Plant Growth and Development Class 11 Biology Exam Questions

Exam Questions Class 11

Please refer to Plant Growth and Development Class 11 Biology Exam Questions provided below. These questions and answers for Class 11 Biology have been designed based on the past trend of questions and important topics in your class 11 Biology books. You should go through all Class 11 Biology Important Questions provided by our teachers which will help you to get more marks in upcoming exams.

Class 11 Biology Exam Questions Plant Growth and Development

Class 11 Biology students should read and understand the important questions and answers provided below for Plant Growth and Development which will help them to understand all important and difficult topics.

Objective Type Questions

Question. The discovery of auxin is traced back to the work of Charles and Francis Darwin. In their experiments, they studied
(a) Photonastic movement
(b) Photoperiodism
(c) Phototropism
(d) Photosynthesis

Answer

C

Question. Which process is not directly affected by auxin?
(a) Apical dominance and root initiation
(b) Parthenocarpy
(c) Synthesis of a-amylase by barley seeds
(d) Leaf abscission

Answer

C

Question. Which of the following statements correctly explains why a plant becomes bushier when the tip of its shoot is removed?
(a) The removal of the plant tip also removes the auxin that is keeping lower buds from developing
(b) Programmed cell death allows the plant to change its form
(c) The concentration of the morphogens sent from the root to stem is increased
(d) None of the above

Answer

A

Question. Go through the following statements
A. Promotes flowering in pineapple
B. Used to prepare weed free lawn
C. Promotes the abscission of older mature leaves and fruits
The above functions are carried out by
(a) GA
(b) C2H4
(c) ABA
(d) Auxin

Answer

D

Question. How many gibberellins have been reported from fungi and higher plants?
(a) Less than 100
(b) More than 1000
(c) More then 100
(d) 100

Answer

C

Question. In coleoptile tissue, auxin
(a) It not transported, because auxin is used where it is made
(b) It transported by diffusion, with no preferred direction
(c) It transported from base to tip
(d) Is produced by the growing apices of the stem and roots, from where they migrate to the regions of their action

Answer

D

Question. Gibberellins have many effects. Which one of the following is not an effect of gibberellins in plants?
(a) Bolting
(b) Delay senescence
(c) Increase the grapes stalk
(d) Induces dormancy

Answer

D

Question. Which of the following hormones causes fruits like apple to elongate and improve its shape?
(a) GA
(b) ABA
(c) NAA
(d) 2,4,d

Answer

A

Question. Bolting is
(a) Internodal elongation just prior to flowering in beet, cabbage and many plants with rosettte habit
(b) A type of grafting
(c) Nodal elongation in certain plants
(d) None

Answer

A

Question. Cytokine and ethylene have opposite effects on
(a) Leaf senescence
(b) Elongation of stem
(c) Lateral swelling of stem
(d) Winter dormancy

Answer

A

Question. The rate of growth is highest in
(a) Lag phase
(b) Log phase
(c) Steady phase
(d) None

Answer

B

Question. A sigmoid growth curve is characteristic of
(a) Bacteria growing in culture medium
(b) Organisms growing in natural habitat
(c) All cells, tissue and organs
(d) All of the above

Answer

D

Question. In exponential growth the final size depends upon
(a) Initial size
(b) Growth rate
(c) Time of growth
(d) All

Answer

D

Question. Water is needed for
(a) Cell-enlargement
(b) Providing aqueous medium for enzymatic reactions
(c) Both
(d) Oxidising glucose to provide energy

Answer

C

Question. During differentiation cell undergoes structural changes in their
(a) Cell wall only
(b) Protoplasm only
(c) Apoplast only
(d) Cell wall and protoplast

Answer

D

Question. Which one is the example of dedifferentiated cells?
(a) Procambium + Vascular cambium
(b) Vascular cambium + Interfascicular cambium
(c) Phellogen + Procambium
(d) Cork cambium + Interfascicular cambium

