The Organism in the Environment (Edexcel GCSE Biology)

Exam Questions

2 hours13 questions
1a
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2 marks

Describe the meaning of the term 'community'.

1b
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2 marks

Figure 1 shows a food web.

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Figure 1

The organisms in this food web are said to be interdependent.

Explain what is meant by this.

1c
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2 marks

The information in Figure 1 shows some interactions and feeding relationships between different species. However, Figure 1 does not represent an entire ecosystem.

Explain why.

1d
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2 marks

After a period of drought, there was a reduction in the growth of grass.

With reference to Figure 1, explain how this would affect the population of caterpillars.

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2a
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1 mark

There are three levels of organisation in an ecosystem.

Which order shows the levels of organisation from lowest to highest?

  A Community, population, organism
  B Community, organism, population
  C Organism, community, population
  D Organism, population, community
2b
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4 marks

Figure 1 shows food webs for two gardens.

fig-3-1bio-2f-nov2021-qp-gcse-bio

Figure 1

Slug pellets are put on the soil around the lettuce plants in garden A and garden B.

Slug pellets kill slugs.

(i)

A scientist predicts that the number of caterpillars will decrease in garden A.

Give one reason why the number of caterpillars will decrease in garden A.

(1)

(ii)

The scientist predicts that the number of caterpillars will increase in garden B.

Give one reason why the number of caterpillars will increase in garden B.

(1)

(iii)

Figure 2 shows the population of slugs in garden A for five years.

Slug pellets were used during the first year

fig-4-1bio-2f-nov2021-qp-gcse-bio

Figure 2

Describe the trend in the slug population from year 1 to year 5.

(2)

2c
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3 marks
(i)

Flatworms from New Zealand that eat slugs are now living in the UK.

Which term describes a species from one country that is living in another country?

(1)

  A Pathogenic
  B Non-pathogenic 
  C Indigenous
  D Non-indigenous

(ii)


Figure 3 shows tiny white animals called mites on the skin of a slug.

The mites feed on blood.

fig-5-1bio-2f-nov2021-qp-gcse-bio

Figure 3

Explain why these mites are classed as parasites.

(2)

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3a
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1 mark

Some students collected some data about the size of the population of lichens on four trees within their school grounds. 

They used the following method:

  • choose four trees in the area
  • hold a quadrat on the north side of the trunk of one tree
  • count the total number of all the lichens in the quadrat
  • then do this on the east, south and west side of the tree
  • repeat this for each tree.

Suggest how the students could choose four trees.

3b
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2 marks

The students put their results into a table.

 

Number of individual lichens found in each quadrat

Tree number

North

East

South

West

1

4

11

15

7

2

3

10

18

9

3

4

12

17

12

4

5

15

12

8

mean

4.0

12.0

15.5

 

Calculate the mean number of lichens found in the quadrats from the west side of the tree.

3c
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1 mark

The students measured the abundance of the lichen by counting the number of individual lichen in each quadrat.

Give another method that the students could have used to measure the abundance of the lichen.

3d
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2 marks

Some species of lichen are formed from a mutualistic relationship between fungi and photosynthetic algae.

Give two abiotic factors which would impact the growth of these lichen.

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1a
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1 mark

Figure 1 shows some apparatus set up to test the effect of an abiotic factor on the rate of photosynthesis in pondweed.

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Figure 1

Identify the abiotic factor being tested in this investigation.

1b
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2 marks

Figure 2 shows the number of bubbles produced when the light source was placed at different distances away from the pondweed. 

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Figure 2

Calculate the mean number of bubbles per minute when the light source was 20 cm from the pondweed.

1c
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2 marks

Explain why the mean number of bubbles per minute can be used to reflect the rate of photosynthesis in pondweed.

1d
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4 marks

Identify one other relevant abiotic factor and explain how it would affect the rate of bubbles being produced by the plant.

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2a
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3 marks

Describe the key features of a parasitic relationship.

2b
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6 marks

The survival of some organisms may depend on mutualism.

Explain, using three examples, how some organisms benefit from mutualism.

