B3 - Life on Earth

Question 1

Define what is meant by a ‘species’.

Answer 1

Similar organisms that are capable of breeding together to produce fertile offspring

Question 2

Why does a species have to be able to adapt to its environment?

Answer 2

In order to survive and increase its chances of reproducing.

Question 3

Give some examples as to how a cactus might be adapted to a desert environment.

Answer 3

• By having its leaves reduced to spines to cut down water loss
• Having a thick outer layer to cut down water loss
• A deep, wide-spreading root system to obtain as much water as possible

Question 4

Give some examples as to how a fish might be adapted to survive in water.

Answer 4

• Having gills to take oxygen from water rather than air
• A streamlined shape and fins to move easily through water
• A swim bladder (an air-filled sac) to help it maintain position in water

Question 5

A species may become extinct if it can’t adapt to changes like what? (3 things)

Answer 5

• Increased competition
• New predators
• New diseases

Question 6

True or False?

Organisms live in isolation.

Answer 6

False - Organisms do not live in isolation.

Question 7

What is the purpose of a food chain?

Answer 7

To show the feeding relationships between organisms. When animals eat plants or other animals, energy is passed up the food chain.

Question 8

True or False?

Animals are dependent on each other and their environment for survival.

Answer 8

True.

Question 9

What is the purpose of a food web?

Answer 9

• Show how all the food chains in a habitat are inter-related
• Show how all the living organisms are dependent on each other

Question 10

True or False?

Food webs can be complicated because animals’ diets change frequently.

Answer 10

False - Food webs can be complicated, but this is due to the fact that many animals have varied diets.

Question 11

What is meant by the term ‘interdependence’? (HT)

Answer 11

When living organisms are dependent on each other to survive.

Question 12

a) What is one thing that might alter a food web?
b) Give an example of this.
c) What might happen if these changes are too great/significant?

Answer 12

a) Environmental changes
b) Less rain could reduce the amount of lettuce and cause reductions in slug numbers.
c) If the changes are too great, organisms will die before they can reproduce, eventually becoming extinct.

Question 13

Where do all living things on Earth ultimately get their energy from?

Answer 13

The Sun.

Question 14

How is energy transferred from the sun?

Answer 14

• Plants absorb a small proportion of the Sun’s energy through photosynthesis and store the energy in the chemicals that make up their cells (e.g. starch, cellulose)
• Energy is transferred to other organisms when plants and animals are eaten or decompose.
• Energy is also transferred when decay organisms feed of dead organisms and the waste products of animals.

Question 15

What is an ecosystem?

Answer 15

An area containing a self-sustained community of organisms and their physical surroundings.

Question 16

What two things can be found within an ecosystem?

Answer 16

• Autotrophs (producers)

- Heterotrophs (consumers)

Question 17

What are autotrophs?

Answer 17

Self-feeders, for example, plants that make their own food. They are also known as producers.

Question 18

What are heterotrophs?

Answer 18

For example, animals and decay organisms that are unable to make their own food so they get energy by consuming other organisms. For this reason they are also known as consumers.

Question 19

a) What is the name given to heterotrophs that eat plants?

b) What type of consumers are these?

Answer 19

a) Herbivores

b) Primary consumers

Question 20

a) What is the name given to heterotrophs that eat other animals?
b) What type of consumers are these?

Answer 20

a) Carnivores

b) Secondary or tertiary consumers

Question 21

True or False?

Energy in a food chain can go in more than one direction.

Answer 21

False - Energy in a food chain always flows in one direction.

Question 22

Fill in the gaps.

• Light energy flows from the _________.
• The light energy is transferred to an _________, which __________ the energy, uses it for ____________ and stores it in its __________.
• A ___________ heterotroph eats the _________. Some energy stored in the _________ is transferred and stored in the herbivore’s cells.
• A ____________ heterotroph eats the _________ heterotroph. Some energy is transferred to the __________ and stored in its cells.
• Dead organisms are fed on by _________ organisms which are called _____________, such as bacteria and fungi.

