Cycles within Ecosystems (Edexcel GCSE Biology)

Exam Questions

3 hours20 questions
1a
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3 marks

Figure 1 shows the water cycle.fig-1-1bio-2f-june19-qp-gcse-bio

Figure 1

(i)
Name process G and process H.

(2)


(ii)

What causes the water vapour to condense and form clouds?

(1)

  A The water vapour cools down
  B The water vapour heats up 
  C The temperature of the water vapour stays the same
  D The trees absorb more water
1b
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2 marks

Water from rivers is treated before it is safe to drink.

Use words from the box to complete the sentences.

   filtering                      fish                              heating
    mud                      pathogens                       stirring


During water treatment, the solids in river water are removed by ....................................

Chlorine is then added to the water to kill .....................................

1c
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2 marks

Figure 2 shows the Canary Islands.

fig-2-1bio-2f-june19-qp-gcse-bio


Figure 2

The Canary Islands do not have enough fresh water.

Describe how seawater can be turned into drinking water.

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2a
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2 marks

The diagram below shows a representation of the carbon cycle.

Part of carbon cycle

Explain how carbon is returned to the atmosphere at the stage labelled Y.

2b
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3 marks

The diagram in part (a) is missing many details of the carbon cycle.

Label the diagram as follows to show where each of the processes occurs within the carbon cycle. 

(i)

Use the letter R to show where respiration occurs.

(1)

(ii)

Use the letter P to show where photosynthesis occurs.

(1)

(iii)

Use the letter F to show where feeding occurs.

(1)

2c
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3 marks

Carbon from fossil fuels enters the atmosphere during combustion.

(i)

Explain how this process contributes to rising average global temperatures.

(2)

(ii)

Explain how cutting down trees during deforestation increases the problem described in part (i).

(1)

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3a
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1 mark

State one role of nitrogen in living organisms.

3b
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3 marks

Separate: Biology Only

The diagram below shows a representation of the nitrogen cycle.

1

Identify the processes or molecules marked A-C in the diagram.

3c
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2 marks

Describe the process of denitrification shown in part (b).

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4a
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2 marks

All life on earth depends upon water for a variety of reasons, this includes photosynthesis.

Explain why transpiration from plants is an essential part of the water cycle.

4b
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4 marks

In some areas where there has been insufficient rainfall drought can occur. Drought may become an issue when populations living nearby don’t have access to the potable water they need.

One way to combat drought is through desalination of salty water such as sea water.

Give two methods of desalination. Describe them briefly.

4c
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2 marks

Separate: Biology Only

Another important cycle within the ecosystem is the carbon cycle. Carbon is a component of all organic molecules, many of which are essential for life on earth, such as glucose. 

(i)
Name the gas required for combustion to occur.

(1)

(ii)
State the process which takes carbon out of the atmosphere.

(1)

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5a
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1 mark

Separate: Biology Only

What is the role of microorganisms in decomposition?

  A Microorganisms prevent decomposition.
  B Microorganisms produce new elements during decomposition
  C Microorganisms break down organic matter into simpler substances during decomposition.
  D Microorganisms speed up combustion.
5b
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2 marks

Separate: Biology Only

Determine the rate of decay for biological material when the pH undergoes a change from 7 to 5 over a period of 24 hours.

5c
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4 marks

State the two main processes and primary agents involved in nitrogen fixation.

5d
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4 marks

Nitrification involves the conversion of __________ into ___________ and then further into ________ by different _________.

Fill in the blanks with the following options:

A Nitrifying bacteria
B Ammonium ions
C Nitrates
D Nitrites

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1a
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4 marks

Figure 1 shows a diagram of the water cycle.

y5SGBokA_1
(i)
Describe how clouds are formed at X in Figure 1.
(3)
(ii)
Suggest how water is returned to the water table from the atmosphere with reference to process Y in Figure 1.
(1)
1b
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3 marks

The map in Figure 2 shows the location of the Marshall Islands, an archipelago situated close to Hawaii in the Pacific Ocean.

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Figure 2

In 2016, a drought hit the Marshall Islands leading to a severe shortage of drinking water for the inhabitants of the island.

(i)
Explain why an island, such as those in the Marshall Islands, can suffer from the effects of a drought despite being surrounded by the ocean.
(1)
(ii)
Describe a method which could be used to obtain potable drinking water from saline water.
(2)
1c
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2 marks

The data in Figure 3 shows the relative volumes of water transferred through each part of the water cycle annually.


Process Quantity of water transported in 1000 km3yr-1
Evaporation 423
Transpiration 153
Precipitation 515
Percolation 72

Figure 3

Calculate the percentage of the total water transferred that falls through precipitation.

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2a
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6 marks

Figure 1 shows an outline of the carbon cycle.