Answer

D

Question. Growth in plants is
(a) Only determinate
(b) Only indeterminate
(c) Mostly determinate
(d) Open (both determinate and indeterminate)

Answer

D

Question. Which of the following includes all three processes?
(a) Differentiation
(b) Cell- enlargement
(c) Seed germination, senescence
(d) development

Answer

D

Question. The example of plasticity in plant Ranunculus is
(a) Homophylly
(b) Isophylly
(c) Megaphylly
(d) Heterophylly

Answer

D

Question. Intrinsic heterophylly is seen in all except
(a) Cotton
(b) Coriander
(c) Buttercup
(d) Larkspur

Answer

A

Question. Which of the following is not the characteristic of growth of an organism?
(a) It is an irreversible permanent increase in size of an organ
(b) It is accompanied by metabolic processes
(c) It is quantitative and intrinsic
(d) None of the above

Answer

D

Question. The form of growth wherein new cells are always being added to the plant body by the activity of meristem is called
(a) Open from of growth
(b) Close from of growth
(c) Diffused from of growth
(d) Discontinuous from of growth

Answer

A

Question. Growth at cellular level is principally a consequence in the amount of
(a) Protoplasm
(b) Apoplast
(c) Cell wall
(d) DNA

Answer

D

Question. A. One maize root cell can give rise to more then 17,500 cells
B. A cell in water melon can increase in size up to 350000 times
C. The growth of pollen tube is measured in length
D. The growth of the leaf is measured in terms of volume
Options :
(a) I,II is correct
(b) I and III are correct
(c) III and IV are correct
(d) I,II and III are correct

Answer

D

Question. The period of growth is generally divided into
(a) 3 phases
(b) 2 phases
(c) 4 phases
(d) 6 phases

Answer

A

Question. Maximal size in terms of wall thickening and protoplasmic modification are achieved by
(a) Cells of divisional phase
(b) Cells of elongation phase
(c) Cells of maturation phase
(d) Cells of meristematic tissue

Answer

C

Question. Most of the tissues and cell types represent
(a) Division phase
(b) Elongation phase
(c) Enlargement phase
(d) Maturation phase

Answer

D

Question. Exponential phase in growth is characterised by
(a) Enlargement of cells
(b) Constant increase in growth rate
(c) Maturation of cells
(d) (a) and (b)

Answer

D

Question. Which one is the correct graph of arithmetic growth?

Plant Growth and Development Class 11 Biology Exam Questions
Answer

A

Question. Go through the following points
A. Slow growth, thereafter exponential growth and then stationary phase
B. Geometric and arithmetic phase
C. Characteristic of all living organisms growing in natural environment
D. W1=W0 ert
Options :

Plant Growth and Development Class 11 Biology Exam Questions
Answer

B

Very Short Answer Type Questions:

Question. A primary root grows from 5 cm to 19 cm in a week. Calculate the growth rate and relative growth rate over the period.
Ans. Growth is dependent on three factors – initial size (Wo), rate of growth (r) and time interval (+) for which the rate of growth is retained.

Plant Growth and Development Class 11 Biology Exam Questions
Plant Growth and Development Class 11 Biology Exam Questions

Thus absotule growth rate is 0.1907 while relative growth rate is 3.8cm.

Question. Gibberellins promote the formation of …… flowers on genetically …..plants in Cannabis whereas ethylene promotes formation of ……. flowers on genetically …… plants.
Ans. Besides some primary function, both gibberellins and ethylene have some special effect on some specific plants as Gibberellin promotes the formation of male flower an genetically female plants while ethylene promotes formation as Female flowers an genetically, male plants.

