Class 11 Biology NCERT Solutions for Chapter 15 Plant Growth and Development

NCERT-Solutions-For-Class-11-Biology-Chapter-15-Plant-Growth-and-Development

NCERT Solutions For Class 11 Biology Chapter 15: How will you guide yourself for the Class XI Biology Annual exam? You must have experimented with a lot of things but has anyone ever told you to follow NCERT Biology Solutions? No. You don’t have to feel bad about it because in this blog we will try to throw a light on a very specific topic i.e., NCERT Solutions For Class 11 Biology Chapter 15 – Plant Growth And Development.

The sections which you will get to witness here will be enough to boost your confidence. The parts which we will be dealing here are the benefits of following Chapter 15 solutions along with topic-wise explanations. 

Table of Contents

NCERT Solutions For Class 11 Biology Chapter 15 – Plant Growth And Development 

 

NCERT Solutions For Class 11 Biology Chapter 15 PDF

Download NCERT Class 11 Biology Chapter 15 Solutions

As you concentrate on the solved answers along with various examples you will get to know about the essential factors which are responsible for the two processes i.e., the growth and developmental processes in plants.

What will you learn in NCERT Class 11 Biology Chapter 15?

Here you will learn about Plant Growth, Differentiation, Dedifferentiation and Dedifferentiation,  Development, Plant Growth Regulators, Photoperiodism, Vernalisation and Seed Dormancy are discussed in this chapter. Similarly, in-depth learning of Phases of Growth, Growth Rates, Conditions for Growth, The Discovery of Plant Growth Regulators and Physiological Effects of Plant Growth Regulators provide further insight to the Plant Growth and Development.

Graphical representation, diagrams, figures and limpid description aid to better understanding of the chapter. In this chapter, students will also learn about the plant hormones, auxins, gibberellins, abscisic acid and cytokinin that play a major role in Plant Growth and Development. 

We will now present you the topics/subtopics which fall under the 15th chapter of NCERT solutions.

Class 11 Bio Chapter 15 NCERT Solutions Topic-Wise Listing

You will come across the solutions from the following topics/sub topics in the NCERT solutions-

Here are the topics/ subtopics of the chapter:

15.1

Growth

15.2

Differentiation, Dedifferentiation and Dedifferentiation

15.3

Development

15.4

Plant Growth Regulators

15.5

Photoperiodism

15.6

Vernalisation

Advantages of following CBSE Class 11 Biology Chapter 15 NCERT Solutions – Plant Growth And Development

There are different kinds of benefits for following NCERT Solution for class 11 Biology Chapter 15 and now we will try to highlight those benefits. You must get it the moment you finish your syllabus.

  • All the chapters have been dealt with extra bit of care and if you analyze the contents carefully you will have no queries.
  • You will find new ways to bring changes in your methods of preparation and for this reason you must purchase a copy for yourself.
  • When you examine the concepts based on the fundamental aspects of Growth and Development you will be in a position to answer any kind of question from this chapter.
  • You will be confident enough to complete your homework when you go through the solutions on a regular basis.
  • Shaping study materials will seem like a cup of tea after you check the answers from the Solutions NCERT Chapter 15 Bio.
  • The students will be able to overcome all the hurdles in relation to Bio Chapter 15 Biology Solutions with ease.

Access NCERT Solutions For Class 11 Biology Chapter 15

1. Define growth, differentiation, development, dedifferentiation, development, dedifferentiation, determinate growth, meristem and growth rate.

Growth – it is an irreversible, permanent increase in the size of an organ or its parts or even of an individual cell. Growth is supplemented by metabolic activities taking place due to the energy.

Differentiation – The cells derived from root apical and shoot-apical meristems and cambium differentiate and mature to perform specific functions. This act leading to maturation is termed as differentiation.

Development – All the changes that an organisms goes through in its lifetime are called as development.

Dedifferentiation – Plants which has lost the capacity to divide can regain the capacity under certain conditions. This phenomenon is called as dedifferentiation. Example – meristem formation

Dedifferentiation – Dedifferentiation produces cells that once again lose the capacity to divide but mature to perform specific functions are said to be dedifferentiated.