FNQfnC9P_3

Figure 1

Describe the roles of living organisms in the cycling of carbon.

2b
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2 marks

Suggest a consequence to the living world of substances such as carbon not being recycled. 

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3a
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6 marks

Figure 1 shows the carbon cycle.

tZGquPcQ_4
Figure 1
(i)
Identify the processes labelled A, B, C, D and E.
(5)
(ii)
Give the letter of the process that reduces the carbon dioxide in the atmosphere.
(1)
3b
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4 marks

Deforestation has an impact on both the carbon cycle and the water cycle.

Describe and explain the effect of deforestation on levels of carbon and water in the atmosphere.

3c
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5 marks

Figure 2 shows the carbon dioxide concentration of the atmosphere between 1955 and 1995.

ngroFXOc_5
Figure 2
(i)
Calculate the difference in atmospheric carbon dioxide concentration in Europe between 1980 and 1990.
(2)
(ii)
Suggest an explanation for the fluctuations in carbon dioxide concentration during a year as seen in Figure 2.
(3)

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4a
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3 marks

Nitrogen is an essential element for plant growth. Most plants can only use nitrogen in the form of nitrate ions. Only legumes that have bacteria living in root nodules, as shown in Figure 1, can use nitrogen from the air.

Be5STSaF_6
Figure 1
(i)
Explain how nitrate ions help plants to grow.
(1)
(ii)
Outline how nitrogen in the air is converted into nitrates which can be used by the plants.
(2)
4b
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7 marks

Figure 2 shows the nitrogen cycle. Different stages have been numbered 1 to 8.

c2M0n-ID_7
Figure 2
(i)
Complete the table to match up the stages in the nitrogen cycle with the corresponding number, or numbers, from Figure 2.

The first row has been done for you.

Stage Number
Absorption 8
Denitrification  
Nitrogen fixation  
Excretion  
Decomposition  

(4)

(ii)
Explain how nitrates are absorbed into plants at stage 8.
(3)
4c
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4 marks

Earthworms are invertebrates that live in the soil. As they move through the soil, they create air pockets between the soil particles.

Suggest why this may lead to an increase in nutrients in the soil.

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5a
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1 mark

The effect of temperature on decomposition was investigated.

30 leaves were collected.
The mass of five leaves was recorded and the leaves were placed into a net bag.
This was repeated five more times.

Figure 1 shows one of these bags.fig-5-1bio-2f-june18-qp-gcse-bio

Figure 1

The net bags were then put in trays and covered in soil as shown in Figure 2.fig-6-1bio-2f-june18-qp-gcse-bio

Figure 2

Which type of tray should be used so that the leaves are in the best conditions for decomposition?

  A Tray with air holes and dry soil
  B Airtight tray with dry soil
  C Tray with air holes and moist soil
  D Airtight tray with moist soil
5b
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6 marks

Each tray was kept at a different temperature.

The mass of the leaves was recorded again after 25 days.

Figure 3 shows the results of this investigation.

temperature
in °C
mass of leaves
in g
decrease
in mass
in g
percentage
decrease in
mass
(%)
at start after 25
days
10 5.3 4.9 0.4 7.5
25 4.9 4.2 0.7 14
40 5.2 4.0 1.2 23
55 4.8 3.2 1.6 33
70 5.0 3.7 1.3 26
85 5.4 5.2 0.2 ?



(i)

Figure 3


Calculate the percentage decrease in mass for the leaves at 85 °C.

Give your answer to two significant figures.

(2)

(ii)

Explain which temperature was the best for the decomposition of the leaves.

(2)

(iii)

State two improvements to the method for this investigation.

(2)

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6a
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2 marks

Plants use nitrate ions to make proteins and chlorophyll.

(i)
What effects will a low nitrate ion concentration in soils have on plants?
(1)
  A Reduced growth and darker green leaves
  B Reduced growth and lighter green leaves
  C Increased growth and darker green leaves
  D Increased growth and lighter green leaves

(ii)

Which organisms convert nitrogen to nitrate ions during the nitrogen cycle?
(1)
  A Bacteria
  B Mammals
  C Fungi
  D Worms
6b
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4 marks

Figure 1 shows part of a root as seen using a light microscope.fig-8-1bio-2f-june18-qp-gcse-bio

Figure 1


Figure 2 shows information about the two types of cell labelled in Figure 1.

type of cell surface area
in μm2
volume
in μm3
surface area to
volume ratio
root surface cell 5 000 250 000 1 : 50
root hair cell 36 000 288 000 ?


Figure 2

(i)

Calculate the surface area to volume ratio of the root hair cell.

(2)
(ii)
Explain the benefit to the plant of having root hair cells.
(2)
6c
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3 marks

Algae are green plants.

