Root and shoot of all plants belonging to Tracheophyta contain vascular tissue.
Whisk ferns are seedless vascular plants that only have vascular tissues in their stem.
The development of vascular tissue, such as xylem and phloem, allowed seedless vascular plants to transport water and nutrients more efficiently, enabling them to grow taller and larger than bryophytes. Additionally, the presence of true leaves and roots in seedless vascular plants helped them to maximize photosynthesis and nutrient absorption from the soil, further enhancing their ability to thrive on land.
A seedless vascular plant's roots are analogous to the simple rhizoids in nonvascular plants. Rhizoids are similar to roots in function, as they anchor the plant to the substrate and absorb water and nutrients. However, rhizoids lack vascular tissue found in roots.
Mosses are non-vascular plants whereas ferns are vascular. In ferns Sporophyte is dominant but in mosses gametophyte is dominant generation. Ferns have definite roots but in mosses leaves and roots are mostly false.
No, vascular plants have true vascular tissue, which includes xylem and phloem. This tissue allows for the transport of water, nutrients, and sugars throughout the plant. It is a key feature that distinguishes vascular plants from non-vascular plants.
Whisk ferns are seedless vascular plants that only have vascular tissues in their stem.
Hornworts are non-vascular seedless plants they also lack vascular tissue such as moss, and liverworts
There are only three (not four) groups of vascular plants. The vascular tissue is used to transport nutrients and water through the plant. There is seedless vascular plants, angiosperms, and gymnosperms.
The development of vascular tissue, such as xylem and phloem, allowed seedless vascular plants to transport water and nutrients more efficiently, enabling them to grow taller and larger than bryophytes. Additionally, the presence of true leaves and roots in seedless vascular plants helped them to maximize photosynthesis and nutrient absorption from the soil, further enhancing their ability to thrive on land.
the answer is in the question. they don't produce seeds, but they do have vascular tissue. examples are ferns. they have spores instead of seeds. the vascular tissue is xylem and phloem, which transport nutrients and water and allow the plants to grow tall(relatively).
A seedless vascular plant's roots are analogous to the simple rhizoids in nonvascular plants. Rhizoids are similar to roots in function, as they anchor the plant to the substrate and absorb water and nutrients. However, rhizoids lack vascular tissue found in roots.
D. A and B They lack vascular tissue in their "roots" and "leaves" and they possess rhizoids.
Ferns, club mosses, and horsetails share two characteristics. They have true vascular tissue and they do not produce seeds. Instead of seeds, these plants reproduce by releasing spores.
Vascular plants have vascular tissue .
whisk ferns
vascular plants
Mosses are non-vascular plants whereas ferns are vascular. In ferns Sporophyte is dominant but in mosses gametophyte is dominant generation. Ferns have definite roots but in mosses leaves and roots are mostly false.