Propagative roots have plenty of reserve food and actively dividing meristems separated by permanent tissues. When broken into pieces, each piece develop into a separate plant using totipotency of plant cells.
Adventitious roots, aerating roots, aerial roots, contractile roots, coarse roots, fine rootsm haustorial roots, propagative roots, proteoid roots, stilt roots, storage roots, structural roots, surface roots, and tuberous roots.
roots
Potato plants have fibrous roots, which are small and hair-like in structure. These roots help the plant to absorb water and nutrients from the soil.
These anchoring structures are roots. Roots are responsible to absorb water and minerals from the soil.
Fleshy roots are classified based on their structure and function. They can be classified as storage roots, which store energy and nutrients for the plant, or as contractile roots, which help to anchor the plant in the soil and pull the plant deeper into the ground. Examples of fleshy roots include tubers (e.g. sweet potatoes), rhizomes (e.g. ginger), and corms (e.g. taro).
Propagative is the odd one out because it does not relate to relevance or importance, unlike the other words which allude to significance or derivation.
Adventitious roots, aerating roots, aerial roots, contractile roots, coarse roots, fine rootsm haustorial roots, propagative roots, proteoid roots, stilt roots, storage roots, structural roots, surface roots, and tuberous roots.
the roots
roots
roots
the stem.........
roots
Etymology is the science of Language and it's roots.
the structure of grass roots is that it come from the soil and is born from the grass
Solar activity (sunspots in particular), atmospheric conditions, distance, and geography between transmitters and receivers.
The structure that fern roots grow from are rhizomes.
Xylem