
Lithosphere – refers to the outermost surface of the earth, the earth’s crust i.e.
the soil and rocks.
Hydrosphere – is the combined mass of water found on, under and above the
surface of the earth. The hydrosphere is made up of oceans, seas, lakes, rivers
and springs. The water in these bodies can be freshwater or saltwater.

1.2 Biomes

The biosphere is divided into several biomes.
A biome is a particular physical environment that usually extends over a large
geographical area.
Biomes are regions with similar climate and geography which support a
particular group of plants and animals.

Biomes can be terrestrial (land) and aquatic (water).
The following terrestrial biomes are found in South Africa: fynbos, forest,
grasslands, savannah, thicket, Nama Karoo, succulent Karoo and desert.
(Note: You should know how the climate, soils and vegetation influence the
organisms found in each of these biomes as well as the location of the different
biomes in South Africa)
Aquatic biomes are divided into two main groups depending on the amount of
salt present in the water: freshwater and marine (saltwater) biomes.
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

1.3 Environment

The environment is the physical conditions, such as soil, water, air, temperature
etc. and the biological conditions under which an organism lives.

1.4 Ecosystems

An ecosystem is a particular area e.g. a pond, a forest etc. consisting of all
different living organisms (biotic components) which interact with each other
and their non-living environment (abiotic components).

1.5 Abiotic factors

The abiotic factors include the following:

Physiographic factors – aspect, slope and altitude
Edaphic (soil) factors – pH, humus content, texture, water retention capacity
and air content
Light – day length and seasonal changes
Temperature – effect of day/night and seasons
Water – water cycle and the importance of wetlands
Atmospheric gases
Wind

1.5.1 Physiographic factors

Aspect Slope Altitude
Aspect refers to the Slope is the gradient Altitude is the height
position of an area or steepness of a of the land above
in relation to the sun particular surface of sea level.
In South Africa north- the Earth Areas high above
facing slopes The slope of a sea level experience
receive more mountain extreme weather
sunlight than south- determines the rate conditions e.g. low
facing slopes of water run-off temperatures, less
North-facing slopes The run-off of water rainfall, strong winds
are warmer and on a steep slope is and snow
drier faster and soil Plants and animals
South -facing slopes erosion will occur that are found high
are cooler and more frequently above sea level will
wetter and shade The soil on a steep differ from those
plants e.g. ferns slope is usually closer to sea level
grow well in such shallow and infertile
areas and few plants and
animals will be
present
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

1.5.2 Edaphic (soil) factors

Soil texture Soil air Water - Humus pH
retention content
capacity
There are 3 Spaces Sandy soil Humus is Some plants
types of soil between has a low decayed e.g. proteas
i.e. clay, soil water- plant and grow better
loam and particles retention animal in acidic soil
sand are filled capacity matter (low pH)
Clay consists with air and because of Humus Succulent
of small soil water the large increases plants grow
particles, Sandy soil spaces soil fertility better in
loam has has bigger between and water- alkaline soil
slightly spaces soil particles retention (high pH)
bigger between Clay soil has capacity Most plants
particles soil a high Soil with grow well in
and sandy particles water- humus is soil with a
soil has and is well retention normally neutral pH
large aerated. capacity dark in (pH of 7)
particles Clay soil is Loam has a colour
poorly medium
aerated water-
retention
capacity
and is the
most
suitable soil
for plant
growth

1.5.3 Light

Plants need light for photosynthesis
The effect of day length on the growth of a plant is called photoperiodism.
Short-day plants only flower when the day length is shorter than 12 hours
Long -day plants need a day length of more than 12 hours
Neutral plants are plants that are not affected by day length
Some animals e.g. moths and bats are nocturnal (active at night).

1.5.4 Temperature

The temperature that plants and animals are exposed to varies between day
and night and between summer and winter e.g. ectothermic animals (fish,
amphibians, reptiles) become inactive during cold winter temperatures,
deciduous trees lose their leaves in autumn to limit photosynthesis and growth.
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

1.5.5 Water

Water is one of the most important factors in any ecosystem.

Hydrophytes Mesophytes Xerophytes
Plants that grow in Plants that grow in Plants that grow in
water e.g. water lilies areas with moderate extremely dry
water supply e.g. fruit conditions e.g. aloe
trees, wheat etc.

