Core M - Photosynthesis

Question 0

Describe the arrangement and location of chloroplast pigments and discuss their effect on absorption spectra. (8)

Answer 0

• Chlorophyll a is primary pigment
• Carotenoids / chlorophyll b is accessory pigment
• Arranged in light harvesting clusters / photosystems
• On grana / thylakoids
• PI and PII (P700 and P680)
• Primary pigment / chlorophyll a in reaction centre
• Accessory pigment / carotenoids / chlorophyll b surround primary pigment
• Light energy absorbed by accessory pigments
• Energy passed on to primary pigment
• Chlorophyll a and b absorb light in red and blue violet region
• Carotenoids absorb light in blue violet region
• Absorption spectrum peaks at red and blue violet regions
• Different combinations of pigments in different plants to give different spectra

Question 1

Outline the process of the photolysis of water and describe what happens to the products of photolysis. (10)

Answer 1

• PII absorbs light
• Enzyme in PII involved
• To break down water
• 2H2O –> 4H+ + 4e- + O2
• Oxygen is produced
• Used by cells for aerobic respiration
• Or released out of plant through stomata
• Protons used to reduce NADP
• With electrons from PI
• Reduced NADP used in Calvin Cycle
• To convert GP to TP
• Electrons also used in ETC
• To release energy for photophosphorylation
• To produce ATP
• Electrons from PII go to PI
• Re-stabilise PI

Question 2

Explain how the palisade mesophyll cells of a leaf are adapted for photosynthesis. (7)

Answer 2

• Closely packed to absorb maximum light
• Vertical (at right angles) to surface of leaf to reduce number of cross walls
• Large vacuole pushes chloroplast to edge of cell
• Chloroplasts at edge, short diffusion path for carbon dioxide
• Chloroplasts at edge to absorb maximum light
• Large number of chloroplasts to absorb maximum light
• Cylindrical cells (air spaces) to circulate gases / provide a reservoir of carbon dioxide
• Moist cell surfaces for diffusion of gases
• Cell walls thin for maximum light penetration / diffusion of gases
• Chloroplasts can move towards light to absorb maximum light
• Chloroplasts can move away from high light intensity to avoid damage

Question 3

Describe the structure of photosystems and explain how are photosystem functions cyclic photophosphorylation. (8)

Answer 3

• Arranged in light harvesting clusters
• Primary pigments
• At reaction centre
• P700 absorbs at 700 nm
• P680 absorbs at 680 nm
• Accessory pigments (chlorophyll b and carotenoids) surround primary pigment (chlorophyll a)
• Pass energy to primary pigment
• P700 involved in cyclic photophosphorylation
• Light absorbed results in electron excited
• Emitted from chlorophyll
• Flows along chain of electron carriers (ETC)
• ATP synthesis
• Electron returns to P700

Question 4

Describe how the structure of a chloroplast is related to its functions. (9)

Answer 4

• Stroma
• For light independent stage (Calvin cycle)
• Contains enzymes eg rubisco
• Also sugars, lipids, starch, ribosomes, DNA
• Internal membrane system
• For light dependent stage
• Fluid filled sacs (thylakoids)
• Grana are stacks of thylakoids
• Grana hold photosynthetic pigments
• Grana have large surface area for maximum light absorption
• Pigments are arranged in light harvesting clusters
• Primary pigment surrounded by accessory pigments
• Accessory pigments pass energy to primary pigment
• Different photosystems absorb light at different wavelengths
• Membranes hold ATP synthase and electron carriers
• For photophosphorylation and chemiosmosis

Question 5

Describe how you would separate chloroplast pigments using chromatography. (6)

Answer 5

• Grind leaf with solvent
• With propanone
• Leaf extract contains mixture of pigments
• Concentrate extract
• Pencil line drawn, extract placed on chromatography paper, repetitive spotting, drying between spots
• Paper placed vertically in jar of different solvent
• Solvent rises up paper
• Each pigment travels at different speed
• Pigments separated as they ascend
• Distance moved by each pigment is unique
• Rf value
• Two dimensional chromatography
• Better separation of pigments

Question 6

Describe and explain the effects of different wavelengths of light on the rate of photosynthesis. (4)

Answer 6

• High rate at photosynthesis at 430-435 nm and 655 nm
• High absorption of light at these wavelengths
• Highest rate at 430-435 nm
• Shorter wavelengths have more energy
• Lower rate in middle range of wavelengths (500-600 nm)
• Low light absorption here
• Absorbed light used for photosynthesis
• In light-dependent stage

Question 7

Name two products of the light-dependent stage of photosynthesis that are used in the light-independent stages (2)

Answer 7

• ATP

* Reduced NADP

Question 8

Describe how ATP and reduced NADP are used in the light-independent stage of photosynthesis. (3)

Answer 8

• ATP provides energy
• Reduced NADP is reducing agent, providing hydrogen
• For converting GP to TP
• ATP used to regenerate RuBP

Question 9

Explain what is meant by the term limiting factor. (2)

Answer 9

• Process is affected by more than one factor

* Rate is limited by the factor nearest its minimum value

Question 10

Describe how carbon dioxide reaches the photosynthetic cells in a leaf. (4)

Answer 10

• Enters leaf through open stomata
• By diffusion
• Substomatal air space
• Many air spaces in spongy mesophyll
• Spaces between palisade cells
• Dissolves in moisture on cell walls
• Enters through cell walls