Answer 22

• Sun
• Autotroph, captures, photosynthesis, cells
• Herbivore, autotroph, plant
• carnivore, herbivore, carnivore
• Decay, decomposers

Question 23

What are dead organisms also fed on by? (HT)

Answer 23

Detritivores (e.g. woodlice that can re-enter the food chain.)

Question 24

a) What can happen at each stage within a food chain to a large proportion of energy? (3 things)
b) What does this mean about the energy availiable at each stage in the chain, and the length of the chain?

Answer 24

a) - Lost through heat or respiration
- Excreted as waste products
- Trapped in materials such as bone and fur.
b) This means less energy is availiable at each stage of energy transfer, which means there’s a limit to the length of a food chain.

Question 25

How can energy efficiency be calculated?

Answer 25

Percentage of energy transferred = (input energy divided by output energy) x 100

Question 26

True or False?

a) All materials are recycled in the natural world.
b) Energy can be created and destroyed, but not changed in type. Energy can be recycled because of this.
c) Energy is always eventually lost from the system, so a constant input is needed (from the Sun)

Answer 26

a) True.
b) False - Energy can not be created or destroyed (it can only be changed in type). For this reason it cannot be recycled.
c) True.

Question 27

How do animals obtain nitrogen?

Answer 27

By eating protein in other plants or animals.

Question 28

How is excess nitrogen removed from the nitrogen cycle?

Answer 28

Through excretion, e.g. urea in urine.

Question 29

When plants and animals are decomposed by decay organisms (e.g. bacteria, fungi) after death, how is the protein broken down?

Answer 29

Into nitrogen compounds such as nitrates.

Question 30

How can nitrogen in the air be removed/fixed? (HT)

Answer 30

By nitrogen-fixing bacteria in the soil and in the root nodules of plants like clover and beans (leguminous plants). The nitrogen is then converted into compounds e.g. nitrates.

Question 31

Nitrates are taken up by plant roots and converted to what? (HT)

Answer 31

Protein.

Question 32

What does the process of denitrification involve?

Answer 32

Nitrates are broken down into nitrogen by bacteria in the soil.

Question 33

How is carbon dioxide removed from the air?

Answer 33

By plants in the process of photosynthesis and is incorporated into their cells

Question 34

What do plants and animals do that releases waste carbon dioxide into the air?

Answer 34

Respire.

Question 35

What does combustion (burning) in forest fires and combustion of fossil fuels (e.g. coal, oil, and gas) do to carbon dioxide?

Answer 35

Release it into the air.

Question 36

What do decomposer organisms like bacteria and fungi do to release carbon dioxide into the air?

Answer 36

Break down dead materials and waste products.

Question 37

True or False?

Microorganisms have a vital role in decomposing organic material and releasing the carbon.

Answer 37

True.

Question 38

When measuring environmental change, how can data be obtained? (2 ways)

Answer 38

• Using meters to measure levels of oxygen, carbon dioxide, nitrates and temperature etc.
• Using living organisms as indicators, e.g. mayfly larvae in rivers need high oxygen levels. Pollution reduces the amount of oxygen so, if mayfly larvae are found in significant numbers, the level of pollution in the river water must be fairly low. Other living indicator organisms include lichen (which don’t grow if the air is polluted) and phytoplankton (the plants found in plankton).

Question 39

When did life on Earth begin?

Answer 39

Around 3500 million years ago.

Question 40

The very first living things developed from simple molecules that could copy or replicate themselves. It’s not know how these molecules came about, but what are the two possibilities we know of?

Answer 40

• May have been produced by conditions on Earth at the time (harsh surface conditons, or in deep sea vents)
• May have arrived on Earth from an external source, e.g. a comet hitting earth.

Question 41

True or False?

Experiments have simulated the harsh conditions on Earth millions of years ago, which led to complex molecules and organisms being formed.

Answer 41

False - Experiments have simulated the harsh conditions on Earth millions of years ago, which led to simple organic molecules being formed.

Question 42

True or False?

