Define growth, differentiation, development, dedifferentiation, redifferentiation, determinate growth, meristem and growth rate.
(a) Growth It is an irreversible and permanent process, accomplished by an increase in the size of an organ or organ parts or even of an individual cell.
(b) Differentiation It is a process in which the cells derived from the apical meristem (root and shoot apex) and the cambium undergo structural changes in the cell wall and the protoplasm, becoming mature to perform specific functions.
(c) Development It refers to the various changes occurring in an organism during its life cycle – from the germination of seeds to senescence.
(d) De-differentiation It is the process in which permanent plant cells regain the power to divide under certain conditions.
(e) Re-differentiation It is the process in which de-differentiated cells become mature again and lose their capacity to divide.
(f) Determinate growth It refers to limited growth. For example, animals and plant leaves stop growing after having reached maturity.
(g) Meristem In plants, growth is restricted to specialised regions where active cell divisions take place. Such a region is called meristem. There are three types of meristems – apical meristem, lateral meristem, and intercalary meristem.
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(h) Growth rate It can be defined as the increased growth in plants per unit time.
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Why is not any one parameter good enough to demonstrate growth throughout the life of a flowering plant?
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In plants, growth is said to have taken place when the amount of protoplasm increases. Measuring the growth of protoplasm involves many parameters such as the weight of the fresh tissue sample, the weight of the dry tissue sample, the differences in length, area, volume, and cell number measured during