There are two different types of water conducting tissues in vascular plants, both of which are constituted as xylem, they are tracheids, and vessel elements. Tracheids are found only in gymnosperms (vascular, non-flowering plants, such as pines), while both types may be found in angiosperms (flowering plants), however, in some cases angiosperms may only have xylem vessels, it depends on the species.
xylem and phloem
Xylem
xylem and phloem
roots
Plants that have lignified tissues for conducting water, minerals, and photosynthetic.
"Xylem" is the tissue that conducts water in plants.
yes
Vascular plants have a system that allows them to transport water to all parts of its tissue. Non-vascular plants do not have this system, which means that they will generally stay smaller than vascular plants.
Non Vascular plants such as moss and liverwort lack vascular tissue or transport tissues. The plants are dependent on osmosis and diffusion for the movement of water and nutrients through their cells. These plant also lack a true root system, stems, or leaves without the vascular tissue to support them.
Plants that have lignified tissues for conducting water, minerals, and photosynthetic.
The xylem is the conducting tissue in vascular plants which carry water and nutrients upward. The xylem is made up of protoxylem and metaxylem.
"Xylem" is the tissue that conducts water in plants.
Xylem tissue
The vascular tissue of xylem
Vascular tissue also allows plants to grow nice and tall (essentially, it's what wood is made of), and it allows them to live far from water. If it weren't for vascular tissue, plants would just be algae and moss.
Through conducting cells by osmosis
Through conducting cells by osmosis
yes
There are too many vascular plants to count, but vascular plants are generally taller than non-vascular plants. Most plants are vascular.
vascular tissue gives plants structures and sends the water and minerals to the top.
Vascular Plants also known as Tracheophytes