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Why is meristematic tissue important?
Meristematic tissue is important because it is responsible for the growth and development of plants. It contains undifferentiated cells that can divide and differentiate into various specialized cell types, allowing for the formation of new organs and tissues. This tissue plays a crucial role in the regeneration, repair, and continuous growth of plants.
What is the name of the plant tissue that produces unspecialised cells?
The plant tissue that produces unspecialised cells is called meristematic tissue. This tissue consists of actively dividing cells that can differentiate into various specialized cell types, contributing to the growth of the plant. Meristematic tissue is typically found in areas such as the tips of roots and shoots, as well as in the cambium layer.
What cells are responsible for cell division and growth in plants?
The Meristematic cell is capable of continued cell division in plants.
What is the process by which meristems are continually replenished?
One meristem cell undergoes cell division to separate into two cells. One cell remains meristematic, and the other is free to differentiate and contribute to the plant body. Through this process, meristems are continually replenished/constantly renewed.
What region produces cells in a plant?
cork cambium, apical meristem, and vascular cambium.
What occurs as meristematic cells mature?
As meristematic cells mature, they differentiate into specific cell types with specialized functions. They stop dividing and undergo structural and physiological changes to perform their designated roles in the plant. This process leads to the formation of different plant tissues and organs.
What is a type of cell that does divide actively?
A meristematic cell
What is meant when people say that cells in multicellular organisms are specialized?
it means that cells differentiate from one general type into it's specific type. For example, a meristematic cell in a plant turning into a dermis tissue cell, or a human blastula cell eventually specializing into a skin cell
Why is meristematic tissue important?
Meristematic tissue is important because it is responsible for the growth and development of plants. It contains undifferentiated cells that can divide and differentiate into various specialized cell types, allowing for the formation of new organs and tissues. This tissue plays a crucial role in the regeneration, repair, and continuous growth of plants.
Meristematic lateral location in plant cell?
plants
Which cell do plants use in asexual reproduction?
Meristematic cells
What is the name of the plant tissue that produces unspecialised cells?
The plant tissue that produces unspecialised cells is called meristematic tissue. This tissue consists of actively dividing cells that can differentiate into various specialized cell types, contributing to the growth of the plant. Meristematic tissue is typically found in areas such as the tips of roots and shoots, as well as in the cambium layer.
What cells are responsible for cell division and growth in plants?
The Meristematic cell is capable of continued cell division in plants.
What is the process by which meristems are continually replenished?
One meristem cell undergoes cell division to separate into two cells. One cell remains meristematic, and the other is free to differentiate and contribute to the plant body. Through this process, meristems are continually replenished/constantly renewed.
What region produces cells in a plant?
cork cambium, apical meristem, and vascular cambium.
Where are new cells reproduced in plants?
New cells are reproduced in the meristematic tissue located at the tips of roots and shoots in plants. This tissue is responsible for continuous growth and development, producing cells that differentiate into various types of specialized cells.
What are the tissue cells of a plant organ?
Plant tissue systems fall into one of two general types: meristematic tissue and permanent (or non-meristematic) tissue. Cells of the meristematic tissue are found in meristems, which are plant regions of continuous cell division and growth.
