A LevelBiologyOCRTopic Questions5. Communication, Homeostasis & Energy5.6 Photosynthesis

Photosynthesis (OCR A Level Biology)

Topic Questions

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1a
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Temperature and light intensity are two factors that affect the rate of photosynthesis.

A student investigated how temperature and light intensity affected the rate of photosynthesis in the aquatic plant Elodea canadensis. The rate of photosynthesis was measured by counting the number of bubbles produced by the plant per minute.

The student’s results are shown in Table 3.

Light intensity Temperature (°C)

Number of bubbles

produced / minute
8 25.0 10
32 25.0 31
127 25.0 102
510 25.0 108
8 40.5 25
32 40.5 28
127 40.5 118
510 40.5 133
8 70.0 2
32 70.0 4
127 70.0 12
510 70.0 16

Table 3

(i)
Identify the anomalous result in Table 3 and explain how this result could be confirmed as an anomaly.
[2]

(ii)
Describe how the student could improve their experimental method and the presentation of their data.
[6]

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1b
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Photosynthesis occurs in two stages: the light-dependent stage and the light-independent stage. The light-independent stage is affected by temperature more than the light-dependent stage.

Explain why temperature has a greater effect on the rate of the light-independent stage.

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1c
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Scientists are able to clone desirable plants that show a high rate of photosynthesis. The following passage describes how plants are cloned.

Complete the passage using the most appropriate words or phrases.

Cells are removed from the meristem tissue in axial buds or .......... tips. The tissue sample that is removed is called the .......... Ethanol can be used to ..........  the plant tissue. Hormones are used to stimulate mitosis, which produces a mass of cells called a ............ 

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2a
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Plants are capable of synthesising a variety of molecules from the products of the light-independent stage of photosynthesis.

Fig 22.1 summarises these processes.q22-paper-1-june-2019-ocr-a-level-biology

Fig. 22.1

Identify the molecules represented by the letters A, B, C and D in Fig. 22.1
A .........................................................................................................
B ..........................................................................................................
C ...........................................................................................................
D ...........................................................................................................

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2b
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A scientist investigated the rate of photosynthesis in lesser pondweed, Potamogeton pusillus.

The method used is outlined below:

  • Add 200cm3 of distilled water to a 300cm3 glass beaker.
  • Dissolve 5g of NaHCO3 in the water to provide an excess of CO2.
  • Place the beaker in a water bath at 10°C and leave for 10 min to equilibrate.
  • Insert an oxygen sensor into the water in the beaker and measure the baseline O2 concentration.
  • Place 100g of P. pusillus into the beaker.
  • Remove all other light sources from the room and place an LED light source 20cm above the top of the beaker.
  • Use a light intensity meter to ensure the light intensity above the beaker is 5000 lux.
  • Measure the concentration of oxygen dissolved in the water using a data logger every 10min for 200 min.
  • Carry out four more repeats at 10°C.
  • Repeat all the above steps in water baths at 15°C, 20°C, 25°C and 30°C.

(i)
Identify the following variables from the scientist’s method:

   independent variable
   ...........................................................................................................................................
   dependent variable
   ...........................................................................................................................................
   one control variable
   ...........................................................................................................................................

[3]

(ii)
Identify one variable that was not controlled in the scientist’s method.
[1]

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2c
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Fig. 22.2 is a graph of the scientist’s results.

q22c-paper-1-june-2019-ocr-a-level-biology


Fig. 22.2

Describe and explain what these results show about photosynthesis in P. pusillus.

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2d
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The light-independent stage of photosynthesis used to be referred to as the ‘dark reaction’.

(i)
Explain why this is both an accurate and an inaccurate way to describe the light-independent stage.

[2]

(ii)
Name the enzyme responsible for fixing CO2 in the light-independent stage.

 [1]

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2e
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The scientist then investigated the effect of auxin on P. pusillus stems.

The growing tips of stems were removed and the stems were placed in solutions containing different concentrations of auxin.

The scientist analysed the results and determined the following relationship:

The higher the concentration of auxin in the solution, the fewer side shoots grew on the P. pusillus stems.

(i)
Explain why this relationship occurs in P. pusillus stems.

 [1]

(ii)
Give two examples of the commercial uses of auxin.

[2]

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3a
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Chromista are photosynthetic protoctists that live in water.

