Give comparison between the following: Anatomy of leaf in C₃ and C₄ plants
Answers
Answered by
9
(a) C3 and C4 pathways
C3 pathways
C4 pathways
1.
The primary acceptor of CO2 is RUBP – a six-carbon compound.
1.
The primary acceptor of CO2 is phosphoenol pyruvate – a three-carbon compound.
2.
The first stable product is 3-phosphoglycerate.
2.
The first stable product is oxaloacetic acid.
3.
It occurs only in the mesophyll cells of the leaves.
3.
It occurs in the mesophyll and bundle-sheath cells of the leaves.
4.
It is a slower process of carbon fixation and photo-respiratory losses are high.
4.
It is a faster process of carbon fixation and photo-respiratory losses are low.
(b) Cyclic and non-cyclic photophosphorylations
Cyclic photophosphorylation
Non-cyclic photophosphorylation
1.
It occurs only in photosystem I.
1.
It occurs in photosystems I and II.
2.
It involves only the synthesis of ATP.
2.
It involves the synthesis of ATP and NADPH2.
3.
In this process, photolysis of water does not occur. Therefore, oxygen is not produced.
3.
In this process, photolysis of water takes place and oxygen is liberated.
4.
In this process, electrons move in a closed circle.
4.
In this process, electrons do not move in a closed circle.
(c) Anatomy of the leaves in C3 and C4 plants
C3 leaves
C4 leaves
1.
Bundle-sheath cells are absent
1.
Bundle-sheath cells are present
2.
RuBisCo is present in the mesophyll cells.
2.
RuBisCo is present in the bundle-sheath cells.
3.
The first stable compound produced is 3-phosphoglycerate –a three-carbon compound.
3.
The first stable compound produced is oxaloacetic acid – a four-carbon compound.
4.
Photorespiration occurs
4.
Photorespiration does not occur
C3 pathways
C4 pathways
1.
The primary acceptor of CO2 is RUBP – a six-carbon compound.
1.
The primary acceptor of CO2 is phosphoenol pyruvate – a three-carbon compound.
2.
The first stable product is 3-phosphoglycerate.
2.
The first stable product is oxaloacetic acid.
3.
It occurs only in the mesophyll cells of the leaves.
3.
It occurs in the mesophyll and bundle-sheath cells of the leaves.
4.
It is a slower process of carbon fixation and photo-respiratory losses are high.
4.
It is a faster process of carbon fixation and photo-respiratory losses are low.
(b) Cyclic and non-cyclic photophosphorylations
Cyclic photophosphorylation
Non-cyclic photophosphorylation
1.
It occurs only in photosystem I.
1.
It occurs in photosystems I and II.
2.
It involves only the synthesis of ATP.
2.
It involves the synthesis of ATP and NADPH2.
3.
In this process, photolysis of water does not occur. Therefore, oxygen is not produced.
3.
In this process, photolysis of water takes place and oxygen is liberated.
4.
In this process, electrons move in a closed circle.
4.
In this process, electrons do not move in a closed circle.
(c) Anatomy of the leaves in C3 and C4 plants
C3 leaves
C4 leaves
1.
Bundle-sheath cells are absent
1.
Bundle-sheath cells are present
2.
RuBisCo is present in the mesophyll cells.
2.
RuBisCo is present in the bundle-sheath cells.
3.
The first stable compound produced is 3-phosphoglycerate –a three-carbon compound.
3.
The first stable compound produced is oxaloacetic acid – a four-carbon compound.
4.
Photorespiration occurs
4.
Photorespiration does not occur
love7750:
hii
hahahahaha what a googly. questions asked only about c3 and c4 plants .hahahahaha
Answered by
4
Dear Student,
◆ Difference between leaf of C3 plant and leaf of C4 plant -
- Photorespiration occurs in leaves of C3 plant and photorespiration doesn't occur in leaves of C4 plants.
- C3 plants don't have bundle sheath cells ans C4 plants have bundle sheath cells.
- RuBisCo enzyme is present in mesophyll cells in C3 plants while RuBisCo enzyme present in bundle-sheath cells of C4 plants.
Thanks dear. Hope this helps you...
Similar questions