it is the phloem
Plants with specialized tissues for transporting water include vascular plants, such as angiosperms (flowering plants) and gymnosperms (conifers). These plants have xylem tissue that transports water and minerals from the roots to the leaves using capillary action. Examples include trees, shrubs, and flowering plants.
Vascular and non-vascular terminology only applies to plants. Vascular tissue is the water carrying xylem and the sugar transporting phloem, which some plants do not use as they are water plants, or semi-water plants. A virus contains genetic material surrounded by a protein capsid, generally. Some contain reverse transcriptase enzymes, but none could be termed vascular, or non-vascular.
Vascular plants are plants that have transport tissues for carrying water, nutrients, and sugar to plant cells. Because they have transport tissues, many vascular plants can become very large. An example of a vascular plant is a full grown tree. The transport tissues form a system of tubes tat extends from the roots to all parts of the plant. These tubes are made up of two kinds of tissue: xylem and phloem. Xylem tissue carries water and nutrients from the roots to the leaves. Phloem tissue carries sugar from the leaves to other cells of the plants. Non vascular plants are plants that lack tissues that transport water, nutrients, and sugar. Some example of non vascular plants are mosses, liverworts, and hornworts. Non vascular plants don't have tissues to carry the materials that cells need to stay healthy. Because of this, they don't grow very large. These plants don't have true roots to absorb water. Instead, each cell absorbs the water and nutrients it needs directly from the soil or air. Because they tend to live very close together, the cells of these plants may also get materials they need from neighboring plant cells.
Vascular plants have tissue analogous to veins and arteries for transporting water (pulled up from the roots) and sugar (manufactured in the leaves through photosynthesis) to where it's needed. Examples include ferns, seed plants (cycads, conifers like pine trees) and all flowering plants. Non-vascular plants have to rely on diffusion for transport so are generally low-growing and restricted to moist habitats: mosses, lichens, liverworts, etc.
by the sun's sunlight called calorific
Vascular plants are plants that contain vascular tissue such as xylem and phloem. The xylem transports water and minerals from the roots to the rest of the plant and the phloem transports food and nutrients such as sugar and amino acids. Some vascular plants are a part of your diet!
Only if it has long tubes that carry water and nutrients throughout the tree
Phloem transport sugars, Xylem transports water
The phloem is the plant structure responsible for transporting sugars, such as glucose, from the leaves to the rest of the plant. This vascular tissue forms a network of tubes that allows for the bidirectional flow of nutrients and sugars throughout the plant.
So-called "vascular" plants (such as vegetables, flowering plants, and trees) have a system of cell channels known as "phloem cells" that carry sugar from the production areas (mostly leaves) to storage areas or to cells that use the sugar.
These vascular tissues do two things that are essential for vascular plant survival and erect posture on land.Xylem. This vascular tissue brings water from the roots to the leaves of the plant. Turgor pressure from this water on cell walls helps keep plants erect. Aa adaption of vascular plants. The water in the leaves is used in the process of photosynthesis.Phloem. This vascular tissue takes the sugar manufactured in the leaves to everywhere in the plant that this sugar is needed. For food energy and for building material.
vascular