1.5.5.1 Water cycle

The water cycle is the cyclic movement of water between the earth and the
atmosphere.
Water moves from the atmosphere to the earth in the form of rain, snow, fog,
hail and dew. This is called precipitation.
A part of the water that reaches the earth is absorbed by the upper layers of
soil to form hygroscopic and capillary water.
Some of the water filters through the upper layers of the soil to the water table.
This process during which water is absorbed by the soil is known as infiltration.
Some of the water runs off above the ground and forms streams and rivers that
flow into lakes and oceans.
Water reaches the atmosphere by evaporation from large water masses and
from the soil.
Plants transpire and lose water to the atmosphere in the form of water vapour.
Large amounts of water vapour condense and form clouds.
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

1.5.5.2 Importance of wetlands

Wetlands include a wide range of inland and coastal habitats e.g. lagoons
and estuaries that are linked by rivers and streams. Examples of wetlands are
springs, swamps, riverbanks etc.
Wetlands provide a regular water supply, and the water is filtered naturally by
vegetation.
Wetlands play an important role in maintaining biodiversity as it supports a
variety of plant and animal life.

1.5.6 Atmospheric gases:

The air around us consists of a mixture of gases:

Nitrogen – 78%
Oxygen – 21%
Carbon dioxide – 0,04%
Other gases – 0,96%

1.5.7 Wind

Wind (moving air) increases the processes of evaporation and transpiration.

1.6 Biotic factors

The biotic component includes all living organisms (plants and animals) in an
ecosystem.

Producers Consumers Decomposers
Green plants are Animals are consumers Decomposers e.g.
called producers because they cannot saprophytic bacteria and
because they produce their own organic fungi feed on dead organic
contain chlorophyll food but they use the food matter.
and can produce produced from the plants. They break down organic
their own organic Consumers are referred to compounds into simple
food through as heterotrophic organisms. inorganic compounds that
photosynthesis. Primary consumers e.g. are released back into the
Producers are sheep, rabbits, locusts etc. environment.
autotrophic feed directly on the Decomposers are also
organisms producers (plants). Primary heterotrophic organisms.
consumers are also called
herbivores.
Secondary consumers e.g.
lions, owls, dogs, humans
etc. feed on the primary
consumers and include
carnivores and omnivores.
Carnivores e.g. lions, owls
etc. feed on animal matter.
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

Producers Consumers Decomposers
Omnivores e.g. humans
feed on both animal and
plant matter.
Tertiary consumers e.g.
snakes feed on secondary
consumers and are all
carnivores.

1.7 Energy flow

Energy flows through an ecosystem in one direction.
Radiant energy from the sun is converted into chemical potential energy
during photosynthesis and carbohydrates are stored in green plants
(producers).
Primary consumers obtain their energy from the plants that they eat.
Secondary consumers obtain their energy by eating the primary consumers.
Tertiary consumers obtain energy by eating the secondary consumers.
Producers and consumers are decomposed by bacteria and fungi and energy
is released into the environment.
The transfer of energy from the sun through the green plants and the various
consumers is known as a food chain.

A food chain

A food chain never occurs in isolation but is usually linked to other food chains
to form a food web.
A food web therefore consists of all the food chains in an ecosystem.
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

A food web

1.8 Trophic levels

Living organisms occur at different feeding levels in an ecosystem. These
feeding levels are called trophic levels.
Producers (green plants) produce their own food and form the first trophic
level. They have the greatest amount of energy.
Primary consumers (herbivores) form the second trophic level.
Secondary consumers (carnivores) form the third trophic level.
Tertiary consumers (carnivores that feed on other carnivores) form the fourth
trophic level.
Omnivores may be part of the second, third or fourth trophic levels depending
on the food they eat.
Decomposers may be part of any of the trophic levels.
Energy is used by the organisms at each trophic level. These organisms use
some of the energy for growth or some of the energy is lost as heat energy
through respiration or some of the energy is lost in urine and faeces. This energy
is therefore not available for the next trophic level.
Note: Energy can be transferred from one organism to another, but energy
cannot be created or destroyed. Energy is lost with the transfer of energy from
one trophic level to another.
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

1.9 Food pyramids

The different trophic levels are often represented as ecological pyramids.
There are three types of ecological pyramids i.e. pyramids of number, pyramids
of biomass and pyramids of energy.

1.9.1 Pyramid of numbers

Pyramids of numbers show the actual number of organisms on each trophic
level.

