All plants have cellulose which could be considered a rigid supporting tissue. The various structures that contribute to wood formation are significantly more supportive than those of strictly herbacious species. Turgor pressure from water uptake is responsible for keeping most herbacious species erect.
The stems and roots of seedless vascular plants contain vascular tissue, which includes xylem and phloem for transporting water, nutrients, and sugars throughout the plant. This vascular tissue allows for the efficient transport of resources, supporting the growth and function of the plant.
No, not all plants have vascular tissue. Vascular plants have xylem and phloem to transport water and nutrients. Additionally, not all plants produce seeds. Seed-producing plants are divided into gymnosperms (like conifers) and angiosperms (flowering plants).
theoraticly, yes.
All seed plants have vascular tissue and use seeds to reproduce.
Vascular tissue plants can survive in a variety of environments, including forests, grasslands, wetlands, and deserts. These plants have specialized structures like xylem and phloem that help transport water, nutrients, and sugars throughout the plant, allowing them to adapt to different conditions.
The stems and roots of seedless vascular plants contain vascular tissue, which includes xylem and phloem for transporting water, nutrients, and sugars throughout the plant. This vascular tissue allows for the efficient transport of resources, supporting the growth and function of the plant.
no
No, not all plants have vascular tissue. Vascular plants have xylem and phloem to transport water and nutrients. Additionally, not all plants produce seeds. Seed-producing plants are divided into gymnosperms (like conifers) and angiosperms (flowering plants).
They have vascular tissue and use seeds to reproduce. In addition, they all have body plans that include leaves, stems, and roots. Most seed plants live on land. Seed plants face many challenges, including standing upright and supplying all their cells with water and food. They meet these two challenges with vascular tissue. The thick walls of the cells in the vascular tissue help support the plants. In addition, water, food, and nutrients are transported throughout the plants in vascular tissue.
All angiospermic plants produce flowers and have vascular tissue.
Two characteristics of all seed plants are that they use seeds to reproduce, and that they have vascular tissue. HoshiRakuen
theoraticly, yes.
The presence of vascular tissue is not common to all green algae and land plants. Vascular tissue is a specialized system found in some land plants (such as ferns and seed plants) that helps transport water and nutrients throughout the plant. Green algae lack this feature.
no such thing, all plants can be grown from tissue culture but each would need its own formula and for many it isn't economicly viable to develop one.
They have vascular tissue and use seeds to reproduce. In addition, they all have body plans that include leaves, stems, and roots. Most seed plants live on land. Seed plants face many challenges, including standing upright and supplying all their cells with water and food. They meet these two challenges with vascular tissue. The thick walls of the cells in the vascular tissue help support the plants. In addition, water, food, and nutrients are transported throughout the plants in vascular tissue.
No, but they have a stalk which functions as a sort of backbone for the plant.
The cell wall are partly why the plant cell keeps the plant rigid but it is also down to the vacuole in the middle of the plant cell which is mainly a bag of water that pushes the cytoplasm against the cell wall causing it to be rigid.