Determinate growth – Ability of a cell, tissue or organism to grow for a certain period is called determinate growth. In most of the plants growth is indefinite, where some plants grow to a certain level and then stop growing.

Meristem – Plant tissue containing undifferentiated cells (meristematic cells) are called meristem.

Growth rate – Increase growth per unit time is called a growth rate.

2. Why is not anyone parameter good enough to demonstrate growth throughout the life of a flowering plant?

Growth is a consequence of increase in the quantity of protoplasm. Measuring the protoplasmic growth includes several parameter, to name a few – increase in height, weight, number of cells, fresh tissue sample, length, area, volume etc. Hence it is difficult to demonstrate any one parameter of growth throughout the life of a flowering plant.

3. Describe briefly:

(a) Arithmetic growth

(b) Geometric growth

(c) Sigmoid growth curve

(d) Absolute and relative growth rates

(a)In arithmetic growth, only one daughter cell continues to divide while the other differentiates and matures. The simplest expression of arithmetic growth is exemplified by a root elongating at a constant rate.

arithematic growth

It can be mathematically expressed as follows:

L= L+ rt

Lt = length of time ‘t’

LO = length at time ‘zero’

r= growth rate/elongation per unit time

(b)In geometric growth, the initial growth is slow (lag phase), and it increases rapidly after that – at an exponential rate (log or exponential phase). Here, both the progeny cells following mitotic cell division retain the ability to divide and continue to do so. The growth slows down due to limited nutrient supply leading to stationary phase. The number increases in a multiplicative pattern in geometric growth.

geometric rate

In geometric growth if we plot the parameter of growth against time, we get a typical sigmoid or S-curve.

Exponential growth can be expressed as:

W1 = W0 ert

W1 = final size

W0 = initial size of the period

r=growth rate

t=time growth

e=base of natural logarithms

‘r’ is the relative growth as well as the measure of the ability of plants to generate new plant substances which is termed as efficiency index. Thus, the final size of W1 is dependent on the initial size W0

(c) Sigmoid growth curve

It is an S – shaped graph that is generated by plotting growth against time and has four main components – a slow lag phase, exponential phase or rapid phase, stage of diminishing growth and stationary phase.

Sigmoid growth curve

(d) Absolute and relative growth rates – absolute growth rate is the net growth per unit time. Relative growth rate is the growth rate per unit time per unit initial growth.

4. List five main groups of natural plant growth regulators. Write a note on discovery, physiological functions and agricultural/horticultural applications of any one of them.

Plant growth regulators are the intercellular intrinsic factors (chemical substances) that are responsible for the growth and development of plants. The five main groups of natural plant growth regulators (PGR) are as follows:

  • Auxins
  • Gibberellins
  • Cytokinin’s
  • Abscisic acid
  • Ethylene

These PGRs are synthesized in different plant parts, governing various differentiation and developmental events that take place in the life cycle of a plant.

Gibberellins

Discovery:

  • Denoted as GA1, GA2, GA3, gibberellic acid or GA3 was one of the first gibberellins to be discovered, they are all acidic
  • There are more than 100 gibberellins reported from widely different entities such as fungi and other higher plants

Physiological functions

  • Gibberellins produce a wide range of physiological responses in plants
  • They can cause an increase in the length of grapes stalks as they are capable to bring about an increase in the length of axis
  • They cause fruits such as apples to elongate and improve its shape
  • They are responsible in delaying the process of senescence.

Agricultural/horticultural applications

  • As the senescence process is delayed, the fruits can be left on the tree for longer in order to extend the market period.
  • In brewing industry, gibberellic acid or GA3 is used to speed up the malting process
  • As sugarcane stores carbohydrate as sugar in their stems, spraying the sugarcane crop with gibberellins causes the length of the stem to increase hence causing an increase in the yield by as much as 20 tones per acre
  • The maturity period of juvenile conifers can be hastened by spraying with GAs resulting in early seed production
  • It also promotes the process of bolting in beetroots, cabbages etc. Bolting is the internode elongation observed just before the flowering process.