Question. Classify the following plants into Long Day Plants (LDP), Short Day Plants (SDP) and Day Neutral Plants (DNP) Xanthium, henbane (Hyoscyamus niger), spinach, rice, strawberry, Bryophyllum, sunflower, tomato, maize.
Ans. Long Day Plant (LDP) Some plants require the exposure light for a longer period exceeding a well defined critical duration of light. Among the above given plant LDP are for flowering henbane, Bryophyllum and spinach.
Short Day Plants (SDP) Some plants flower when and these can blossom throughout the year. expos to light for a period less than well defined critical duration of light. e.g., of SDP are. e.g., Xanthium, rice, strawberry.
Day Neutral Plants (DNP) The exposure to light does not affect the flowering in certain plants, e.g., DNP, are sunflower, tomato, maize.

Question. A farmer grows cucumber plants in his field. He wants to increase the number of female flowers in them. Which plant growth regulator can be applied to achieve this?
Ans. Ethylene is also responsible to play a major roll in determining the sex of monoecious flowers and is associated with the promotions of femaleness in plants thus the farmer must spray ethylene hormone on this cucumber crop to produce female flowers and to increase the yield (number of fruits produced).

Question. In botanical gardens and tea gardens, gardeners trim the plants regularly so that they remain bushy. Does this practic have any scientific explanation?
Ans. The apical buds present in tea and other plants prevents the growth of lateral buds in them, by releasing auxin hormone. This phenomenon is called apical dominance, Trimming of tea garden and botanical garden removes the apical bud and allowing the lateral buds to grow laterally and give plants a dense bushy appearance.
The scientific explanation for this trimming method is that apical bud is removed thus results in the removal of auxin and phenomenon an of apical dominance is overcomed.

Question. The rice seedlings infected with fungus Gibberella fujikuroi is called foolish seedlings? What was the reason behind it?
Ans. The fungus Gibberella fuijkuroi when infects rice plant, it causes increase in internodal area of rice so, that the rice plant become foolishly tall as compored to normal ones. This is because this fungi produces GA in considerably higher amounts which causes over growth of rice plants thus, causing foolish disease.

Question. Light plays an important role in the life of all organisms. Name any three physiological processes in plants which are affected by light.
Ans. (i) Photosynthesis It is a totally light dependent process. Both quality and quantity affect the rate of the process resulting into total biomass accumulation by plants.
(ii) Transpiration It is loss of water by plant surface. Presence of light increases the temperature, thus affecting the rate of transpiration in plants.
(iii) Flowering The duration of light on plants effects the growth and development of plants, e.g., particularly flowering and this phenomenon is known as photo periodism. On the basis of photoperiodic response day flowering plants are categorised as long day, shert day and day neutral plants.

Question. Gibberellins were first discovered in Japan when rice plants were suffering rom bakane (the foolish seedling disease) caused by a fungus Gibberella fujikuroi.
(a) Give two functions of this phytohormone.
(b) Which property of gibberellin caused foolish seedling disease in rice?
Ans. (a) The hormone, gibberellin
(i) Produce the phenomenon of bolting, i.e., the growth of the internodal region of stem in rosette plants.
(ii) Induces seed germination and break bud and seed dormancy.
(b) The rice seedling/plant show excessive growth in their internodal region when get infected with fungus Gibberella fujikuroi. This fungus produces excessive amount of plant hormone GA which makes plants taller than the normal plant foolishly and many result into death of the plant.

Question. In the figure of sigmoid growth curve given below, label segments 1, 2 and 3.

Plant Growth and Development Class 11 Biology Exam Questions

Ans. 1. Lag phase-Growth is slow in this phase.
2. Exponential phase-shows rapid growth and maintains maximum growth for sometime.
3. Stationany phase-Growth diminishes and ultimately stops in this phase.

Question. Growth is one of the characteristic of all living organism? Do unicellular organism also grow? If so, what are the parameters?
Ans. Growth is the main character which distinguish living organisms from non-living. All living organism grow in number and then accumulate biomass and grow in size as well.
The growth is exhibited by all living organisms in terms of increase in number of cells as well as increase in size and length of each cell.
In unicelluar organism, show growth and the growth is synchronous with reproduction.
Unicellular organism when divide they produce offsprings (reproduction) i.e., each cell accumulate (synthesise) protoplasm and increase in size but up to a limit and divide to from two cells.