1.9.2 Pyramids of biomass:

Pyramids of biomass show the total mass of the organisms at each trophic level.
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

1.9.3 Pyramid of energy

Pyramids of energy show the amount of energy on each trophic level.

1.10 Flow charts of cycles

Refer to the water cycle covered under section 1.5.5.1

1.10.1 Oxygen cycle

The earth has a fixed amount of oxygen, which occurs in the atmosphere,
oceans, rocks and all living organisms.
Living organisms (plants and animals) use oxygen in various forms.
Through the process of photosynthesis, green plants use the carbon dioxide
(CO2) in the atmosphere to form carbohydrates and oxygen (O2).
Animals and plants absorb oxygen from the atmosphere to break down
carbohydrates into carbon dioxide and water during the process of respiration.
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

Decomposers (bacteria and fungi) use oxygen to decompose organic matter
and release carbon dioxide.
A large amount of oxygen is dissolved in water of oceans, lakes and rivers.
Organisms living in water use oxygen for respiration and decomposition and
release carbon dioxide in the water.
Oxygen from the atmosphere combines with silicon and iron in rocks to form
silicates and rust, resulting in weathering of rocks.
Organisms such as lichens break down rocks (weathering) over thousands of
years and release nutrients and oxygen for living organisms.

1.10.2 Nitrogen cycle

Living organisms need nitrogen to form amino acids that are the building blocks
of proteins.
Nitrogen gas occurs in large amounts in the atmosphere, but plants and
animals cannot use it in this form.
Plants can only use nitrogen in the form of nitrates.
Free nitrogen is converted into nitrates in two ways:
⮚ Electrical fixation by lightning and rain.
⮚ Nitrogen-fixing bacteria – bacteria in the soil absorb nitrogen from the
soil and convert it into nitrates. Nodule bacteria on the roots of legumes
convert free nitrogen to nitrates.
The nitrates are absorbed by plant roots and the nitrogen in nitrates is used to
form plant proteins.
Animals eat plants and use the nitrogen to produce animal proteins.
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

When plants and animals die, the proteins in their bodies are broken down into
ammonia by decomposition bacteria.
Excretion (e.g. urine) of animals contain urea which is also converted into
ammonia.
Nitrifying bacteria convert ammonia into nitrates which is returned to the soil
and absorbed by plants.
Nitrates in the soil are also converted to free nitrogen in the atmosphere by
denitrifying bacteria.

1.10.3 Carbon cycle

Carbon occurs in the form of carbon dioxide (CO2) in the atmosphere, and
some is dissolved in water.
Green plants use carbon dioxide during photosynthesis to produce organic
compounds e.g. carbohydrates.
The carbon which form part of organic compounds in plants is transferred to
animals when they eat plant material.
Sometimes dead plant and animal remains do not decompose but are
fossilised to form fossil fuels (coal and oil).
Carbon dioxide returns to the atmosphere in three ways:
⮚ Cellular respiration – organic compounds in plants and animals are
broken down in the presence of oxygen and energy, water and carbon
dioxide are released.
⮚ Decomposition – decomposers break down organic compounds in
dead plants and animals and release carbon in the form of carbon
dioxide.
⮚ Combustion – wood and fossil fuels release carbon dioxide during
combustion.
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

2. BIODIVERSITY AND CLASSIFICATION
2.1 Biodiversity

Refers to the variety of life forms that exist on Earth.

2.2 History of classification

2.2.1 The two-kingdom system

Simple classification systems were based on shared physical characteristics.
As information increases classification systems became more complex.
A Swedish botanist, Carl Linnaeus, classified living organisms into two kingdoms
i.e. Plantae (plants) and Animalia (animals).
Linnaeus developed a classification system where seven categories under
each kingdom are used.
A kingdom is divided into phyla in animals but divisions in plants.

Table to show the basic classification of two organisms

Division Lion Pine tree

Kingdom Animalia Plantae

Phylum/Division Chordata Pteridophyta

Class Mammalia Gymnospermae

Order Carnivora Coniferales

Family Felidae Pinaceae

Genus Panthera Pinus

Species leo ponderosa
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

2.2.2 The five-kingdom system

The most common classification system, the five-kingdom system was proposed
by Robert Whitaker in 1969.