Chromista are different from other photosynthetic organisms because they contain the pigment chlorophyll c.

Chlorophyll c is not found in plants.

(i)
Outline the importance of photosynthetic pigments in photosynthesis.
[4]
(ii)
The wavelengths of light absorbed by chlorophyll c are different from those wavelengths absorbed by chlorophyll a and chlorophyll b

Suggest why Chromista need pigments that are different from those of other photosynthetic organisms.
[1]

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3b
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Fig. 17.1 is a diagram of the chloroplast found in a Chromista cell.

q17b-paper-1-june-2018-ocr-a-level-biology

Fig. 17.1

Outline the structural differences between the Chromista chloroplast in Fig. 17.1 and the chloroplasts found in flowering plants.

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3c
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Fig. 17.2 is a diagram of part of the plasma membrane of a Chromista cell.

q17c-paper-1-june-2018-ocr-a-level-biology

(i)
State and explain how one property of region A in Fig. 17.2 contributes to the stability of the plasma membrane.

[2]

(ii)
There are differences between the plasma membrane and membranes within cells.

Outline the role of membranes within cells.

[2]

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4a
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A scientist used a respirometer to investigate the rate of respiration and photosynthesis of maize in different light intensities.

  • The scientist placed ten maize seedlings in a respirometer and kept it in the dark for three hours. 
  • The respirometer contained soda-lime to remove any CO2 produced by the seedlings.
  • The scientist placed ten maize seedlings in a separate respirometer without soda-lime and placed it in different light intensities for three hours at a time.
Light intensity
(lux)		 Distance moved by fluid in
respirometer
(mm)
0 –3.7
1020 –0.8
1510 0.0
1700 1.2
2000 2.9

Table 22.1

(i)
The diameter of the capillary tubing was 0.1mm.
The volume of a cylinder can be calculated using the following formula:
   volume of cylinder = πr2l

Calculate the rate of oxygen uptake by the seedlings in the dark. Give your answer to two significant figures. Show your working.

Answer = ............................................mm3h-1 [3]

(ii)
1700 lux is a typical light intensity on a cloudy day in the UK. Calculate the percentage increase in gas production between 1700 and 2000 lux. Show your working.

Answer = ...................................................... % [2]

(iii)
Suggest why soda-lime was not placed in the respirometer with the seedlings grown in the light.

[1]

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4b
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The scientist made the following claim:

These results suggest that, in maize seedlings, the rate of photosynthesis only exceeds the rate of respiration when the light intensity is above 1510 lux.

Use the data in Table 22.1 to explain why the scientist made this claim.

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5a
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A student investigated photosynthetic pigments in spinach leaves using thin layer chromatography (TLC).

Fig. 17.1 shows the student’s plate at the end of the investigation. A cm-ruler has been added to the plate.


picture24
Fig. 17.1

The table shows colours and Rf values for several photosynthetic pigments.

Pigment Colour Rf
Carotene Yellow-orange 0.90
Chlorophyll a Blue-green 0.53
Chlorophyll b Green 0.49
Pheophytin Grey 0.65
Xanthophylls Yellow 0.32–0.44

(i)
Calculate the Rf value for spot 3 and use this to identify the pigment that spot 3 represents.

Rf = ...............................................................
pigment = ...............................................................
[3]

(ii)
Predict the colour of spot 4.
 [1]
(iii)
The solvent used for the separation was non-polar.

Identify the spot corresponding to the least polar pigment. Give a reason for your choice.
spot ........................................................................................
reason ....................................................................................
[2]

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5b
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The student used the following method for the investigation:

   Step 1: Extraction of pigments

  • Take 0.5g of fresh spinach and add 1g of sand
  • Grind the mixture until it becomes a fine, light green powder
  • Transfer the powder to a test tube and add 2cm3 of propanone
  •  Stir for about 1 minute then allow to stand for another minute
  • Transfer the dark green upper layer with a pipette to a clean test tube and seal with film when not in use.

