0
What else can I help you with?
A plant with vascular bundles forming a ring around the outer part of the stem is?
A dicot plant. This arrangement of vascular bundles is a characteristic feature of dicot plants, where the xylem is located towards the center and the phloem towards the outside of the stem, forming a ring. This organization allows for efficient transport of water and nutrients throughout the plant.
How are the vascular bundles arranged in the monocot stem?
In monocot stems, vascular bundles are scattered throughout the ground tissue. They are arranged in a complex pattern, with the xylem positioned towards the center and the phloem towards the periphery. This arrangement provides strength and flexibility to the stem.
What is the difference between the arrangement of vascular tissue in the stems of dicots and monocots?
In young dicot and monocot stems do not increase in thickness. Xylem and phloem are arranged in vascular bundles in the cortex. In older stems and all woody stems, the vascular tissues form a cylinder between the cortex and the pith. The vascular bundles in a monocot are scattered throughout the stem.
Growth tissue between xylem and phloem that produces additional xylem and phloem cell?
The tissue you are referring to is called vascular cambium. Vascular cambium is a meristematic tissue that is responsible for secondary growth in plants, producing additional xylem towards the inside and phloem towards the outside, contributing to the increase in girth of woody plants.
What tissues arise from the active cell division of the vascular cambium?
The vascular cambium undergoes active cell division to produce secondary xylem (wood) towards the inside of the stem and secondary phloem towards the outside. This results in the growth of woody tissues in trees and other woody plants.
A plant with vascular bundles forming a ring around the outer part of the stem is?
A dicot plant. This arrangement of vascular bundles is a characteristic feature of dicot plants, where the xylem is located towards the center and the phloem towards the outside of the stem, forming a ring. This organization allows for efficient transport of water and nutrients throughout the plant.
How are the vascular bundles arranged in the monocot stem?
In monocot stems, vascular bundles are scattered throughout the ground tissue. They are arranged in a complex pattern, with the xylem positioned towards the center and the phloem towards the periphery. This arrangement provides strength and flexibility to the stem.
What is the difference between the arrangement of vascular tissue in the stems of dicots and monocots?
In young dicot and monocot stems do not increase in thickness. Xylem and phloem are arranged in vascular bundles in the cortex. In older stems and all woody stems, the vascular tissues form a cylinder between the cortex and the pith. The vascular bundles in a monocot are scattered throughout the stem.
What would the pattern of vascular tissue would you expect if you cut the plants stem if it had five petals?
The vascular bundles would be arranged in a ring around the pith. The flower would be a dicot, because the four characteristics of dicots are: ~flower parts in fours or fives ~two cotyledons (embryonic leaves) ~veins in leaves branch out ~vascular bundles are arranged in a ring
Growth tissue between xylem and phloem that produces additional xylem and phloem cell?
The tissue you are referring to is called vascular cambium. Vascular cambium is a meristematic tissue that is responsible for secondary growth in plants, producing additional xylem towards the inside and phloem towards the outside, contributing to the increase in girth of woody plants.
What is the function of the vascular cambium in secoundary growth?
The vascular cambium is responsible for producing secondary xylem (wood) towards the inside of the stem and secondary phloem towards the outside, contributing to the growth in girth of woody plants. It plays a crucial role in secondary growth, increasing the diameter of stems and roots in dicot plants.
What tissue produces cells that add to the girth of the root?
The vascular cambium is the tissue responsible for producing cells that add to the girth of the root. It is a meristematic tissue located between the xylem and phloem in dicot plants. The cells produced by the vascular cambium differentiate into secondary xylem (wood) towards the inside and secondary phloem towards the outside, thus contributing to the increase in girth of the root.
What tissue is responsible for forming secondary xylem and phloem in terrestrial perennial plants?
Xylem is part of the vascular tissue of plants, and the xylem and phloem together are grouped together as the stele (latin for 'pillar'). Xylem tissue is encased in lignin, the substance that creates the strength of wood, causing the protoplasm (living part of the cell) to die, and therefore be dead tissue; phloem is living tissue.
What tissues arise from the active cell division of the vascular cambium?
The vascular cambium undergoes active cell division to produce secondary xylem (wood) towards the inside of the stem and secondary phloem towards the outside. This results in the growth of woody tissues in trees and other woody plants.
What growth increases the girth of stems and roots?
Secondary growth, carried out by the vascular cambium, increases the girth of stems and roots. This process involves the production of secondary xylem towards the inside and secondary phloem towards the outside of the plant. The continuous activity of the vascular cambium results in the thickening of stems and roots over time.
What is the growth of tissue that produces phloem and xylem in the stems of woody plants?
The growth of tissue that produces phloem and xylem in the stems of woody plants is called vascular cambium. It is a lateral meristem that produces secondary xylem (wood) towards the inside of the stem and secondary phloem towards the outside, allowing for the thickening and expansion of the stem over time.
Where is the battery in a beetle 1967 situated?
Under the rear seat, towards one side.
