yes, because there is xylem in water and moss needs water to survive. moss was also the first plant in water. but it was the second plant on earth. green algae was the first plant on earth. green alage was also the first plant on land.
Nonvascular - don't have tissue to carry food and water to the rest of the plant i.e mosses vascular - have tissue that carry water and food i.e redwood tree
Vascular TissueMost seed plants live on land. Recall from Chapter 4 that land plants face many challenges, including standing upright and supplying all their cells with food and water. Like ferns, seed plants meet these two challenges with vascular tissue. The thick walls of the cells in the vascular tissue help support the plants. In addition, food, water, and nutrients are transported throughout the plants in vascular tissue.There are two types of vascular tissue. Phloem (floh um) is the vascular tissue through which food moves. When food is made in the leaves, it enters the phloem and travels to other parts of the plant. Water and minerals, on the other hand, travel in the vascular tissue called xylem (zy lum). The roots absorb water and minerals from the soil. These materials enter the root's xylem and move upward into the stems and leaves.
Non-vascular tissue, also known as avascular tissue, refers to tissues that lack blood vessels for nutrient and water distribution. Examples include cartilage, epithelial tissue, cornea, and the lens of the eye. These tissues rely on diffusion for the exchange of gases and nutrients.
Plants with tubes for carrying food and water are known as vascular plants. These include ferns, gymnosperms (such as conifers), and angiosperms (flowering plants). The tubes responsible for transporting water are called xylem, while the tubes for transporting food are called phloem.
Xylem. To carry water from the roots of the plant to the leaves of the plant.Phloem. To carry the manufactured sugars from where the are manufactured, leaves generally, to throughout the plant and wherever needed.
Nonvascular - don't have tissue to carry food and water to the rest of the plant i.e mosses vascular - have tissue that carry water and food i.e redwood tree
xylem-water pholem-food
yes it does
Vascular Cambium
1. The thick walls of the cells in the vascular tissue help to support the plant 2. One type of vascular tissue is phloem, which carries food. 3. Another type of vascular tissue is xylem, which absorbs water and minerals from the soil
Xylem Tissue
vascular
Vascular. Transports Water, Food, Hormones, and Minerals
The vascular tissue in plants, specifically xylem and phloem, contain bundles of tubelike cells that carry water and food throughout the plant. Xylem transports water and nutrients from the roots to the rest of the plant, while phloem carries sugars produced during photosynthesis to other parts of the plant.
Non-vascular tissue, also known as avascular tissue, refers to tissues that lack blood vessels for nutrient and water distribution. Examples include cartilage, epithelial tissue, cornea, and the lens of the eye. These tissues rely on diffusion for the exchange of gases and nutrients.
There are two types of vascular tissue in a plant. Phloem, which conveys food from the leaves to the rest of the plant, and xylem which conveys water from the roots to the rest of the plant.
Vascular TissueMost seed plants live on land. Recall from Chapter 4 that land plants face many challenges, including standing upright and supplying all their cells with food and water. Like ferns, seed plants meet these two challenges with vascular tissue. The thick walls of the cells in the vascular tissue help support the plants. In addition, food, water, and nutrients are transported throughout the plants in vascular tissue.There are two types of vascular tissue. Phloem (floh um) is the vascular tissue through which food moves. When food is made in the leaves, it enters the phloem and travels to other parts of the plant. Water and minerals, on the other hand, travel in the vascular tissue called xylem (zy lum). The roots absorb water and minerals from the soil. These materials enter the root's xylem and move upward into the stems and leaves.