Question. Where are the following hormones synthesised in plants?
(a) IAA (b) Gibberellins
(c) Cytokinins
Ans. (a) IAA Indole acetic acid is the chemical name of auxin. It is synthesised at the growing apices of the plant, e.g., shoot tip, leaf primordia and developing seeds.
(b) Gibberellins It plays an important role in seed germination of plants and is synthesised in the apical shoot buds, young leaves, root tips and developing seeds.
(c) Cytokinins This plays an important role in actively dividing cells and are synthesised mainly in roots, but syntheses also occurs in endosperm of seeds growing embryo and seeds etc.

Question. Fill in the places with appropriate word/words.
(a) A phase of growth which is maximum and fastest is ……….. .
(b) Apical dominance as expressed in dicotyledonous plants is due to the presence of more …….. in the apical bud than in the lateral ones.
(c) In addition to auxin, a …….. must be supplied to culture medium to obtain a good callus in plant tissue culture.
(d) …….. of a vegetative plants are the sites of photoperiodic perception.
Ans. (a) A phase of growth which is maximum and fastest is exponential phase.
(b) Apical dominance as expressed in dicotyledonous plants is due to the presence of more auxins in the apical bud than in the lateral ones.
(c) In addition to auxin, a cytokinin must be supplied to culture medium to obtain a good callus in plant tissue culture.
(d) Leaves of vegetative plants are the sites of photoperiodic perception.

Question. Plant Growth Substances (PGS) have innumerable practical applications.
Name the PGS you should use to
(a) increase yield of sugarcane
(b) promote lateral shoot growth
(c) cause sprouting of potato tuber
(d) inhibit seed germination
K Thinking Process
Pytohormones have their effect on various developmental and physiological functions of the plants.
Ans. (a) Gibberellic acid increases the yield of sugarcane.
(b) Cytokinin spray on plants promote lateral shoot growth.
(c) The effect of ethylene on potato causes its sprouting.
(d) ABA – Abscissic acid inhibit the seed germination.

Short Answer Type Questions:

Question. Explain in 2-3 lines each of the following terms with the help of examples taken from different plant tissues.
(a) Differentiation (b) De-differentiation
(c) Re-differentiation
Ans. (a) Differentiation is permanent in size, structure, composition and function of cells, tissue or organs. For example the meristematic tissues in plants gives rise to new cells which mature and get differentiated into special tissue or an organ of the plant, e.g., cells, distal to root apical meristem form root cap, cell of the periphery form epiblema, followed by cortex, endodermis, pericycle and vascular.
(b) De-differentiation is the process of despecialisation of differentiated cells so that they again become differentiated and able to divide. e.g., in dicot stem, the cortical cells get de-differentiated and become meristematic to form cambium (interfascicular cambium, and fascicular cambiums).
(c) Re-differentiation The cambium cells thus formed, again re-differentiate to form secondary cortex cells secondary xylem and phloem elements and phelloderm in case of secondary growth of woody dicot plants.

Question. What is the mechanism underlying the phenomenon by which the terminal/apical bud suppresses the growth of lateral buds? Suggest measures to overcome this phenomenon.
Ans. The phenomenon by which apical bud suppress the growth of lateral buds is known as apical dominance. It is caused due to release of plant hormone auxin from apical duds.
It can be overcome either by the spray of cytokinin, that promotes the growth of lateral buds or by trimming of bushes which remove apical buds and allow lateral buds to grow.

Question. The role of ethylene and abscissic acid is both positive and negative.
Justify the statement. 
Ans.

