IB Biology Review
3.8 & 8.2 : Photosynthesis
Relationship Between Photosynthesis and
RespirationProducts of photosynthesis are reactants in respiration
What is Photosynthesis?
The conversion of light energy to chemical energy in the chemical bonds of glucose
Which organisms perform photosynthesis?
Autotrophs / ProducersSome bacteria, some protists, plants
Where Does Photosynthesis Occur?
In the chloroplastWhat is a chloroplast?
An organelle found only in plants and photosynthetic protistsabsorbs sunlight and uses that energy to drive the synthesis of glucose from carbon dioxide and water
Where does photosynthesis occur in the chloroplast?
Thylakoid
What is a thylakoid?A flattened membrane sac inside the chloroplast
What chemical does photosynthesis need to
occur?Chlorophyll
What is chlorophyll? The main photosynthetic pigment that absorbs solar energy in photosynthesisTwo types
Chlorophyll AChlorophyll Bboth absorb in the blue/violet wavelengths, but at slightly different wavelengths
Chloroplast Structure
Be able to draw these structuresOuter membraneInner membraneStromaGranumLumenThylakoid
The Reactions of Photosynthesis
Two main sets of reactions
Light Dependent ReactionsThe stage of photosynthesis that occurs in the thylakoid membranesConverts solar energy to the chemical energy of ATP and NADPH
Light Independent Reactions / Calvin Reactions
The stage of photosynthesis which combines CO2 and the chemical energy obtained from the light reactions (ATP and NADPH)Creates 3-carbon sugars which are then combined to produce the 6-carbon glucose
Overview of Photosynthesis
Photosynthesis: Step 1Light Absorption &
PhotolysisChlorophyll absorbs sunlight / energy from proton in Photosystem IIElectron donated by donated by the splitting of water (photolysis) is given energy from sunlightOxygen (O2) released
Photosynthesis: Step 2Chemiosmosis, Excitation and
PhotophosphorylationElectron moves through the electron transport chainElectron gives energy to proteins to pump protons into the thylakoid spaceThis proton gradient is used by ATPase to make ATPElectron goes to photosystem I at end of electron transport chain This electron is re-excited by another burst of lightElectron leaves by photosystem IThis re-excited electron is then passed to NADP+Produces NADPH
Comparison of Chemiosmosis in Mitochondria and
ChloroplastsIn both organelles
Electron transport chains pump protons (H+) across a membrane Protons go from a region of low H+ concentration (light gray in this diagram) to one of high H+ concentration (dark gray)Protons then diffuse back across the membrane through ATP synthaseProduces ATP
Overview of Light Dependent Reactions
Photosynthesis: Step 3Calvin Cycle Part 1: Carbon
FixationThree different carbon molecules from CO2 from air combine with three different RuBP molecules in stroma of chloroplastProduces six 3-phosophoglycerate molecules
Photosynthesis: Step 3Calvin Cycle Part 2:
ReductionMolecule gets phosphorylated by ATPMolecule is reduced (gains an electron) by NADPH Becomes G3PFor every 6 G3P molecules formed,one leaves the Calvin Cycle to make glucose2 G3P (3 carbon) = 1 glucose (6 carbon)
Photosynthesis: Step 3Calvin Cycle Part 3: Regeneration
of RuBP
The other five G3P molecules stay in the Calvin Cycle Get phosphorylated by ATP Regenerates RuBP
Review of Calvin Cycle
RuBP combines with CO2 to produce 3 phosophoglycerateAfter being phosphorylated by ATP, this resultant molecule is reduced by NADPH to become a molecule called G3PFor every 6 G3P molecules formed, only one leaves the Calvin Cycle to make glucoseIt takes two G3P (3-carbon) molecules to make one glucose (6-carbon) moleculeThe other G3P molecules stay in the Calvin Cycle and are phosphorylated by ATP to regenerate RuBP
Review of Photosynthetic Processes
Chloroplast Structure and Function
The thylakoids produce a lot of membrane surface area within the chlorophlastIncreased surface area increases space for the light dependent reactions to occurMore light dependent reactions produce more ATP and NADPH More ATP and NADPH increase the rate of glucose production in the Calvin Cycle
What three factors limit the rate of
photosynthesis? Temperature
Gradual rise in rateThen sudden drop as proteins denature
Light IntensityGradual rise in rate Followed by a leveling off as maximum rate of photosynthesis reached
CO2
Gradual rise in rate Followed by a leveling off as maximum rate of photosynthesis reached
Absorption Spectrum
A graph showing how well the three photosynthetic pigments (chlorophyll a and b, and carotenoids) absorb various wavelengths of lightShows what waves of light plants absorb
This graph has a similar overall trend as the Action Spectrum graph
Action Spectrum
A graph that shows how effective different wavelengths of light are in driving photosynthesisShows what waves of light plants use for photosynthesis
This graph has a similar overall trend as the Absorption Spectrum graph
Measuring Photosynthesis
Four main waysProduction of oxygen because
Oxygen is a byproduct of photosynthesis
Measure carbon dioxide uptake because carbon dioxide is a reactant of photosynthesis
Measure increase in biomass because products of photosynthesis are used in production of cell walls and new tissue
Measure electron flow in light reaction using DPIP as an electron acceptorMeasuring the color change as it is reduced with a spectrophotometer
1. Which two colours of light does chlorophyll absorb most? (1 mark)
A. Red and yellowB. Green and blueC. Red and greenD. Red and blue
Correct answer: D
IB Exam Question
2. Explain photophosphorylation in terms of chemiosmosis. (4 marks)
Electron transport chain (ETC) causes proton/hydrogen ion pumping;This creates a high proton gradient inside thylakoids;Protons then pass by diffusion into the stroma through ATP synthase;ATP synthase catalyses phosphorylation of ADP to produce ATP;
IB Exam Question
3. What is needed in photosynthesis to convert carbon dioxide into organic molecules? (1 mark)A. Light and hydrogen from the
