In monocot roots, the pericycle typically gives rise to:
Lateral roots
Xylem vessels
Phloem tissue
Pith cells
Related Questions
Casparian strips on endodermis are seen in
Stems of vascular plants
Leaves of vascular plants
Roots of vascular plants
Flowers of vascular plants
Maximum number of vascular bundles are present in
Monocot stem
Monocot root
Dicot stem
Dicot root
Exarch and polyarch xylem strands are found in
Monocot stem
Dicot stem
Monocot root
Dicot root
G H Shull observed inbreeding depression in a plant. Miller and Letham isolated a hormone from the immature seeds of that plant. Which of the following characters is not associated with the plant?
Atactostelic condition in stem
Bundle sheath in leaf
Chromosomal number of endospermous cell is 30
Medulla absent in the root
Monocot root differ from dicot root because of
Radial vascular bundle
Large and well-developed pith
Polyarch xylem bundle
Both (b) and (c )
The large, well-developed pith in a monocot root primarily consists of:
Sclerenchyma cells
Collenchyma cells
Parenchyma cells
Xylem vessels
The multilayered pericycle in a monocot root contributes significantly to:
Lateral root formation
Secondary growth
Vascular cambium formation
Primary xylem development
Roots have all except
Pericycle
Hypodermis
Radial vascular bundles
Epiblema
As compared to the dicot root, monocotyledon root have
More xylem bundles
More phloem bundles
Less phloem bundles
Less xylem bundles
Schizo-lysigenous cavities present in
Monocot stem
Dicot root
Monocot root
Dicot leaf