Plant Growth and Development Class 11 Biology Exam Questions

Question. While experimentation, why do you think it is difficult to assign any affect seen to any single hormone?
Ans. Phytohormones are synthesised by plant cells, itself and individually. These are auxin, GA, ABA ethylene and cytokinin. There is not a separate system of their translocation in plants. So, their effects on plants are also inter mixed. e.g., many effects of auxins GA shows the same function. Similarly, ethylene and ABA support each other for many roles in plants.
Secondly, effects of phytohormone in vitro and in vivo will also be different.

Question. To get a carpet-like grass lawns are mowed regularly. Is there any scientific explanation for this?
Ans. Regular mowing (cutting at apex) of lawn grass removes the apical portion of the plant which causes the lateral branches to grow faster. As the apical buds inhibits growth of lateral buds by releasing auxin, the phenomenon called apical dominance.
Because of mowing of the grass, it becomes bushy and growth is faster. So, as to make evenness of the grass (carpet-like) in the lawn this practice is followed regularly to overcome the problem of apical dominance.

Question. Many discoveries in science have been accidental. This is true for plant hormones also. Can you justify this statement by giving an example?
Also what term is used for such accidental findings?
Ans. Discovery of plant hormone gibberellins was made by chance. It happened by chance in rice fields. A few plants of rice were observed, which were unusually taller than the normal ones. Scientific investigation revealed, that these were infected with a fungus, known as Gibberella fufikuroi.
This fungus releases a plant hormone gibberellic acid in excess concentrations which made the plant to grow unusually tall. This compound was later known as gibberellin is hormones present in all plants.
The term used for accidental finding is Serendipity which means fortunate happenstance. It was coined by Horace Walpole in 1754. He explained it as making discoveries, by accident and sagacity, of things, which were hot in quest of.

Question. Fill in the blanks
A. Maximum growth is observed in ……….phase.
B. Apical dominance is due to …………… .
C. ………. initiate rooting .
D. Pigment involved in photoperception in flowering plants in……… .
Ans. A. Exponential
B. Auxin
C. Cytokinin
D. Phytochrome.

Question. Label the diagram
A. This is which part of a dicotyledonous plants?
B. If we remove part 1 from the plant, what will happen?

Plant Growth and Development Class 11 Biology Exam Questions

Ans. Representation the labelling of the given diagram is as follows

Plant Growth and Development Class 11 Biology Exam Questions

A. The plant part in the given diagram is growing shoot apex.
B. Removal of shoot apex will help to overcome the apical dominance. Thus, the lateral buds grow faster, giving rise to branches and give the plant a bushy appearance.

Question. Nicotiana tobacum, a short day plant, when exposed to more than critical period of light fails to flower. Explain.
Ans. Short day plants are those plants that flower only when the photoperiod (exposure to duration of light) is below critical period. Tobacco, being a short day plant is unable to show flowering when exposed to light above than the critical period.

Question. Does the growth pattern in plants differ from that in animals? Do all the parts of plant grow indefinitely? If not, name the regions of plant, which can grow indefinitely.
Ans. Growth in plants is of indeterminate type, i.e., plant grow through out their life because of presence of meristematic tissues present in specific parts of plant i.e., apical intercalary and lateral. These tissue has ability to divide continuously and contribute to localised plant growth.
Growth in animals They have limited growth period after which further growth of their body stops.
All the parts of the plant do not grow indefinitely. The root apex and shoot apex having apical meristematic tissues keep growing, thus contributing to the elongation of plant axis-(height).

Question. In a slide showing different types of cells can you identify which type of the cell may be meristematic and the one which is incapable of dividing and how?
Ans. The meristematic cells can be identified of the basis of the following characteristics (i) Cell have thin cellulose wall and dense cytoplasm with large nucleus.
(ii) Plasmodesmal connections are more numerous among meristematic cells.
(iii) Cell division, i.e., mitosis and its various stages are distinctly visible.
(iv) Chromosomes of cells replicate and divide into two homologous chromatids.
All these features contribute to open ended growth where structure is never complete in meristematic regions.
Whereas, cells incapable of divinding show features such as
(i) attains particular shape, size and thickening.
(ii) Undergoes structural and physiological differentiation.
(iii) Different types of cell are formed such as epidermis, cortex, vascular tissues.

