271385
Which one of the following is well developed and present in hydrophytes?
1 Aerenchyma
2 Stomata
3 Collenchyma
4 Root system
Explanation:
(a)
Anatomy of Flowering Plants
271386
Which of the following group of cells make up the Conjuctive tissue?
1 Parenchymatous cells lying between xylem and phloem.
2 Cells present between tight and gap junctions
3 Cells of conjoint type of vascular bundles
4 Meristematic cells present between two nodes
Explanation:
(a) Conjuctive tissue- Parenchymatous cells lying between xylem and phloem.
Anatomy of Flowering Plants
271367
Apical, intercalary and lateral meristems are differentiated on the basis of
1 origin
2 function
3 position
4 development
Explanation:
(c) Apical, intercalary and lateral meristems are differentiated on the basis of position. Apical meristem is situated at the shoot apex and the root apex. Intercalary meristem is present at the base of internodes, e.g., in grasses or at the base of leaves e.g., in Pinus or at the base of nodes, e.g., mint. Lateral meristems are present along the lateral sides of stem and roots.
Anatomy of Flowering Plants
271368
During the formation of leaves and elongation of stem, some cells 'left behind' from the shoot apical meristem, constitute the
1 lateral meristem
2 axillary bud
3 cork cambium
4 fascicular cambium
Explanation:
(b) Axillary buds are present in the axils of leaves and are capable of forming a branch or a flower.
Anatomy of Flowering Plants
271369
Which of the following is responsible for the formation of an embryonic shoot called axillary bud?
271385
Which one of the following is well developed and present in hydrophytes?
1 Aerenchyma
2 Stomata
3 Collenchyma
4 Root system
Explanation:
(a)
Anatomy of Flowering Plants
271386
Which of the following group of cells make up the Conjuctive tissue?
1 Parenchymatous cells lying between xylem and phloem.
2 Cells present between tight and gap junctions
3 Cells of conjoint type of vascular bundles
4 Meristematic cells present between two nodes
Explanation:
(a) Conjuctive tissue- Parenchymatous cells lying between xylem and phloem.
Anatomy of Flowering Plants
271367
Apical, intercalary and lateral meristems are differentiated on the basis of
1 origin
2 function
3 position
4 development
Explanation:
(c) Apical, intercalary and lateral meristems are differentiated on the basis of position. Apical meristem is situated at the shoot apex and the root apex. Intercalary meristem is present at the base of internodes, e.g., in grasses or at the base of leaves e.g., in Pinus or at the base of nodes, e.g., mint. Lateral meristems are present along the lateral sides of stem and roots.
Anatomy of Flowering Plants
271368
During the formation of leaves and elongation of stem, some cells 'left behind' from the shoot apical meristem, constitute the
1 lateral meristem
2 axillary bud
3 cork cambium
4 fascicular cambium
Explanation:
(b) Axillary buds are present in the axils of leaves and are capable of forming a branch or a flower.
Anatomy of Flowering Plants
271369
Which of the following is responsible for the formation of an embryonic shoot called axillary bud?
271385
Which one of the following is well developed and present in hydrophytes?
1 Aerenchyma
2 Stomata
3 Collenchyma
4 Root system
Explanation:
(a)
Anatomy of Flowering Plants
271386
Which of the following group of cells make up the Conjuctive tissue?
1 Parenchymatous cells lying between xylem and phloem.
2 Cells present between tight and gap junctions
3 Cells of conjoint type of vascular bundles
4 Meristematic cells present between two nodes
Explanation:
(a) Conjuctive tissue- Parenchymatous cells lying between xylem and phloem.
Anatomy of Flowering Plants
271367
Apical, intercalary and lateral meristems are differentiated on the basis of
1 origin
2 function
3 position
4 development
Explanation:
(c) Apical, intercalary and lateral meristems are differentiated on the basis of position. Apical meristem is situated at the shoot apex and the root apex. Intercalary meristem is present at the base of internodes, e.g., in grasses or at the base of leaves e.g., in Pinus or at the base of nodes, e.g., mint. Lateral meristems are present along the lateral sides of stem and roots.
Anatomy of Flowering Plants
271368
During the formation of leaves and elongation of stem, some cells 'left behind' from the shoot apical meristem, constitute the
1 lateral meristem
2 axillary bud
3 cork cambium
4 fascicular cambium
Explanation:
(b) Axillary buds are present in the axils of leaves and are capable of forming a branch or a flower.
Anatomy of Flowering Plants
271369
Which of the following is responsible for the formation of an embryonic shoot called axillary bud?
271385
Which one of the following is well developed and present in hydrophytes?
1 Aerenchyma
2 Stomata
3 Collenchyma
4 Root system
Explanation:
(a)
Anatomy of Flowering Plants
271386
Which of the following group of cells make up the Conjuctive tissue?
1 Parenchymatous cells lying between xylem and phloem.
2 Cells present between tight and gap junctions
3 Cells of conjoint type of vascular bundles
4 Meristematic cells present between two nodes
Explanation:
(a) Conjuctive tissue- Parenchymatous cells lying between xylem and phloem.
Anatomy of Flowering Plants
271367
Apical, intercalary and lateral meristems are differentiated on the basis of
1 origin
2 function
3 position
4 development
Explanation:
(c) Apical, intercalary and lateral meristems are differentiated on the basis of position. Apical meristem is situated at the shoot apex and the root apex. Intercalary meristem is present at the base of internodes, e.g., in grasses or at the base of leaves e.g., in Pinus or at the base of nodes, e.g., mint. Lateral meristems are present along the lateral sides of stem and roots.
Anatomy of Flowering Plants
271368
During the formation of leaves and elongation of stem, some cells 'left behind' from the shoot apical meristem, constitute the
1 lateral meristem
2 axillary bud
3 cork cambium
4 fascicular cambium
Explanation:
(b) Axillary buds are present in the axils of leaves and are capable of forming a branch or a flower.
Anatomy of Flowering Plants
271369
Which of the following is responsible for the formation of an embryonic shoot called axillary bud?
271385
Which one of the following is well developed and present in hydrophytes?
1 Aerenchyma
2 Stomata
3 Collenchyma
4 Root system
Explanation:
(a)
Anatomy of Flowering Plants
271386
Which of the following group of cells make up the Conjuctive tissue?
1 Parenchymatous cells lying between xylem and phloem.
2 Cells present between tight and gap junctions
3 Cells of conjoint type of vascular bundles
4 Meristematic cells present between two nodes
Explanation:
(a) Conjuctive tissue- Parenchymatous cells lying between xylem and phloem.
Anatomy of Flowering Plants
271367
Apical, intercalary and lateral meristems are differentiated on the basis of
1 origin
2 function
3 position
4 development
Explanation:
(c) Apical, intercalary and lateral meristems are differentiated on the basis of position. Apical meristem is situated at the shoot apex and the root apex. Intercalary meristem is present at the base of internodes, e.g., in grasses or at the base of leaves e.g., in Pinus or at the base of nodes, e.g., mint. Lateral meristems are present along the lateral sides of stem and roots.
Anatomy of Flowering Plants
271368
During the formation of leaves and elongation of stem, some cells 'left behind' from the shoot apical meristem, constitute the
1 lateral meristem
2 axillary bud
3 cork cambium
4 fascicular cambium
Explanation:
(b) Axillary buds are present in the axils of leaves and are capable of forming a branch or a flower.
Anatomy of Flowering Plants
271369
Which of the following is responsible for the formation of an embryonic shoot called axillary bud?