There’s evidence of simple organic molecules existing in gas clouds in space and in comets.

Answer 42

True.

Question 43

a) Evidence suggests that all existing organisms share certain traits such as what?
b) What does this mean about the ancestry of all existing organisms?
c) Give two sources of evidence that support this.

Answer 43

a) Cellular structure and genetic code (DNA)
b) This would been that all existing organisms share a common ancestor and evolved from very simple living things.
c) Fossil record; DNA evidence

Question 44

What does fossil evidence show?

Answer 44

The history of species and the evolutionary changes over millions of years

Question 45

How can fossils be formed? (3 possibilities)

Answer 45

• Hard parts of organisms that don’t decay easily
• Parts of animals and plants that haven’t decayed because one or more of the conditions needed for decay were absent, e.g. oxygen or moisture
• Soft parts of organisms that can be replaced by minerals as they decay. This can preserve traces of footprints or burrows.

Question 46

How does DNA evidence support the common ancestor theory?

Answer 46

Analysing DNA of both living organisms and fossils shows the similarities and differences.

Question 47

What does comparing gene sequences reveal about the DNA of some organisms?

Answer 47

That the DNA of some organisms can be very similar to organisms that might appear to be very different.

Question 48

What is evolution?

Answer 48

• The slow, continual change within a species over many generations

Question 49

What might evolution results in?

Answer 49

A new species that is better adapted to its environment and the extinction of others.

Question 50

When did the theory of evolution come about?

Answer 50

1830s

Question 51

Who created the testable theory of evolution?

Answer 51

Charles Darwin.

Question 52

What four points is Darwin’s theory of evolution by natural selection based around?

Answer 52

• Individuals show variation (i.e. difference due to their genes)
• There’s competition for food and mates. Also, disease and predators keep population sizes constant in spite of many offspring.
• Those better adapted are more likely to survive and reproduce while others die out. This is ‘survival of the fittest’.
• Survivors pass on genes to their offspring, resulting in an improved organism evolving over generations.

Question 53

What does natural selection rely on?

Answer 53

Variation caused by the genes and the environment

Question 54

True or False?

Within natural selection, both genetic variation and environmental variation can be passed on.

Answer 54

False - Within natural selection, only genetic variation (usually caused by mutation) can be passed on, and only then if it has occurred in the sex cells. Environmental variation, such as the loss of a finger, cannot be passed on.

Question 55

Which other scientist working in the early 1800s had a theory about evolution?

Answer 55

Jean-Baptiste Lamarck.

Question 56

What was Lamarck’s theory of evolution based around?

Answer 56

The idea that evolution was caused by a force in the environment, which would cause organisms to change to suit the environment.

Question 57

Why is Darwin’s theory about evolution more widely accepted today than Lamarck’s?

Answer 57

Because Darwin’s theory fits with our recent understanding of genes, whereas Lamarck’s theory doesn’t.

Question 58

What is selective breeding?

Answer 58

When animals with certain traits are mated to produce offspring with certain desirable characteristics.

Question 59

What is the difference between natural selection and selective breeding?

Answer 59

Natural selection is a natural process, whereas selective breeding is carried out by humans for their own purposes, not to suit the environment.

Question 60

a) Is the rate of extinction increasing or decreasing?
b) Why is this?
c) What two things might this reduce?

Answer 60

a) Increasing
b) Mainly due to humans
c) Biodiversity and sustainability

Question 61

Why might a species become extinct?

Answer 61

• The introduction of new predators or competition
• Industrial activities causing global warming
• Deforestation clears areas, increases carbon dioxide levels and alters the carbon cycle.

Question 62

What is meant by the term ‘biodiversity’?

Answer 62

It means the variety of life that exists on Earth. It refers to the many varieties of species and also to the genetic variation of individuals within species.

Question 63

Complete the sentence.

Every time a species becomes extinct…

Answer 63

…information stored in its genetic code is lost.

Question 64

What does extinction mean in terms of variety of species on Earth?

Answer 64

It means less variety on Earth.

Question 65

Without variety within species, what would happen?