2c
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2 marks

A tapeworm is a parasite which attaches to its host's intestinal wall and absorbs ready-digested nutrients into it's body by diffusion.

Suggest why this may cause harm to the host organism.

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3a
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3 marks

Figure 1 shows the data collected about the populations of two species of small mammal in a woodland ecosystem.

 

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Figure 1

Describe and explain the pattern shown in the data in Figure 1.

3b
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2 marks

Calculate the ratio of voles to mice collected in 2007.

3c
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2 marks

In the woodland ecosystem, owls feed on both voles and mice.

Sketch a line on the graph (Figure 1) to represent how populations of owls may change throughout the same period shown in Figure 1.

3d
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1 mark

Explain why the data in Figure 1 could not be collected using a quadrat.

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4a
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1 mark

Figure 1 shows a British glow-worm.

glow-worm

Wofl~commonswiki, CC BY-SA 2.0 DE <https://creativecommons.org/licenses/by-sa/2.0/de/deed.en>, via Wikimedia Commons

Figure 1

Read the following extract before answering the questions.

Female glow-worms produce bright lights in the summer to attract males.
Glow-worm larvae are predators of slugs and snails, but adult glow-worms do not feed.
Females only have a few weeks to attract a mate and lay eggs, before the females die.

What will happen if the population of snails decreases?

  A The population of glow-worms will increase
  B Adult glow-worms will eat more snails
  C Glow-worm larvae will eat more slugs
  D Adult female glow-worms will glow more brightly
4b
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4 marks

Female glow-worms are found attached to grass plants in a large field.

(i)
Describe a sampling technique to find the mean number of female glow-worms in 1 m2 of the field.
(3)
(ii)

The mean number of female glow-worms in 1 m2 of the field is 5.

The field has a total area of 800 m2.

Estimate the number of female glow-worms in the whole field.

(1)

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5
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6 marks

A student was investigating the populations of organisms in a garden.
Figure 1 shows the estimates of the number and biomass of some of the organisms in the garden.

organisms number mean biomass of each
organism in grams
biomass of
population in grams
cabbages (plants) 80 70 5600
earthworms 620 3.4 ?
slugs 30 4.1 123
hedgehogs 1 620 620
squirrels 2 600 1200

Figure 1

(i)
Calculate the biomass of the population of earthworms in the garden.
(1)
(ii)

Hedgehogs eat slugs and earthworms.

Slug pellets were used to kill the slugs.

Explain how killing the slugs would affect the population of earthworms in this garden.

(2)

(iii)

Describe a method that could be used to estimate the population of slugs in the garden.

(3)

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6a
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2 marks

Figure 1 shows an area of nettle plants.

nettles

FullEdit, CC BY-SA 4.0 <https://creativecommons.org/licenses/by-sa/4.0>, via Wikimedia Commons

Figure 1

Grass does not grow among the nettles.

Explain why grass does not grow where there are nettles.

6b
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4 marks

Figure 2 shows caterpillars eating nettle leaves.

caterpillar-and-nettle

Robert Flogaus-Faust, CC BY 4.0 <https://creativecommons.org/licenses/by/4.0>, via Wikimedia Commons

Figure 2

A caterpillar has a body mass of 6.0 grams.

One week later, its body mass had increased to 7.5 grams.

Caterpillars convert 10% of food eaten into body mass.

(i)
Calculate the mass of nettles that the caterpillar ate.
(2)
(ii)
Describe what happens to food eaten that is not converted into the body mass of the caterpillar.

(2)

6c
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4 marks

Devise a method a scientist could use to investigate how temperature affects nettle growth.

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7
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7 marks

The population of native white-clawed crayfish in English rivers is decreasing due to an increasing population of American imported signal crayfish.

Figure 1 shows a white-clawed crayfish.fig-1-1bio-2h-nov2021-qp-gcse-bio

Figure 1

(i)
Which term is used to describe the American imported signal crayfish now that it is living in English rivers?

(1)

  A Indigenous species
  B Non-indigenous species
  C Non-invasive species
  D Pathogenic species

(ii)


American imported signal crayfish may eat white-clawed crayfish.