5. What do you understand by photoperiodism and vernalisation? Describe their significance.

Photoperiodism can be termed as the response of plants to periods of day/night. It is theorized that the hormonal substance that is responsible for flowering, is formed in the leaves which subsequently migrates to the shoot apices and alters them into flowering apices. This process of photoperiodism helps in studying the response of flowering in different crop plants when the duration of exposure of light is considered.

Vernalisation is the phenomena where the process of flowering in some plants is either quantitatively or qualitatively dependent on the exposure to lower temperatures. In particular, it refers to promoting the flowering process by a period of lower temperatures. The process prevents precocious reproductive development late in the growing season which thereby enables the plant to have sufficient time to attain maturity.

6. Why is abscisic acid also known as stress hormone?

Abscisic acid is responsible to stimulate the closure of stomata in the epidermis and raises the tolerance of plants to different types of stresses, hence it is also called as stress hormone. Abscisic acid is responsible to promote seed dormancy thereby ensuring the germination of seeds during favorable conditions. This helps the seeds to withstand desiccation and to induce dormancy towards the end of the growing season in plants thereby promoting abscission of the fruits, leaves and flowers.

7. ‘Both growth and differentiation in higher plants are open’. Comment.

The ability of higher plants to retain the capacity to have an indefinite growth through their life span is because of the presence of meristems at specific locations of their body. The cells as a result of these meristems have the capacity to divide and perpetuate on their own. This is why the growth in higher plants is open. Few of these cells undergo differentiation always subsequent to a few rounds of cell division. Thus, differentiation is open too.

8. ‘Both a short day plant and a long day plant can produce flower simultaneously in a given place’. Explain.

In a few plants, flowering depends on relative durations of dark and light periods. Both the long-day plants and the short-day plants can flower at the same place with the condition being that they are supplied with sufficient photoperiod.

9. Which one of the plant growth regulators would you use if you are asked to:

(a) induce rooting in a twig

(b) quickly ripen a fruit

(c) delay leaf senescence

(d) induce growth in axillary buds

(e) ‘bolt’ a rosette plant

(f) induce immediate stomatal closure in leaves

Listed below are the plant growth regulators for the corresponding events:

(a) induce rooting in a twig – Auxins

(b) quickly ripen a fruit – Ethylene

(c) delay leaf senescence – Cytokinin’s

(d) induce growth in axillary buds – Cytokinin’s

(e) ‘bolt’ a rosette plant – Gibberellins

(f) induce immediate stomatal closure in leaves – Abscisic acid

10. Would a defoliated plant respond to photoperiodic cycle? Why?

No, a defoliated plant will not respond to photoperiodic cycle. This is because the leaves are the sites of perception of dark or light duration. Hence, if leaves were not present, plants would not respond to light.

11. What would be expected to happen if:

(a) GA3 is applied to rice seedlings

(b) dividing cells stop differentiating

(c) a rotten fruit gets mixed with unripe fruits

(d) you forget to add cytokinin to the culture medium

  1. The rice seedlings will show internode-elongation and hence an increase in the height will be observed if GA3 is applied to rice seedlings
  2. If the dividing cells stop differentiating, the different plant parts such as the stem and leaves will not form.
  3. If a rotten fruit gets mixed with unripe fruits, then the plant growth regulator – ethylene that is synthesized from the rotten fruits will speed up the process of ripening of the unripe fruits.
  4. If you forget to add cytokinin to the culture medium, then the process of cell division, differentiation and growth will be dampened and get slower.

We have covered the complete guide on CBSE NCERT Solutions for Class 11 Biology Chapter 15 Plant Growth and Development. Feel free to ask us any questions in the comment section below.

FAQs on NCERT Solutions for Class 11 Biology Chapter 15

From where can I download the NCERT Solutions for Class 11 Biology Chapter 15 PDF?

You can find the download link in the above blog.

How many exercises are there in NCERT Solutions for Class 11 Biology Chapter 15?

There are 6 exercises.

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You can download the PDF for free.

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Once you have downloaded the PDF online, you can access it offline as well.

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