Question. In animals, there are special glands secreting hormones, whereas there are no glands in plants. Where are plant hormones formed? How are the hormones translocated to the site of activity?
Ans. The plant hormones are synthesised by the plant cells individually accordingly and when needed. Few hormones are specifically synthesised at a particular plant part, like auxin synthesised in growing shoot apices.
Ethylene is emitted by ripened fruits. Cytokinin is found in dividing cells. Unlike plants animal being more advanced, and organised they have proper hormone secreting glands and organs.
In both plant and animals these are transported through the transport system of their body.
In plants, hormones are translocated via xylem and phloem to the site of activity.

Question. Auxins are growth hormones capable of promoting cell elongation. They have been used in horticulture to promote growth, flowering and rooting.
Write a line to explain the meaning of the following terms related to auxins.
(a) Auxins precursors (b) Anti-auxins
(c) Synthetic auxins
Ans. Auxin is an important plant phytohormone required for the growth and development of every plant in its life cycle.
(a) Auxin Precursors are raw materials required to initials synthesis of auxins. IAA is synthesised from tryptophan, adenine compounds and derivatives of carotenoids.
(b) Anti-Auxins are compounds that inhibit action of auxins, e.g., p-chlorophenoxy isobutyric acid (PCIB), TIBA.
(c) Synthetic Auxin These are synthesised not by plants but artificially by man, e.g., 2-4 D (weedicide), NAA, dicamba and IBA, (Indole Butyric Acid) which are natural as well as synthetic auxin.

Question. A rubber band stretches and reverts back to its original position.
Bubblegum stretches, but it would not return to its original position.
Is there any difference between the two processes? Discuss it with respect to plant growth (hint elasticity (reversible) plasticity (irreversible).
Ans.

Plant Growth and Development Class 11 Biology Exam Questions

Question. While eating watermelons, all of us wish it was seedless. As a plant physiologist can you suggest any method by which this can be achieved.
Ans. The process of parthenocarpy produce the seedless fruits. This is a process in which fruits are developed without fertilisation, so, seeds are not formed in the fruit. Artificially parthenocarpy can be induced by spraying auxin and gibberellin to produce seedless watermelans.

Question. What are the structural characteristics of
(a) meristematic cells near root tip
(b) the cells in the elongation zone of the root
Ans. (a) Meristematic cells near root tip The cells of this region are called Root Apical Meristems (RAM) and are in active state of division, thus their number increases continuously. The cells of this region are thin walled with dense cytoplasm and large nucleus. They have the ability to divide and self perpetuate.

Plant Growth and Development Class 11 Biology Exam Questions

(b) The Cells in the Elongation Zone of the Root This region is situated just above the meristematic zone. In the cells of this zone, a large number of small vacuoles develop and later these vacuoles fuse to form one large central vacuole filled with cell sap. The cells are elongated in this region.

Question. Both animals and plants grow. Why do we say that growth and differentiation in plants is open and not so in animals? Does this statement hold true for sponges also?
Ans. Growth and differentiation in plant and animals can be explained as follows

Growth in PlantsGrowth in Animals
Plant growth is indeterminate, i.e., cells can divide
and enlarge continuously for life time.
Animal growth is determinate i.e., till
finite period, they mature and stop
growing externally.
Growth is open due to presence of meristematic
cells which keep dividing,
i.e., growing and replacing new organs.
Cell division is distributed through-out
the body of organism to replace old
and damaged cells, rather localised at
specific regions.
Structure in plants at tips or meristematic zones is
never complete, owing to open ended tips or
apices.
Plant growth is in a modular fashion, i.e., grows
longitudinally, laterally and in grith.
After a specific time period
i.e., embryonic, the growth rate is
reduced in juvenile phase and ceases
in maturity.