Living
organisms

Monera
Protista Fungi Plantae Animalia
(Bacteria)

2.2.3 Naming of living organisms

Carl Linnaeus designed a binomial system for naming of living organisms.
The first word of the name is the genus and the second word is the species.
The genus name is written with a capital letter and the species with a small
letter e.g. Panthero leo.
If the name is written by hand, the genus and species names are underlined
e.g. Panthero leo.
When typing the name, the whole name is typed in italics e.g. Panthero leo.

2.2.4 Biological keys

A biological key e.g. a dichotomous key is an instrument used to classify living
organisms.
A dichotomous key always gives two choices at each step.
At each step two statements are given based on the characteristics of the
organism.
If the right option is chosen at each step it will lead to the name of the
organism.
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

2.2.4.1 Example of a dichotomous key

1 a. Three pairs of legs present Insecta

b. More than three pairs of legs present Go to 2

2 a. Four pairs of legs present Arachnida

b. More than four pairs of legs present Go to 3

3 a. Two pairs of antennae present Crustacea

b. One pair of antennae present Go to 4

4 a. Antennae branched at tip Pauropoda

b. Antennae unbranched Go to 5

5 a. Two pairs of legs on each body segment Diplopoda

b. One pair of legs on each body segment Go to 6

6 a. Twelve pairs of legs present, eyes absent Symphyla

b. More than twelve pairs of legs present Chilopoda

2.2.5 Differences between prokaryotes and eukaryotes:

Prokaryotes Eukaryotes

Organisms with cells with no true nuclei Organisms with cells that have true nuclei

Their genetic material /DNA is not enclosed by Their genetic material /DNA is enclosed by a
a nuclear membrane and occurs free in the nuclear membrane and occurs free in the
cytoplasm cytoplasm

No true organelles occur in the cytoplasm True organelles occur in the cytoplasm

Monera are prokaryotes Protista, Fungi, Plantae and Animalia are
eukaryotes
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

2.2.6 Main groups of organisms

KINGDOM

Monera Protista Fungi Plantae Animalia
(Bacteria) (Plants) (animals)

Characteristics Prokaryotes Eukaryotes Eukaryotes Eukaryotes Eukaryotes
Single-celled Most are Some are Multicellular Multicellular
(unicellular) unicellular but unicellular Most plants Do not have
Micro- some are but most are are cell walls
organisms multicellular multicellular autotrophic Animals are
Heterotrophic Heterotrophic Heterotrophic Asexual heterotrophic
and or autotrophic ,most are reproduction Reproduction
autotrophic Asexual saprophytes by means of is sometimes
Asexual reproduction, Asexual spores or asexual but
reproduction some reproduction, sexual mostly sexual
reproduce some reproduction by means of
sexually reproduce by means of gametes
sexually gametes

Examples Bacteria Protozoa, algae, Yeast, Mosses, ferns, Sponges,
slime moulds mushrooms, conifers, jellyfish,
and water moulds flowering flatworms,
moulds plants roundworms,
earthworms,
snails, starfish,
insects, spiders,
fish, mammals
etc.

3. HISTORY OF LIFE ON EARTH
3.1 Changes in the composition of the atmosphere

When the earth formed, oxygen levels in the atmosphere were very low.
Fossil records show that the first living organisms i.e. bacteria (prokaryotes) were
anaerobic i.e. they did not need oxygen to survive.
Blue-green bacteria appeared, and they used carbon dioxide in the
atmosphere and released oxygen i.e. they could produce their own food
through photosynthesis.
The levels of oxygen started to increase in the atmosphere and aerobic
organisms started to develop.
The increase in oxygen resulted in an increased variety of living organisms on
earth.
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

3.2 Changes in climate e.g. the ice age:

An ice age is a long geological period of drastic decrease in temperature of
the earth’s surface and atmosphere.
Many species died out during the ice ages and some migrated to warmer
areas on earth.
When the ice forms, the level of the ocean will decrease exposing more land.
Ice ages therefore affected life on earth due to the extinction and
redistribution of species.

3.3 Geological events

The theory of continental drift proposes that the earth’s continents moved and
are still moving slowly.
About 250 million years ago all continents were joined to form one large
continent, called Pangaea.
Pangaea eventually broke up into two supercontinents i.e. Laurasia in the north
and Gondwanaland in the south.
These two supercontinents eventually broke up further into the continents that
we know today.
By means of biogeography evidence has been found that the continents were
once joined. Biogeography is the study of the present-day distribution of
organisms.