splitting of waterB. Light and oxygen from the splitting
of waterC. ATP and hydrogen from the splitting
of waterD. ATP and oxygen from the splitting of
water
Correct answer: C
IB Exam Question
4. Describe the reactions in the light independent part of photosynthesis.
Carbon Fixation - RuBP combines with CO2 to produce 3 phosophoglycerateAfter being phosphorylated by ATP, this resultant molecule is reduced by NADPH to become a molecule called G3PFor every 6 G3P molecules formed, only one leaves the Calvin Cycle to make glucose It takes two G3P (3-carbon) molecules to make one glucose (6-carbon) moleculeThe other G3P molecules stay in the Calvin Cycle and are phosphorylated by ATP to regenerate RuBP
IB Exam Question
5. Explain how the light-independent reactions of photosynthesis rely on light-dependent reactions. (8 marks)light-independent reaction fixes CO2;to make glycerate 3-phosphate;glycerate 3-phosphate / G3P becomes reduced;phosphoglyceraldehyde / glyceraldehyde 3-phosphate;using NADPH;using ATP;ATP needed to regenerate RuBP;ATP is made in light-dependent reactions;light causes excitation of electrons;flow of electrons causes pumping of protons into thylakoid;ATP formation when protons pass back across thylakoid membrane;electrons are passed to NADP/NADP+;NADPH produced in the light dependent reactions;
IB Exam Question
6. Describe the relationship between chloroplast structure and function.
(4 marks)The thylakoids produce a lot of
membrane surface area within the chloroplastThis increased surface area increases the rate of light dependent reactions in the electron transport chain (ETC)Faster light dependent reactions produce more ATP and NADPH These molecules –in turn- increase the rate of glucose production in the Calvin Cycle
IB Exam Question
7. Explain the reasons for a shape of the thylakoid membranes in the chloroplast.
(4 marks) Shape leads to more surface area on the surface of the thylakoidsThis leads to more photosynthetic pigments and higher rate of light reactions (photosystem 1 and 2)This leads to more ATP and NADPH produced for the Calvin CycleThis leads to more glucose (sugar) produced in the Calvin Cycle
IB Exam Question
8. Outline the effect of temperature, light intensity and carbon dioxide concentration on the rate of photosynthesis. (6 marks)light:
rate of photosynthesis increases as light intensity increases;photosynthetic rate reaches plateau at high light levels;
CO2:photosynthetic rate rises as CO2 concentration rises;up to a maximum when rate levels off;
temperature:rate of photosynthesis increases with increase in temperature;up to optimal level / maximum;high temperatures reduce the rate of photosynthesis;Some of the above points may be achieved by means of annotated diagrams or graphs.
IB Exam Question
9. Explain three ways in which the rate of photosynthesis can be measured. (4 marks)
Production of oxygen because oxygen is a by product of the reaction;Measure carbon dioxide uptake because carbon dioxide is a raw material of the reaction;Measure increase in biomass; because products are used in production of cell walls and new tissue;Measure electron flow in light reaction using DPIP as an electron acceptor and measuring the color change as it is reduced with a spectrophotometer
IB Exam Question
10. Explain the reactions involving the use of light energy that occur in
the thylakoids of the chloroplast. (8 marks)Splitting of water/ photolysis provides an electron
Chlorophyll in Photosystem II absorbs lightElectron is raised to a higher energy level (is excited)Excited electron passes from photosystem II to carriers in electron transport chain (in thylakoid membrane)Energy from this excited electron is used to pump hydrogen ions from stroma into thylakoid space, creating high hydrogen ion concentration inside thylakoid.
IB Exam Question
11. Pigments are extracted from the leaves of a green plant. White light is then passed through the solution of pigments. What effect do the leaf pigments have on the white light? (1 mark)A. Green wavelengths are absorbed
and red and blue wavelengths are transmitted.
B. Red and blue wavelengths are absorbed and green wavelengths are transmitted.
C. Blue wavelengths are absorbed and green and red wavelengths are transmitted.
D. Green and red wavelengths are absorbed and blue wavelengths are transmitted.Correct answer: B
IB Exam Question
12. Why is the action spectrum for photosynthesis similar to the absorption spectra of photosynthetic pigments? (1 mark)A. Photosynthetic pigments have the same
optimum temperature as the enzymes used in photosynthesis.
B. Plants absorb the same photosynthetic pigments for use in photosynthesis.
C. Only wavelengths of light absorbed by pigments can be used in photosynthesis.
D. The amount of energy absorbed by photosynthetic pigments is equal to the activation energy for photosynthesis.
Correct answer: C
IB Exam Question
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