Figure 3 shows the number of algae in a lake in the United Kingdom during one year.fig-10-1bio-2f-june18-qp-gcse-bio

Figure 3

Explain the changes in the number of algae in the lake from February to June.

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7a4 marks

A student investigated the effect of nitrate ion concentration on plant growth.

She placed barley seedlings in three test tubes containing different concentrations of nitrate fertiliser.

Test tube 1 contained distilled water with 1 pellet of nitrate fertiliser.
Test tube 2 contained distilled water with 2 pellets of nitrate fertiliser.
Test tube 3 contained distilled water with 3 pellets of nitrate fertiliser.

After 7 days, the lengths of the seedlings were measured.

Figure 1 shows an example of the apparatus used.

fig-13-1bio-2h-june18-qp-gcse-bio

Figure 1

(i)
Describe a control for this investigation.

(2)

(ii)
The nitrate fertiliser contains the chemical compound potassium nitrate. The hazard symbol on the bag of potassium nitrate fertiliser is shown in Figure 1.

fig-14-1bio-2h-june18-qp-gcse-bio

Figure 1

Which hazard does this symbol represent?

(1)

  A Flammable
  B Oxidising
  C Corrosive
  D Explosive

(iii)
Give a method, other than measuring the change in length, that would show the growth of the seedlings.

(1)

7b5 marks

Figure 2 shows the results of this investigation.

seedling in test tube length at the start in mm length after 7 days in mm
1 4 11
2 5 17
3 6 26

Figure 2

(i)
Explain why there are differences in the change in the lengths of the seedlings.
(2)
(ii)
Explain how nitrate ions were absorbed by the seedling in test tube 3.
(3)
7c3 marks

Farmers use crop rotation to reduce the need to add nitrate fertilisers to the soil.

Plants such as peas and beans have a mutualistic relationship with nitrogen-fixing bacteria.

Explain why farmers use these plants in their crop rotation cycle.

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8
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3 marks

Explain how cabbages, earthworms and squirrels contribute to the carbon cycle.

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9a
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2 marks

Figure 1 shows the global movement of carbon into or out of the atmosphere.

process movement of carbon
into or out of the atmosphere
in gigatonnes per year
photosynthesis 120.1
respiration 119.6
ocean uptake 92.8
ocean loss 90.0
combustion of fossil fuels  6.4


Figure 1

Calculate the net mass of carbon added to the atmosphere each year.

9b
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5 marks

Joseph Priestley was a scientist who investigated how green plants and combustion affected the carbon cycle.

Figure 2 shows his first experiment.fig-13-1bio-2h-june19-qp-gcse-bio


Figure 2

(i)
State why the candle was not burning after three minutes.

(1)

(ii)
Joseph Priestley continued the investigation but placed a plant inside the bell jar as shown in Figure 2.fig-14-1bio-2h-june19-qp-gcse-bio

Figure 2

He observed that the candle stayed alight for two minutes more than the candle in the bell jar in the first experiment.

Explain his observation.

(2)

(iii)
State two variables that would need to be controlled to compare these two experiments.
(2)
9c
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4 marks

Nitrogen is cycled through the environment.

Describe the roles of bacteria in the nitrogen cycle.

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10
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3 marks

State three ways the concentration of nitrates in soil can be increased.

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11a
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1 mark

A student investigated the decomposition of leaves from different types of tree.

Decomposers in the soil convert...

  A nitrogen into nitrates
  B nitrates into nitrogen 
  C urea into ammonia
  D ammonia into urea
11b
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4 marks

The student collected and weighed some fresh leaves from a beech tree.

  • The leaves were placed on top of soil in a tray.
  • This was repeated for leaves from three other types of tree.
  • The trays were kept in the same abiotic conditions for 40 days.
  • The leaves were reweighed after 40 days.
(i)
State two abiotic factors that should be kept the same in this investigation.
(2)

(ii)

Explain how this investigation could be improved to make the results more comparable.

(2)

11c
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4 marks

Figure 1 shows the mean rate of decomposition for this investigation.fig-12-1bio-2h-nov2021-qp-gcse-bio

Figure 1

(i)
Which leaves would produce compost in the least time?
(1)
  A Beech leaves
  B Oak leaves
  C Sycamore leaves 
  D Ash leaves 

(ii)


The same investigation was extended to include the leaves of a silver birch tree.

The starting mass of the leaves was 28.2 grams.

After 40 days the mass of the leaves was 19.7 grams.

Calculate the rate of decomposition of the leaves of the silver birch tree.

Give your answer to three significant figures and include the units.

(3)

11d
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2 marks

Explain how the concentration of oxygen in a compost bin would affect the rate of decomposition.

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12a
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2 marks

In Ireland during the 19th century, a mould caused potato plants to rot.

Explain how this mould affected food security in Ireland.