Study the diagrams below showing the movement of the continents
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

3.4 The geological timescale

Scientists estimate that the earth is about 4,6 billion years old.
The geological timescale divides the earth’s history into three main eras i.e.
Paleozoic, Mesozoic and Coenozoic eras.
Each of the three eras is divided into periods (you do not need to memorise the
names of the periods)
The period that precedes the Paleozoic era is known as the Precambrian.

ERA PERIOD MILLIONS OF YEARS PLANTS AND ANIMALS
AGO (mya)
Cenozoic Quaternary 2 Modern humans
Modern mammal species evolve
Extinction of large mammals e.g.
mammoths

Tertiary 65 Birds, mammals and insects
Primates (apes)

Cretaceous 140-65 Extinction of dinosaurs
Flowering plants spread

Jurassic 190-140 Dinosaurs dominant
First birds evolve
Mesozoic
Triassic 250-190 First dinosaurs
First mammals
Gymnosperms are the dominant
plants

Permian 280-250 Increase in reptiles
Gymnosperms

Carboniferou 345-280 Increase in amphibians
s First reptiles
Ferns dominate

Devonian 400-345 First insects
First amphibians
Paleozoic
Silurian 435-400 First plants and animals on land
Mosses

Ordovician 515-435 Algae dominant

Cambrian 570-515 Explosion of most animal groups
First vertebrates
Invertebrates

Eukaryotes
Precambrian 4600-570 Prokaryotes
First invertebrates
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

3.5 Cambrian explosion

The early forms of most animal groups appeared in the Cambrian period.
‘Cambrian explosion’ refers to the diversity of life forms that appeared in a
relatively short period of time.

3.6 Mass extinctions

A mass extinction occurs when many species disappear over the same period
of time.
There have been five mass extinctions throughout history, two of which are
particularly important i.e. the extinction of about 90% of all life on earth (250
mya) and the extinction of many species, including dinosaurs (65 mya).
The present time has been called the sixth extinction because of the negative
effect of humans on the environment.

3.7 Fossil formation and methods of dating

A fossil is a complete organism or the remains, imprints or traces of an organism
that is usually preserved in rocks.
Fossils are mainly found in sedimentary rocks.
Sedimentary rock is formed when clay and sand particles are carried from one
place to another by water and wind.
Over thousands of years these sediments pile up, harden and form sedimentary
rock.
Fossils are also found in tree resin, ice and volcanic lava.

3.7.1 Ideal conditions for fossil formation (fossilisation)

The organism must be buried immediately after it dies.
The condition in the sediment needs to be acidic and contain no oxygen.
The organism needs to have some hard parts e.g. an exoskeleton, shell, teeth
etc.

3.7.2 The formation of fossils in sedimentary rock

The plant or animal dies and is rapidly covered with sediment.
Soft tissues decay with the help of bacteria and microorganisms.
Hard body parts remain, and the organic material is hardened or replaced by
minerals.
More layers of sediment cover the dead animal or plant.
Sediment hardens and the layers become compressed and form sedimentary
rock.

3.7.3 Fossil dating:

The age of fossils can be determined through two methods i.e. radiometric
dating and relative dating.
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

3.7.3.1 Radiometric dating

This type of dating uses different instruments to measure the radioactive
elements e.g. uranium, carbon etc. in fossils or rocks.
The more the radioactive element in a fossil has decayed, the older the fossil.
For fossils older than 50 000 years the age of the rocks in which the fossils are
embedded is determined.
Carbon 14 dating is used to measure the age of fossils that are younger than
50 000 years.

3.7.3.2 Relative dating

As sediment is laid down on top of each other, the oldest rock will be below the
upper layers.
Older fossils will occur in sedimentary layers deep down and younger fossils will
occur in layers closer to the surface of the earth.

4. REVISION QUESTIONS:
Work through and answer the questions below.
Please note that HIGHER ORDER questions are in BOLD and marked with a (*)

4.1 The diagram below shows a food web.

4.1.1 Name the organism that represents a…
(a) producer (1)
(b) primary consumer (1)
4.1.2 Explain what may happen if the hyena was removed from this ecosystem. (3)
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

4.2 Read the extract below.
Carolus Linnaeus established a hierarchical classification system of grouping similar
organisms together. He grouped from broad groups called Kingdoms down to the
smallest group called species.
Using his system, a lion is fully classified as follows:
Animalia, Chordata, Mammalia, Carnivores, Felidae, panthera leo.