Answer 65

• People would start to run out of food crops

- Shortage of medicine (as medicine is developed from plants and animals)

Question 66

By understanding how our actions can impact on biodiversity, what do scientists hope to discover?

Answer 66

Ways to use the Earth’s resources in a sustainable way.

Question 67

Why have all living things been classified into groups based on their similarities and differences in their physical appearance and DNA?

Answer 67

Because life is so diverse.

Question 68

What is the name of the large groups that life on Earth is categorised into?

Answer 68

Kingdoms.

Question 69

What do kingdoms contain?

Answer 69

Many organisms with only a few things in common.

Question 70

What is each kingdom subdivided into?

Answer 70

Smaller groups containing fewer organisms with more in common with each other. The smallest of these groups is called species.

Question 71

a) Humans are classified into:
i) the kingdom…?
ii) the species…?

b) Hamsters are classified into:
i) the kingdom…?
ii) the species…?

Answer 71

ai) the kingdom Animals
ii) the species Modern Man

bi) the kingdom Animals
ii) the species Golden Hamster

Question 72

What does sustainability mean?

Answer 72

That the needs and requirements of people are met without damaging the Earth for future generations. Conserving all species of living things to maintain biodiversity is a key part to this process.

Question 73

Why don’t huge field of a single crop (monoculture) help to maintain biodiversity?

Answer 73

Because they don’t provide a base for many food chains or different habitats to support a variety of species.

Question 74

Allowing ‘weed’ plants to grow (organic growing), rather than using herbicides and pesticides, may help to maintain biodiversity. But what are some issues that might come with this?

Answer 74

It might mean reduced yields and more expensive food.

Question 75

What question is raised when something is considered to either help maintain or not help maintain biodiversity?

Answer 75

Is is affordable economically or commercially?

Question 76

Why are alternative methods for throwing away waste packaging needed?

Answer 76

Because companies and individuals are using too much packaging for food and goods and landfill sites are running out of room.

Question 77

What two measures are being put in place to help reduce the amount of packaging that goes to landfill?

Answer 77

• Household and community waste-recycling schemes

- Using packaging made from biodegradable materials instead of oil-based plastics

Question 78

Give some examples of using biodegradable packaging.

Answer 78

• Using cardboard instead of polystyrene as packaging in parcels. Cardboard breaks down relatively quickly or can be recycled.
• Making carrier bags from cellulose extracted from plants such as potatoes. This makes the bags biodegradable and improves sustainability as it reduced oil usage.

Question 79

Although we can use alternative materials, the best option is to reduce the amount of packaging altogether. Why is this?

Answer 79

• Any material that’s used requires energy to make it, so by not using it there are energy and cost savings.
• Transport costs can be reduced because less packaging means goods weigh less and take up less room. In turn, less transport means less pollution.

Question 80

How are polar bears adapted to survive to live on the ice in the extremely cold Arctic area around the North Pole?

Answer 80

• Has white fur to blend in with the snow, that is thick enough to keep warm against the cold weather
• Has very sharp teeth and strong jaws in order to eat food that might be tougher to eat (e.g. seals and sealions)
• Has large, rough-skinned paws with curved claws so the bear doesn’t sink into the snow

Question 81

Which of the following are heterotrophs and which are autotrophs?

a) Cabbage
b) Human
c) Elm tree
d) Shark
e) Ant
f) Orchid

Answer 81

a) A
b) H
c) A
d) H
e) H
f) A

Question 82

Give three reasons why a species may become extinct.

Answer 82

Any from:

• Increased competition
• New predators
• Changes to environment
• New diseases
• Human activities (e.g. industry, deforestation

Question 83

Genetic variation may allow some species to avoid extinction. How might genetic changes occur?

Answer 83

Mutations (in genes)

Question 84

In the nitrogen cycle what is the important of

a) Nitrogen fixation?
b) Denitrification?

Answer 84

a) It converts atmospheric nitrogen to nitrates (nitrogen compounds)
b) It converts soil nitrates to atmospheric nitrogen