The "ground" or "ground tissue" is plant tissue is not epidermis or vascular tissue.
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 are classified by the presence or absence of vascular tissue. Vascular plants have specialized tissues for conducting water and nutrients throughout the plant, while non-vascular plants lack these specialized tissues and rely on other means for transport.
the stem consists of the outer dermal tissues which has epidermis. also it has the vascular system, which is made up of xylems and pholoems. Xylems transports the liquids aroudn the plant while the pholoems transports all the food. there are different structures of the vascular tissues through out the plants. between the vascular tissues and the dermal tissues there is the ground tissue.
Vascular plants. These plants have specialized tissues for transporting water, nutrients, and other substances throughout their bodies, allowing them to grow larger and more complex compared to non-vascular plants.
Vascular tissue is not typically found in the outermost layer of the skin, known as the epidermis. It is mainly found in the deeper layers of the skin, in structures such as blood vessels, which supply nutrients and oxygen to skin cells.
A plant that is not vascular does not have xylem or phloem to carry nutrients throughout the plant. The non vascular plants have a simpler transport system established for water and nutrients required.
Phloem
Quanza Cells Bocktuoy Cells and Melosis Cells
A leaf typically has three main types of tissues: epidermal tissue, mesophyll tissue, and vascular tissue. The epidermal tissue covers the outer surface of the leaf, the mesophyll tissue is where photosynthesis occurs, and the vascular tissue is responsible for transporting nutrients and water throughout the leaf.
The vascular tissues in plants are composed of Xylem and Phloem. These tissues allow nutrients and water to be transported in the other parts of the plant.
Thallophyta is a plant classification that includes algae and fungi. Algae lack vascular tissue, while fungi do not have vascular tissue like plants do. Therefore, thallophyta as a group does not possess vascular tissue.
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 are classified by the presence or absence of vascular tissue. Vascular plants have specialized tissues for conducting water and nutrients throughout the plant, while non-vascular plants lack these specialized tissues and rely on other means for transport.
The vascular tissue in moss is called the hydroids and leptoids. Hydroids are responsible for conducting water, while leptoids are involved in nutrient transport. These tissues are simpler compared to the vascular tissues found in higher plants like ferns and flowering plants.
Whisk ferns are seedless vascular plants that only have vascular tissues in their stem.
"ground" or "ground tissue"
the stem consists of the outer dermal tissues which has epidermis. also it has the vascular system, which is made up of xylems and pholoems. Xylems transports the liquids aroudn the plant while the pholoems transports all the food. there are different structures of the vascular tissues through out the plants. between the vascular tissues and the dermal tissues there is the ground tissue.