4.2.1 According to Linnaeus’ system, which class does the lion belong to? (1)
4.2.2 The lion’s scientific or binomial name, panthera leo, has been written
incorrectly. Rewrite it correctly. (2)

4.3 Read the extract below.

The Cape floral kingdom is the smallest of the world's floral kingdoms. It is home to
more endemic (species that occur in one region and nowhere else in the world)
and indigenous plants than in any other region in South Africa. Approximately 70%
of the 9 000 plant species in this area are found nowhere else in the world.
The vegetation of this biome, which is mostly small bushes, grows in nutrient poor soil.
They also survive the long dry summer conditions, as well as frequent fires.
The flora of the Cape is threatened, amongst others, by habitat destruction by
humans. Already numerous species are extinct from this biome. Hence, its
conservation is a national conservation priority.
In a bid to save this biome, there are several projects aiming at encouraging
responsible travel to natural areas in order to conserve the environment, as
well as improving the well-being of local communities.

4.3.1 What is a biome? (2)
4.3.2 What is the name of the biome in the extract above? (1)
*4.3.3 Give TWO reasons for the habitat destruction by humans. (2)
*4.3.4 Calculate the total number of species that are endemic to this biome. Show
your working. (3)

4.4 Esethu and Christine read the extract below in a magazine.
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

They decided to conduct an investigation.

They took 4 wooden boxes and placed 1 cricket in each box.
Each box was also fitted with a temperature-controlled heater. These boxes
were labelled A, B, C and D.
The heater in box A was set at 10 °C, box B was set at 15 °C, box C at 20 °C
and box D at 25 °C.
Each box was left for 30 minutes for the crickets to get used to the temperature.
They then recorded the number of chirps per minute.

Their results are shown in the table below.

*4.4.1 Write a suitable aim for the investigation. (2)
*4.4.2 Name TWO factors that Esethu and Christine need to control to make their
investigation more valid. (2)
*4.4.3 Draw a line graph to represent the data shown in the table above. (6)
*4.4.4 State TWO ways in which Esethu and Christine could improve the reliability of
their investigation? (2)
*4.4.5 In which season would you expect to hear more cricket chirping? Give a
reason for your answer. (2)

4.5 The table below shows some characteristics of arthropods. Use the information
in the table to find the class of the animals labelled A to E.

4.5.1 Match the correct letter of the organisms A to E to the class described in the
table and give reasons why it belongs to that class. (10)
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4.6 Study the diagram showing the nitrogen cycle below.

4.6.1 Identify the nitrogenous compound represented by labels A, B and C. (3)

4.6.2 Name the process labelled D by which nitrogen is returned to the
atmosphere. (1)
4.6.3 Name the plants labelled E that form a symbiotic relationship with nitrogen-
fixing bacteria. (1)

4.6.4 Name the weather phenomenon labelled F that is responsible for forming
nitrates in the atmosphere. (1)
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

4.7 The graph below shows the major extinction events.

4.7.1 When did the Cenozoic era begin? (1)
4.7.2 Which mass extinction took place towards the end of the Palaeozoic era? (1)
*4.7.3 Approximately how many families of species died out at the end of the
Palaeozoic era? Show ALL working. (3)
*4.7.4 Explain why the number of families of organisms rapidly increased after each
mass extinction. (4)

4.8 The images below are two different fossils.

4.8.1 Describe how these fossils may have formed in sedimentary rock. (4)
4.8.2 Name TWO other ways that fossils are formed, other than in
sedimentary rock. (2)
4.8.3 Scientists use radioactive isotopes such as carbon-14 or potassium-40 to date
fossils. What is this method of dating fossils called? (1)
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

4.9 The table below shows the timescale of a part of Earth’s history.

4.9.1 Which …
(a) period saw the arrival of the first land plants? (1)
(b) group of animals survived the longest in this era? (1)
4.9.2 What do we call a timescale like the one above? (1)
4.9.3 In which period above did an explosion (a large increase) in the number and
diversity of fossils in the fossil record occur? (1)
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Life Sciences revision booklet 2024 Grade 10 Terms 3 and 4

4.10 Study the map below.

4.10.1 What do we call the study of the distribution of individual species? (1)
4.10.2 Name the supercontinent evident in the diagram. (1)
*4.10.3 Using the diagram above, explain how fossil evidence supports the fact that
Africa and South America may have once been joined as part of the same
continent. (2)
4.10.4 Which organism’s fossil remains are found on all the land masses
shown above? (1)

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