12b
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5 marks

A group of pupils investigated the effect of temperature on mould growth on bread.

Figure 1 shows the bread after being kept at different temperatures for seven days.

fig-8-1bio-2f-nov2021-qp-gcse-bio

Figure 1

(i)

Which is the best estimate of the percentage cover of mould on the bread at 40 °C?

(1)

  A 0 %
  B 25 %
  C 50 %
  D 75 %

(ii)


State two conclusions that can be made about the growth of mould on the bread from 0 °C to 40 °C shown in Figure 1.

(2)

(iii)

Explain why there was no mould growing on the bread kept at 60 °C.

(2)

12c
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1 mark

Figure 2 shows some part-baked bread in a sealed bag.

The gas in the bag is nitrogen, which prevents the bread from going mouldy.

fig-9-1bio-2f-nov2021-qp-gcse-bio

Figure 2

If the bag is opened, the bread goes mouldy within days.

State why the bread goes mouldy.

12d
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2 marks

Explain why keeping food in a fridge slows down the growth of mould.

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1a
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3 marks

A gardener wants to use some compost to maximise the vegetable growth in his garden. He has decided to use natural compost and has been told that he should aim for an optimum carbon to nitrogen ratio of 25:1 for the most fertile compost.

Using the Internet, the gardener found the following information (in Figure 1) about the nutrient content of some different types of natural compost.

Type of material to compost Mass of carbon in sample / g Mass of nitrogen in sample / g Carbon:nitrogen ratio
Sheep manure 17.50 2.50  
Horse manure 18.00 0.75 24:1
Poultry manure 12.00 2.00 6:1

Figure 1

(i)
Calculate the ratio of carbon to nitrogen for sheep manure as shown in Figure 1.
(1)
(ii)
Explain which type of compost would be the best for the gardener to use on his garden.
(2)
1b
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6 marks

Explain how nitrogen containing compounds in organic material is recycled into the growth of new plants.

1c
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3 marks

Once fruit has been harvested from a plant, it must be stored in suitable conditions to limit the rate of decay.

Describe the optimum conditions for storage of fruit, such as strawberries, once they have been picked from the plant.

1d
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4 marks

Figure 2 shows the development of mould on some bread over the period of 15 days.

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Figure 2
(i)
Calculate the daily rate of mould growth between days 4 and 14 on Figure 3.
(2)
(ii)
The company producing the bread suggested that a good way to keep the bread fresh would be to store it in an airtight container.

Suggest why this may help to reduce the rate mould growth on the bread.
(2)

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2a
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3 marks

Table 1 shows the approximate masses of carbon contained within carbon-containing compounds in various parts of the Earth's crust and atmosphere.

Table 1

 Reservoir   Mass of carbon in gigatonnes 
 Sedimentary rocks (including fossil fuels) 50 000 000
 Deep oceans  38 000
 Soil  1 580
 Surface oceans  970
 Atmosphere  750
 Land organisms  610
 Ocean organisms  3

1 gigatonne is 1 billion (1 000 000 000) metric tonnes.

Calculate the total mass of carbon in carbon-containing compounds in all reservoirs except for sedimentary rocks. Give your answer in kg in standard form. 

2b
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1 mark

Name one process by which carbon in sedimentary rock (the largest sink shown in Table 1) is returned directly to the atmosphere. 

2c
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2 marks

Carbon transfers from the 'land organisms' sink to the 'soil' sink.

Give two ways in which this transfer takes place. 

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3a
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6 marks

Nitrogen is an essential element for plant growth. Most plants can only use nitrogen in the form of nitrate ions from the soil. Only legumes that have bacteria living in root nodules, as shown in the Figure 1 below, can use nitrogen from the air.

Be5STSaF_6

Figure 1

(i)

Explain how nitrate ions help plants to grow.

(2)

(ii)

Describe how nitrogen in the air is converted into nitrates which can be used by the plants.

(2)

(iii)

The relationship between the plant and the root-nodule bacteria in the diagram above is described as 'mutualistic', meaning that both organisms in the relationship benefit from living together.

Use the information in the diagram to explain how the relationship between the plant and the bacteria is mutualistic.

(2)

3b
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7 marks

Figure 2 shows the nitrogen cycle. Different stages have been numbered 1 to 8.

c2M0n-ID_7

Figure 2

(i)

Complete the table to identify the stages in the nitrogen cycle that correspond to each number from the diagram.

One stage has been filled in for you.

(4)

Stage Number
  1
  2
  4
  7
Absorption 8

(ii)

Explain how nitrates are absorbed into plants at stage 8.

(3)

3c
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4 marks

Earthworms are invertebrates that live in the soil. As they move through the soil they create air pockets between the soil particles.

Suggest why this may lead to an increase in nutrients, such as nitrates, in the soil.

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