Prepare for NEET Biology Anatomy of Flowering Plants (Anatomy Of Monocot Root) with MCQs & PYQs on NEET.GUIDE. Access free practice, previous year questions, and expert help to examine the arrangement of tissues in monocot roots.
NEET Questions / Botany / Anatomy of Flowering Plants / Anatomy Of Mono Cot Root
In a monocot root, the passage cells of the endodermis are characterized by all of the following EXCEPT:
Retention of thin walls with minimal suberin deposition
Location opposite to the protoxylem points
Facilitation of water and mineral transport to the xylem
Thickened Casparian strips on all walls
The multilayered pericycle in a monocot root contributes significantly to:
Lateral root formation
Secondary growth
Vascular cambium formation
Primary xylem development
Which tissue in the monocot root is primarily responsible for the radial transport of water and minerals from the cortex to the xylem?
Epidermis
Cortex
Endodermis
Pericycle
The large, well-developed pith in a monocot root primarily consists of:
Sclerenchyma cells
Collenchyma cells
Parenchyma cells
Xylem vessels
Unlike dicot roots, monocot roots typically lack:
A distinct endodermis with Casparian strips
A central pith surrounded by vascular tissues
Secondary growth with distinct annual rings
Numerous xylem vessels arranged in a radial pattern
The arrangement of xylem vessels in a monocot root is best described as:
Diarch and exarch
Triarch and endarch
Tetrarch and exarch
Polyarch and radial
Which tissue forms the outermost layer of a monocot root?
Epiblema
Rhizodermis
Endodermis
Exodermis
The central pith in a monocot root is usually:
Absent
Small and inconspicuous
Large and well developed
Replaced by vascular tissue
What type of xylem arrangement is found in monocot roots?
Diarch
Triarch
Tetrarch
Polyarch
Which of the following is NOT a function of the root cap in a monocot root?
Protection of the root apical meristem
Secretion of mucilage
Gravitropism
Photosynthesis
