NCERT Solutions Class 11th Biology Chapter -13 Photosynthesis in Higher Plants Question & Answer

NCERT Solutions Class 11th Biology Chapter – 13 Photosynthesis in Higher Plants

NCERT Solutions Class 11th Biology Chapter – 13 Photosynthesis in Higher Plants

?Chapter – 13?

✍Photosynthesis in Higher Plants✍

?Question & Answer?

1. By looking at a plant externally can you tell whether a plant is C₃ or C₄ ? Why and how?

Answer: Though plants which are adapted to dry tropical climate have the C₄ pathway, they do not show any external morphologic characteristics. Hence it is not possible to say whether the plant is C₃ and C₄ by looking at its external appearance.

2. By looking at which internal structure of a plant can you tell whether a plant is C₃ or C₄ ? Explain.

Answer: Leaves of C₄ plants have kranz anatomy which makes them different than C₃ plants. C₄ plants also have specialised cells called a bundle sheath cell which surround the vascular bundles. Every cell of the bundle sheath has chloroplasts. The mesophyll cells of leaves do not differentiate into the spongy and palisade parenchyma possessing less intercellular spaces while there is normal occurrence of chloroplasts in the mesophyll cells. But in C₃ plants, the bundle shealth does not exhibit chloroplast and the mesophyll cells of the leaves are differentiated into the spongy and palisade parenchyma. Hence by examining the internal structure we can tell whether the plant is C₃ or C₄.

3. Even though a very few cells in a C₄ plant carry out the biosynthetic – Calvin pathway, yet they are highly productive. Can you discuss why?

Answer: Plant productivity can be estimated by the rate at which photosynthesis takes place. The amount of carbon dioxide in a plant is directly proportional to the rate of photosynthesis. In C₄ plants, very few of the cells carry out the biosynthetic pathway yet they are highly productive for the following reasons.

• They have a mechanism that increases the CO₂ concentration at the site of enzyme.
• Mesophyll cells are broken down in the bundle sheath cells that results in CO₂ release which inturn increases the intracellular CO₂ concentration .
• Rubisco functions as a carboxylase minimizing the oxygenase activity.
• Increase in photosynthesis make C₄ plants more productive.

4. RuBisCO is an enzyme that acts both as a carboxylase and oxygenase. Why do you think RuBisCO carries out more carboxylation in C₄ plants?

Answer: The affinity of RUBISCO is much higher than its affinity for Oxygen. It is the concentration of Oxygen and CO₂ that determines the binding of the enzyme. Mesophyll cells of C₄ plants lack this enzyme but are found in the bundle sheath cells that girdle the vascular bundles where the Calvin cycle occurs.

RuBisco functions as oxygenase when the concentration of Oxygen is higher and it acts as carboxylase when the concentration of CO₂ is high. In the mesophyll cells, the primary carbon dioxide acceptor is a three carbon compound – phosphoenol pyruvate which is converted into a four-carbon compound, oxaloacetic acid or OAA. This is converted further into malic acid which is transported to the bundle-sheath cells where it undergoes decarboxylation and carbon fixation takes place through the Calvin cycle which prevents RuBisCo to serve as an oxygenase.

5. Suppose there were plants that had a high concentration of Chlorophyll b, but lacked chlorophyll a, would it carry out photosynthesis? Then why do plants have chlorophyll b and other accessory pigments?

Answer: In the absence of chlorophyll-a photosynthesis will not take place because chlorophyll-a is a reaction centre responsible for the conversion of solar energy into chemical energy. Although chlorophyll is the primary pigment that traps sunlight but accessory pigments like chlorophyll-b, xanthophylls and carotenoids also absorb sunlight and transfer energy to chlorophyll-a.

6. Why is the colour of a leaf kept in the dark frequently yellow, or pale green? Which pigment do you think is more stable?

Answer: Chlorophyll fails to absorb the energy in the absence of light; hence it loses stability to give the leaf yellow colouration. This proves that carotenoids which imparts yellow color is more stable.

7. Look at leaves of the same plant on the shady side and compare it with the leaves on the sunny side. Or, compare the potted plants kept in the sunlight with those in the shade. Which of them has leaves that are darker green ? Why?

Answer: Leaves in the shade get less sunlight to carry out photosynthesis than the plants kept in sunlight. In leaves that get less sunlight, more chlorophyll is present to carry out photosynthesis efficiently. In the presence of strong light, the orientation of the chloroplasts in the mesophyll cells is irregular and in vertical files along the walls. Also, in bright light, photooxidation of chloroplasts takes place while non-oxidation takes place in shaded regions. Hence the plants kept in shade have dark green leaves due to high concentration of chlorophyll.

8. Figure shows the effect of light on the rate of photosynthesis. Based on the graph, answer the following questions-

(a) At which point/s (A, B or C) in the curve is light a limiting factor?

(b) What could be the limiting factor/s in region A?

(c) What do C and D represent on the curve?

Answer: (a) Light is a limiting factor at A and 50% of B which is due to the increase in the photosynthetic rate with increase in the intensity of light

(b) Light, CO₂ and H₂O could be the limiting factor/s in region A.

(c) C indicates a stage beyond which light is not a limiting factor and D is the line beyond which the intensity of light does not affect the photosynthetic rate.

9. Give a comparison between the following:

(a) C₃ and C₄ pathways

(b) Cyclic and non-cyclic photophosphorylation

(c) Anatomy of leaf in C₃ and C₄ plants

Answer: 

(a) C₃ and C₄ pathways

(b) Cyclic and non-cyclic photophosphorylation

(c) Anatomy of leaf in C₃ and C₄ plants