Explain one other reason why the increasing population of American imported signal crayfish may have caused the decrease in white-clawed crayfish.

(2)

(iii)

The Environment Agency is developing methods of increasing the population of white-clawed crayfish in English rivers.

Which term describes these methods?

(1)
  A Mutation
  B Conservation
  C Predation
  D Mutualism

(iv)


White-clawed crayfish cannot survive in rivers with a low concentration of oxygen.

Explain how eutrophication can cause the population of white-clawed crayfish to decrease.

(3)

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1a
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3 marks

Biodiversity is essential for the stability of ecosystems globally.

Explain why this is.

1b
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6 marks

Campanula rotundifolia is a common species of plant found in grasslands in the UK, also known as the harebell. In recent years, number of harebell plants have been declining steadily across England.

A group of scientists decided to carry out an ecological study into the population of harebell found in a region of Wales.

Describe a method that could be used to estimate the size of a harebell population in a meadow in a region of Wales.

1c
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3 marks

In another ecological study, scientists were investigating the effect of road pollution on the distribution of harebells.

Their hypothesis was as follows:

'The abundance of Campanula rotundifolia decreases as the distance from the road decreases'

Suggest how the method used to collect this data would be different from the investigation carried out in part (b).

1d
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5 marks

Figure 1 shows the data collected in the study.

Distance away from road / m Average number of C. rotundifolia
0 0
2 0
4 3
6 7
8 8
10 15
12 18
 
Figure 1

Plot a graph on the axis below to show the data collected in the investigation (Figure 1).

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2a
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2 marks

Ecologists carried out a study into the effect of soil moisture level on the distribution of certain species of wildflower in a large meadow.

Figure 1 shows the meadow from the study, bounded by a river to the north and east and by farmland to the west and south.

The meadow slopes down to the river, with the south end of the meadow elevated approximately 10 metres above the north end. 

meadow-soil-moisture-1

Figure 1

A quadrat study was carried out to determine the abundance and distribution of wildflowers in the meadow, alongside a measurement of soil moisture levels using a soil moisture probe of the sort shown in Figure 2.

Samples were analysed in four areas of the meadow, W, X, Y and Z as shown in Figure 1.

soil-moisture-probe-1

Figure 2

The data found by the ecologists is shown in Table 1.

Table 1

Area Soil moisture level in % by mass No of wildflower species identified in quadrats Predominant species found
W 28 23 Succisa pratensis, Lychnis flos-cuculi, Centaurea nigra
X 13 15 Chrysanthemum segetum, Centaurea nigra
Y 31 21 Lychnis flos-cuculi, Silaum silaus
Z 41 26 Succisa pratensis, Lythrum salicaria


Suggest reasons for the differing soil moisture levels at W, X, Y and Z.

2b
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3 marks

Using the data in Table 1, assign a rank order 1 - 6 to each of the wildflower species named below in ascending order of being adapted to living in dry conditions. 

Species

Rank 1 - 6

6 = best adapted to dry conditions

Centaurea nigra  
Chrysanthemum segetum  
Lychnis flos-cuculi  
Lythrum salicaria  
Silaum silaus  
Succisa pratensis  

2c
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2 marks

Suggest why the answer you gave in part (b) may not be the most accurate rank order of adaptation to dry conditions. 

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3a
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1 mark

The biodiversity in an ecosystem can be determined by counting the number of different species present and the number of individuals of each species present.

Give the term that describes the number of individuals of one species present in a habitat at one time.

3b
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2 marks

Students compared the biodiversity of two fields, A and B.

They determined the number of individual plants of three species in each field.

They also calculated the percentage of each species of plant compared to the total number of plants of all three species for each field.

The table shows the results.

Species Field A Field B
Number of each plant Percentage (%) of each species Number of each plant Percentage (%) of each species
daisy 19 76 15  
dandelion   16 18 38
buttercup   8 14 30
total 25 100 47 100

Complete the table by calculating the missing values.

3c2 marks

Explain which field has the greater biodiversity.

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