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Microsporogenesis

  • The anther appears as an outgrowth like structure in the initial stage which shows spherical or oval-shaped structure.
  • At this stage, it is a mass of undifferentiated and homogenous meristematic cells which is surrounded by a single cell thick outer layer. This layer is known as the epidermisScheme of Microsporogenesis
    Scheme of Microsporogenesis
  • First of all vascular tissue are formed in the middle region. Simultaneously a group of cells located just below the epidermis in vertical rows in the region of hypodermis at the four corners become large has a visible nucleus with dense cytoplasm. Due to this reason, they are different from the rest of the cells. These cells are called archesporial cells.
  • These cells divide periclinally to form primary parietal cells below the epidermis and primary sporogenous cells towards the centre. Both of the cells usually undergo further divisions to form a complete structure of anther except the epidermis.
  • Primary parietal cells undergo further periclinal and anticlinal division to form a series of 3-5 layers making the walls of the anther.Microsporogenesis | Biology for Grade 12
  • Out of them outermost layer of the anther is formed just below the epidermis by primary parietal cells is called endothecium or fibrous layer. The endothecium is followed by 1-3 celled thick layer is termed middle layer. The innermost layer of the anther which surrounds pollen sacs is called tapetum. Later the tapetal cells play a significant role during the meiotic cell division in microsporogenous cells and in pollen development.
  • The primary sporogenous cells divide twice or more than two by mitotic division to form sporogenous cells and later sporogenous differentiated into microspore mother cells during the formation of wall of pollen sac.
  • Each microspore mother cell divides to form four haploid microspore or pollen grain by meiotic division or reduction division.
  • During this period spherical bodies are formed inside the tapetal cells before their disintegration. These spherical bodies are known as Ubisch-body. Ubisch body is made up of a complex substance called sporopollenin. It is the polymer of carotenoids.
  • After the formation of ubisch body, the tapetum layer degenerates. Ubisch bodies participate in the formation of exine of the microspores inside the pollen sacs. Now thick-walled microspores are called pollen grains.
  • At the initial stage, all four microspores are attached together with the help of the callose layer. This group of microspores is called tetrad. After some time, this callose layer dissolves by callase enzyme. Which is secreted by tapetum.

Question for Microsporogenesis
Try yourself:Which layer of microsporangium provides nutrition to the developing pollen grains:
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Note: 

  • Normally each microspore mother cell can form tetrad by meiotic division. But in some plant like Zostera, some microspore mother cells become sterile and provide nutrition to rest of microspore mother cells.
  • Similarly, tapetum is not well developed in Gentianaceae family so some cells of sporogenous tissue become sterile and provide nutrition to remaining sporogenous cells.

Old NCERT Syllabus

➢ Types of Tetrads

The arrangement of the microspores in tetrad condition as follows:Different types of MicrosporesDifferent types of Microspores

(i) Tetrahedral tetrad: Four haploid microspores arranged in tetrahedral form.
Example: Dicotyledons - (Capsella).
Tetrahedral TetradTetrahedral Tetrad(ii) Isobilateral tetrad: This condition is found in monocotyledons. Microspores are arranged at the lateral side of each other.

(iii) Decussate Tetrad: In this, two microspores lies at the right angle of other microspores.
Example: Magnolia

(iv) T-Shaped tetrad: Two microspores lie longitudinally and two microspores lie transversely in this type of tetrad. Example: Aristolochia & Butomopsis.

(v) Linear tetrad: In this tetrad, all four pollens arranged in linear order. e.g., Halophylla, Halophia.
All the above type of tetrads are found in Aristolochia elegans.
The most common type of tetrads is Tetrahedral.

Concept-Based Questions

Q.1. Explain the role of the tapetum in the formation of the pollen-grain wall.
Ans. Tapetum is the innermost wall layer of a microsporangium. It nourishes the developing pollen grains and also helps in the formation of the wall of pollen grains. The cells of tapetum secrete Ubisch granules that provide sporopollenin and other materials for exine formation.

Q.2. Where is sporopollenin present in plants? State its significance with reference to its chemical nature.
Ans. Sporopollenin is present in the exine of pollen grains in plants. It is one of the most resistant organic substances and can withstand high temperatures, strong acids and alkalis. It protects the pollen grains from enzymes and helps them to be well preserved.

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FAQs on Microsporogenesis - Biology for Grade 12

1. What is microsporogenesis?
Ans. Microsporogenesis is the process of formation of microspores within the anther of a flowering plant. It involves the development of the male gametophyte or pollen grains.
2. How does microsporogenesis occur?
Ans. Microsporogenesis occurs in the anther of a flower. It involves the differentiation of microspore mother cells (microsporocytes) within the anther's sporogenous tissue. These microsporocytes undergo meiosis, resulting in the formation of four haploid microspores.
3. What is the significance of microsporogenesis?
Ans. Microsporogenesis is significant as it leads to the formation of pollen grains, which are male gametophytes. Pollen grains are crucial for the sexual reproduction of flowering plants as they contain the male reproductive cells (sperm) necessary for fertilization.
4. What is the role of microsporogenesis in plant breeding?
Ans. Microsporogenesis plays a vital role in plant breeding as it determines the production of viable pollen grains. The quality and quantity of pollen grains have a direct impact on pollination, fertilization, and seed formation. Plant breeders often focus on manipulating microsporogenesis to improve crop yields and enhance desirable traits.
5. How does environmental factors affect microsporogenesis?
Ans. Environmental factors such as temperature, light intensity, humidity, and nutrient availability can influence microsporogenesis. Extreme temperatures or sudden changes in environmental conditions may disrupt the normal development of microspores, leading to reduced pollen viability and fertility. Additionally, some plants exhibit specific requirements for optimal microsporogenesis, which must be met for successful pollen formation.
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