Movement of water and solutes such as sugar.
== == yes it does.
In these rings itself the vascular tissue, specially the xylem is gathered in a tree. The phloem remain peripheral to these rings.
It is vascular
non vascular
Yes they do. Leaves are on the receiving end of the xylem tissues which are responsible for moving water and minerals from the roots up the stem through the leaves. Xylem tissue classify as vascular tissue.
== == yes it does.
In these rings itself the vascular tissue, specially the xylem is gathered in a tree. The phloem remain peripheral to these rings.
Trees are vascular in structure.
It is vascular
non vascular
The trees are vascular and the mosses are not vascular :):):):)
It lacks vascular tissue,which would allow it to grow taller
Yes they do. Leaves are on the receiving end of the xylem tissues which are responsible for moving water and minerals from the roots up the stem through the leaves. Xylem tissue classify as vascular tissue.
The structure that contains xylem tissue for water transport and phloem tissue for nutrient transport is called a vascular bundle. These bundles are found in vascular plants, including trees, and provide support and transportation of essential materials throughout the plant.
The prickly balls that fall from trees are called "seed pods" or "cones." They serve the purpose of protecting and dispersing seeds for the tree's reproduction. This helps in the regeneration and growth of new trees in the ecosystem.
All palm trees are vascular plants. Some palm trees bear fruit such as the coconut palm tree and the date palm tree.
Yes, ginkgo trees are vascular plants. As trees, they have specialized tissues for conducting water and nutrients throughout their stems and leaves. Ginkgo trees belong to the division Ginkgophyta, which includes plants that have well-developed vascular systems.