yes it's true because roots grow longer because of a special tissue near the root tips.Here,cells divide quickly to form new cells.
Cells do divide rapidly on root tip cells.
There is the meristem. It's logical that's more conveniant for a plant to grow at the tip of the root than at the beginning of it and then move the whole root forward.
yes it's true because roots grow longer because of a special tissue near the root tips.Here,cells divide quickly to form new cells.
Cytokinin
ewan
food, breathable air, and their roots keep soil from eroding to quickly
Root hair cells are on the roots of the plants. They are found on the rhizomes of vascular plants. They collect water and nutrients in solution and transport it up to the other parts of the plant.
Yes
yes it's true because roots grow longer because of a special tissue near the root tips.Here,cells divide quickly to form new cells.
yes it's true because roots grow longer because of a special tissue near the root tips.Here,cells divide quickly to form new cells.
Cytokinin
Cytokinin
ewan
food, breathable air, and their roots keep soil from eroding to quickly
Root hair cells are on the roots of the plants. They are found on the rhizomes of vascular plants. They collect water and nutrients in solution and transport it up to the other parts of the plant.
A plant needs to live by having oxygen, sunlight and water.
The least specialized plant cells are the parenchymacells. They are responsible for the production and storage of nutrients. They are located in the stem, roots, and fruit of the plant and store starch. They rarely divide but retain the ability in the case that the plant is damaged.
Not necessarily. Cells in different parts of plants and animals reproduce (divide) at different rates. It would depend on what parts of the organisms you are comparing. For example: the ends of plant roots grow a lot faster than the other parts, and hair cells in animals grow faster than cells in other parts of the body.
Plug plants are young plants, usually seedlings, grown in individual cells of compost enabling them to be pricked out or transplanted without disturbing the roots.
Yes