Biology, asked by brilliantaanchal9, 1 year ago

differentiate between the cells of meristematic tissue and permanent tissue

Answers

Answered by snehitha2
30
Hi friend,

DIFFERENCES BETWEEN MERISTEMATIC TISSUE AND PERMANENT TISSUE:-

•Meristematic tissues have capacity to divide qhere permanent tissue do not have.

•Meristematic tissue have thin cellulose wall whereas permanent tissue has thick cellulose wall.

•Meristematic tissue do not have intercellular space whereas permanent tissue has large intercellular space.

•Meristematic tissues are responsible for the primary and secondary growth of the plants whereas permanent tissue is responsible for various growths.

•Meristematic tissue has dense cytoplasm with prominent nucleus whereas permanent tissue has thin cytoplasm with normal nucleus.

•Meristematic tissues have many small vacuoles in their cytoplasm whereas permanent tissue contain only single large vacuole in their cytoplasm.

♦Hope it helps♦
Answered by drishti55
10
(1). Meristematic Tissues:

(1). Meristematic tissue composed of undifferentiated cells

(2). Meristems will be always a simple tissue, composed of only one type of cells

(3). Cells are always living

(4). Cells always contain dense cytoplasm

(5). Cells always contain prominent nucleus

(6). Cells divide very rapidly

(7). Cells are smaller and isodiametric in shape with large lumen

(8). Cells are compactly packed without inter-cellular spaces

(9). Cells usually lack vacuoles

(10). Cells show very high rate of metabolism
(11). Cell wall very thin and cellulosic

(12). Cells do not undergo secondary thickening

(13). Lignified secondary cell wall completely absent

(14). Cells only contain primary pit fields

(15). Cellular inclusion and ergastic substances completely absent in the cells

(16). Cells do not store reserve food materials

(17). Meristematic tissues produce permanent tissues

(18). Meristematic tissues are restricted to certain parts of plant body

(19). Example: Root apex, Shoot apex

(20). Primary function of meristem is to assist in plant growth

(2). Permanent Tissues:

(1). Permanent tissue composed of differentiated cells

(2). Permanent tissues may be simple tissue or complex tissues (usually complex tissue, containing more than one type of cells, example: xylem, phloem)

(3). Cells may be living (Parenchyma and Collenchyma) or non-living (Sclerenchyma)

(4). Cells may or may not contain cytoplasm (Parenchyma contain cytoplasm, Sclerenchyma do not contain cytoplasm)

(5). Prominent nucleus present in some cells (Parenchyma) absent in others (Sclerenchyma)

(6). Cells do not divide, they are completely differentiated

(7). Cells are larger, varying in shape with very wide or very narrow lumen

(8). Cells loosely packed in parenchyma and compactly packed in sclerenchyma

(9). Living cells are vacuolated but dead cells are devoid of protoplasm

(10). Metabolic rate usually very less or no metabolism at al

(11). Cell wall cellulosic (Parenchyma and Collenchyma) or lignified (Sclerenchyma)

(12). Cells may or may not undergo secondary thickening

(13). Lignified secondary cell wall sometimes present (as in Sclerenchyma)

(14). Cells usually contain many advanced types of pits

(15). Ergastic substances and cellular inclusion usually present

(16). Some cells store reserve food materials such as starch

(17). Permanent tissues are derived from meristematic tissues

(18). Permanent tissue are found throughout the plant body

(19). Example: Xylem, Phloem, Mesophyll

(20). Primary function varies with tissue types. It may be conduction, provide mechanical support, or carryout photosynthesis
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