The Leaf
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BIOXI05: MORPHOLOGY OF FLOWERING PLANTS

333524 Identify the following diagram__
supporting img

1 Modification of stem for photosynthesis
2 Leaf showing reticulate venation
3 Leaf showing parallel venation
4 Modification of stem for defence.
BIOXI05: MORPHOLOGY OF FLOWERING PLANTS

333525 When the veinlets form a network, the venation is termed as

1 Reticulate
2 Parallel
3 Both 1 and 2
4 None of them
BIOXI05: MORPHOLOGY OF FLOWERING PLANTS

333526 This type of venation can be seen in__
supporting img

1 Mango leaf.
2 Wheat leaf.
3 Maize leaf.
4 Sorghumleaf.
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BIOXI05: MORPHOLOGY OF FLOWERING PLANTS

333524 Identify the following diagram__
supporting img

1 Modification of stem for photosynthesis
2 Leaf showing reticulate venation
3 Leaf showing parallel venation
4 Modification of stem for defence.
BIOXI05: MORPHOLOGY OF FLOWERING PLANTS

333525 When the veinlets form a network, the venation is termed as

1 Reticulate
2 Parallel
3 Both 1 and 2
4 None of them
BIOXI05: MORPHOLOGY OF FLOWERING PLANTS

333526 This type of venation can be seen in__
supporting img

1 Mango leaf.
2 Wheat leaf.
3 Maize leaf.
4 Sorghumleaf.
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BIOXI05: MORPHOLOGY OF FLOWERING PLANTS

333524 Identify the following diagram__
supporting img

1 Modification of stem for photosynthesis
2 Leaf showing reticulate venation
3 Leaf showing parallel venation
4 Modification of stem for defence.
BIOXI05: MORPHOLOGY OF FLOWERING PLANTS

333525 When the veinlets form a network, the venation is termed as

1 Reticulate
2 Parallel
3 Both 1 and 2
4 None of them
BIOXI05: MORPHOLOGY OF FLOWERING PLANTS

333526 This type of venation can be seen in__
supporting img

1 Mango leaf.
2 Wheat leaf.
3 Maize leaf.
4 Sorghumleaf.
For More Updates join with Us