Pollen Grain Diagram
Last Updated :
30 Apr, 2024
in The pollen grain diagram shows the microscopic structure of pollen, the male reproductive component of flowering plants. It shows features like the exine (outer layer), intine (inner layer), and germinal aperture which are crucial for pollen dispersal and fertilization. The pollen grain diagram in class 12 and class 10 helps students understand the pollen morphology.
The diagram of the pollen grain with labeling is given below:
What is Pollen Grain?
A diagram of pollen grain shows that it is a tiny structure produced by the male reproductive organs (anthers) of flowering plants. It serves as the vehicle for transporting male gametes (sperm cells) to the female reproductive organs (stigma) during sexual reproduction. Each pollen grain is a complex structure with distinct layers and features.
Also Read: Dithecous Anther
Structure of Pollen Grain
The pollen grain diagram shows its structure in detail. Understanding the structure of pollen grain is essential for comprehending the pollen grain’s role in plant reproduction.
Exine of pollen grain
- Outermost layer.
- Made primarily of sporopollenin, a durable polymer.
- Provides protection during transport.
- Exhibits unique patterns aiding in species identification.
Intine of pollen grain
- Inner layer beneath the exine.
- Composed of cellulose and pectin.
- Surrounds the cytoplasm containing generative and tube cells.
Generative Cell of pollen grain
- Located within the cytoplasm.
- Divides to form two sperm cells.
Tube Cell of pollen grain
- Also within the cytoplasm.
- Elongates to form the pollen tube.
Germinal Apertures of pollen grain
- Specialized structures on the pollen grain surface.
- Facilitate pollen germination and pollen tube growth.
Function of Pollen Grains
Now that we have studied the pollen grain diagram, we will now discuss about its function in plant. Major functions of pollen grains are:
- Male Gamete Transport: Pollen grains carry male gametes (sperm cells) from the anther to the stigma of flowers for fertilization.
- Protection: The outer layer (exine) of pollen grains provides protection to the delicate contents during transport through various environmental conditions.
- Species Identification: Unique patterns and structures on the pollen grain surface aid in species identification, assisting in plant taxonomy and evolutionary studies.
- Germination: Pollen grains germinate on the stigma, forming a pollen tube that grows towards the ovule to deliver sperm cells for fertilization.
- Genetic Variation: Pollen grains facilitate genetic variation by transferring genetic material between different plants during pollination, contributing to plant diversity and evolution.
Conclusion – Diagram of Pollen Grain
Pollen grains serve as essential agents of plant reproduction, transporting male gametes to female reproductive organs. Their intricate structure provides protection and aids in species identification. Through pollination, they facilitate genetic diversity, contributing to the continuation and evolution of plant species in diverse environments.
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FAQs on Diagram of Pollen Grain
What is the Structure of the Pollen Grain?
The pollen grain comprises an outer protective layer called the exine, an inner layer known as the intine housing generative and tube cells, and specialized structures like germinal apertures aiding in reproduction.
What is Pollen Grain Class 12?
Pollen grain is the male reproductive structure of flowering plants, containing the male gametes necessary for fertilization.
What is Pollen in a Flower?
Pollen in a flower refers to the fine, powdery substance produced by the male reproductive organs (anthers) of flowering plants. It contains the male gametes necessary for fertilizing the female reproductive organs (stigma) during sexual reproduction.
Where Can I Find the Diagram of Pollen Grain?
You can find the pollen grain diagram at the top of this article.
Explain the Simple Diagram of Pollen Grain.
A pollen grain is a male gametophyte in seed plants, consisting of a protective outer layer called the exine and a haploid nucleus. It’s typically depicted as a spherical structure with a spiky or granular outer surface representing the exine, enclosing the reproductive cells within.
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