## Plant Growth

Plant growth is an irreversible and permanent increase in the size of the plant parts, organs, tissue, entire plant or an individual cell. Growth is the most fundamental characteristic of the living plants, similar to any other living organism. Plant growth is also accompanied by metabolic processes such as catabolism and anabolism that requires spending energy.

Growth in plants is an open form of growth i.e. it is indeterminate and some cells are continuously dividing and helping in the increase in size of cell or tissue. Cells that continuously divide are called meristematic cells

Plant growth is measurable since an increase in protoplasmic content takes place. Also, an increase in fresh or dry weight takes place, an increase in length & size and an increase in the number of cells occur which can be all measured.

**Three Phases of Growth in Plants**

The period of growth in plants are divided into three phases, namely-

- Meristematic or Formative Phase- The tip region of the root of a plant consists of meristematic cells which are continuously dividing and are isodiametric (with no spaces between the cells); and that zone is called meristematic zone; here, cells in meristematic zone have rich protoplasm with large and conspicuous nucleus. Cell walls of these cells are primary in nature, thin and consist of cellulose. These cells have white plasmodesmatal connection.

- Elongation Phase- The cells present next to meristematic cells are present in the elongation phase. These cells elongate due to enlargement of the vacuole present in the cell and hence that zone is called zone of elongation. The cell enlargement and new cell wall formation takes place in the cells present in the elongation phase. Modifications like larger vacuoles take place in the cells here.

- Maturation Phase- The next cells found after the elongation zone are present in maturation phase and they attain the maximum size. They do not divide further after reaching the maturation phase. The zone of maturation is found as a mass differentiation phase where cells differentiate to perform special functions in the plants.

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Knowing these three phases of cell growth, we can say that cell division, cell enlargement and cell differentiation are the different processes that occur in these phases. The first two phases lead to an increase in the plant size whereas the third phase results in bringing maturity to the cells. During differentiation, the cells undergo structural changes in the protoplasm and the cell wall.

**Arithmetic and Geometric Growth Pattern**

**Plant Growth Rate- **It is defined as growth per unit time.

The two types of growth in plants are-

- Arithmetic Growth in Plants

When plant cells undergo mitotic division, two cells are formed from one cell. Out of these two cells, one continues dividing and the other gets differentiated forming different structures. The former cell again divides and forms two cells again and then one continues dividing and there is one more that is differentiated. Now, we have two differentiated cells from one cell initially. Similarly, a pattern is formed and a gradual increase in size of the plant takes place.

We can represent this phase in the form of a linear graph with respect to height of the plant vs. time.

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**To calculate Arithmetic Growth curve results, the Formula is as Follows:**

Lt = L0 + rt

Where, L= length of the plant

Lt = length at time â€˜tâ€™ or after time â€˜tâ€™

L0 = Length at initial time

r= rate of growth

t= time interval when we are calculating the plant growth rate

- Geometric Growth in Plants

In this case, the cell divides by mitotic division and two cells are formed. Both the cells again divide to form two more cells for each. Thus, now the number of cells gets doubled at each stage. The number of cells will be like 2, 4, 8, 16, 32, 64, …and so on. Unlike arithmetic growth stages, here no differentiation of cells take place. The cell growth rate is very fast here in the geometric phase and when the growth comes at peak, it later starts becoming slow and later becomes steady due to some limiting factors. The geometric plants growth can be represented in the form of the following S-shaped graph having Sigmoid Growth curve in plants.

- Lag Phase- It is the slower phase where cell division is slow.

- Log Phase- Here, the growth is very fast and known as the exponential phase too. A steep curve is formed.

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- Steady or Stationary Phase- Here, the growth is steady or stationary and becomes constant.

**Formula that Represents this Geometric Growth Curve is as Follows:**

Wt= W0 * e rt

W0 = size at initial time

Wt= size at time t or after time t

r= growth rate

t= time period

e= base of natural logarithm

### FAQ (Frequently Asked Questions)

**What are the essential factors required for the Plant Growth?**

Ans. The four primary factors that affect the development and growth of the plant are water, light, temperature and nutrients. All of these four elements affect the plant growth hormones that help in faster growing. Unwanted variations in any of the four elements can result in increasing the plant stress and hence changes the growth pattern of plants and stunted growth occurs. Hence, the necessary conditions for plant growth have to be studied carefully to grow them appropriately.

**What is the Plant Growth Rate?**

Ans.Â Plant growth can take place in two ways that include arithmetic growth and geometric growth. These two types of growth in plants help us in calculating the plant growth rate; it can be studied and measured with the help of graphical representation w.r.t. Height/Size/Weight of the plant and time. The plantÂ growth rate, therefore is the percentage change of a specific variable like height/weight/size of the plantâ€™s cell/tissue/organ within a specific time period.