Sponges are exception to this. They show open growth as every cell of their body can give rise to an individual and their growth and differentiation is continuous is their life cycle.

Question. A gardener finds some broad-leaved dicot weeds growing in his lawns.
What can be done to get rid of the weeds efficiently?
Ans. The broad leaved dicot weeds can be killed and eliminated by the spray of weedicide 2-4 D, (a kind of plant phytohormone auxin). This will make the lawn free of weeds and will help the gardener, to make the lawn weed free.

Question. On germination a seed first produces shoots with leaves, flowers appear later,
A. Why do you think this happens?
B. How is this advantageous to the plant?
Ans. A. As soon as seed germinates, the plant enters into vegetative growth period. This period takes light stimulus (a critical length of light exposed to different plant, i e . ., photoperiod) and synthesise the florigen (a flowering hormone) which induce flowering.
B. The vegetative growth period prepares the plant to bear reproductive structures like flower, fruits and seeds, and allows it to grow, mature and reproduce.

Question. Define parthenocarpy. Name the plant hormone used to induce parthenocarpy.
Ans. Parthenocarpy is the process where fruit develop without fertilisation and so, it does not contain seed. This can also be induced artificially by spraying auxin and gibberellins in certain plants like, grapes, papaya, etc.

Long Answer Type Questions:

Question. Name a hormone which
A. is gaseous in nature
B. is responsible for phototropism
C. induces femaleness in flowers of cucumber
D. is used for killing weeds (dicots )
E. induces flowering in long day plants.
Ans. A. Ethylene is a hormone which is gaseous in nature.
B. Auxin (synthetic auxin 2-4 D) is responsible for phototropism and geotropism in plants.
C. Ethylene causes feminising effect. External supply of very small quantity of ethylene
can increase the number of female flowers and hence fruits as in cucumber.
D. Synthetic auxin (2-4 D) kills broad leaved dicot weeds, hence used as weedicides.
E. Gibberellins, induces flowering in long-day plants.

Question. Some varieties of wheat are known as spring wheat while others are called winter wheat. Former variety is sown and planted in spring and is harvested by the end of the same season. However, winter varieties, if planted in spring, fail to flower or produce mature grains within a span of a flowering season. Explain, why?
Ans. Some annual food plants such as wheat do not flower, unless they experience a low temperature. They remain vegetative during spring (warm period) but grow further to bear flowers and fruits after receiving low temperature (in winter).
The low temperature in winter prevents precocious reproductive development in autumn, thus enabling the plant to reach vegetative maturity before reproductive phase.
Thus, when spring varieties are planted in spring, they flower and bear fruits prion to end of growing season. But, if the winter varieties are planted in spring, they fail to flower and produce mature grains before the end of growing season, as they could not perceive low temperature of winters.

Question. It is known that some varieties of wheat are sown in autumn but are harvested around next mid summer.
A. What could be the probable reason for this?
B. What term is used for this promotion of lowering under low temperature?
C. Which plant hormone can replace the cold treatment?
Ans. A. Annual winter wheat plants take one year full growing season for the completion of their vegetative growth period and then initiate flowers and fruits. This is because after they
form seedlings in autumn, they receive low temperature throughout winter, which enables them to reach vegetative maturity. They resume growth in spring and bear flowers and grains towards mid-summer.
B. The chilling or cold treatment of seeds to reduce flowering is called vernalisation. It is a process of shortening of the juvenile or vegetative phase and hastening flowering by a previous cold treatment. This stimulus of vernalisation is perceived only by the meristematic cells. e.g., shoot tip, embryo tip, root apex, developing leaves, etc.
C. GA or gibberellic acid treatment can replace cold treatment and can induce flowering early by reducing vegetative growth period in many long-day plants.