   Step 2: TLC analysis

  • Hold the TLC plate carefully by the edges and avoid damaging the surface of the plate
  • Draw a pencil line across the width of the TLC plate 1cm from the bottom edge
  • Spot the extract on the pencil line using a pipette, one drop at a time, allowing the spot to dry before adding the next drop
  • Place chromatography solvent in a jar so that it is no more than 0.5cm deep
  • Lower the TLC plate into the jar and lean the top against the side of the jar. Make sure the plate does not touch the sides of the jar anywhere else
  • Place a cap on the jar and allow the solvent to soak up the plate
  • When the solvent has reached a few mm from the top of the plate, remove the plate from the jar and mark the position of the solvent front with a pencil
(i)
Explain why the method included the following precautions:

Hold the TLC plate carefully by the edges and avoid damaging the surface of the plate.

Make sure the plate does not touch the sides of the jar anywhere else.
[2]
(ii)
Suggest an advantage of working as quickly as possible in Step 1.

[1]

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5c
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Algae are single-celled photosynthetic organisms.

An investigation was carried out into the effect of CO2 concentration on the concentrations of ribulose bisphosphate (RuBP) and glycerate 3-phosphate (GP) present in algae.

Algae were grown in a solution containing a high concentration of CO2. The concentration of CO2 was then reduced.

RuBP and GP concentration were measured for 2 minutes before and 3 minutes after the reduction in CO2 concentration.

The results are shown in Fig. 17.2.

q17c-paper-1-nov-2020-ocr-a-level-biology

Fig. 17.2

Describe and explain the effect of reducing the CO2 concentration on the concentration of RuBP and GP in the algae.

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6
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Light intensity, carbon dioxide concentration and temperature are all limiting factors in photosynthesis.

Explain what is meant by a limiting factor.

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7a
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Plants photosynthesise and respire. Fig. 18.1 shows the rate of production of carbohydrate in photosynthesis and the rate of use of carbohydrate by respiration.

q18a-paper-1-specimen-ocr-a-level-biology

Fig. 18.1

(i)
Explain the shape of the curve for the rate of photosynthesis in Fig. 18.1.

[2]

(ii)
Explain the shape of the curve for the rate of plant respiration in Fig. 18.1.

[2]

(iii)
What is happening at the points indicated by the letter L?

[1]

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7b
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Plants grow successfully in temperatures that are suited to their metabolism. Some plants are adapted for growth in cool climates while others can grow well in warm climates.

Plants also vary in their photosynthetic metabolism. Many plants produce a 3-carbon compound as the first product of carbon fixation and so are referred to as C3 plants. Another group of plants produces a 4-carbon compound as the first product and so are referred to as C4 plants.
C3 plants include barley, lentil, rice, soya, sunflower and wheat.
C4 plants include maize, millet, sorghum and sugar cane.

Fig. 18.2 shows the assimilation of carbon dioxide by four different crops at different temperatures.

q18b-paper-1-specimen-ocr-a-level-biology

Fig. 18.2

(i)
With reference to Fig. 18.2, what is the general relationship between increasing temperature and the assimilation of carbon dioxide?

[2]

(ii)
Calculate the values for the mean assimilation of carbon dioxide by C3 plants and C4 plants at 20 oC. Include units in your answer.

C3 .............................................

C4 .............................................

[2]

(iii)
Suggest a conclusion that could be drawn from the mean values you calculated in part (ii).

[1]

(iv)
With reference to Fig. 18.2, suggest which curve corresponds to each of the following crops:

Sugar cane, which grows in warm climates.

.......................................................................................................

Barley, which grows in cool climates.

.......................................................................................................

[2]

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7c
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Temperature is very important in determining a plant’s ability to photosynthesise effectively.
Temperature stress is becoming of great concern to plant physiologists because of climate change.

  • High temperature (HT) stress is defined as the rise in temperature that is sufficient to cause irreversible damage to plant growth and development.

Some of the stress effects of temperature have been recorded in various plants and are outlined in Table 18.1.

Temperature Effect
Moderate HT stress Heat-induced deactivation of RuBisCO
No change in chlorophyll fluorescence in PSII
Reduction in stomatal aperture
Severe HT stress Decrease in chlorophyll content as a result of photodeterioration
Changes in the ultrastructure of the chloroplast

Table 18.1

(i)
Assess the impact of moderate HT stress on the process of photosynthesis.
[3]
(ii)
Suggest two ways in which the ultrastructure of the chloroplast can be altered by high temperatures.

For each suggestion, explain the effect that it will have on photosynthesis.

Suggestion ................................................................................................

Explanation ..............................................................................................

Suggestion ................................................................................................

Explanation ..............................................................................................

[4]

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