ambot
there are connective tissues in plants which helps them to transport water and nutrients.xylem helps plants ,in transporting water and minerals . and phloem helps plants to transport food from one place to another.
The adaptation of specialized water conducting tissue has helped land plants meet the challenges of life on land for a few reasons. The most important reason is that the cell walls were stronger and could support themselves.
Vascular plants have vascular tissue that are specially designed for transporting water and solutes (minerals, nutrients) within the plant. The vascular tissue has xylem tubes, made of dead cells, which transports water and dissolved minerals via evaporation in the leaf veins. There is also phloem tubes in the vascular tissue that pump sugars in and out.
Conducting tissue in the form of xylem & phloem
Xylem tissue is used mostly for transporting water from roots to stems and leaves but also transports other dissolved compounds. Phloem is responsible for transporting food produced from photosynthesis from leaves to non-photosynthesizing parts of a plant such as roots and stems.
"Xylem" is the tissue that conducts water in plants.
Through conducting tissue (xylem)
vessil tissue
The xylem is the conducting tissue in vascular plants which carry water and nutrients upward. The xylem is made up of protoxylem and metaxylem.
there are connective tissues in plants which helps them to transport water and nutrients.xylem helps plants ,in transporting water and minerals . and phloem helps plants to transport food from one place to another.
Plants that have lignified tissues for conducting water, minerals, and photosynthetic.
there are two tissues, xylem and phloem
The woody part of plants: the supporting and water-conducting tissue, consisting primarily of tracheids and vessels
The adaptation of specialized water conducting tissue has helped land plants meet the challenges of life on land for a few reasons. The most important reason is that the cell walls were stronger and could support themselves.
Plant tissue/ conducting tissue
phloem
Due to absence of conducting tissue in the form of xylem and phloem