What Is Fertilisation in Plants Process Types and Diagram Explanation
Plants substantiate their name as primary or universal producers. Providing us humans with life essentials such as clothing, shelter, food, and oxygen, they are indeed nature’s gift. As in the case of all other living beings, plants respire, vegetate, germinate, defecate and produce. In 1884, it was Ralph B. Strassburger who first discovered the fertilisation process in flowering plants. Here, let us talk in detail regarding the fertilisation process in plants.
What is Fertilisation?
Fertilization in plants is a process in which they undergo sexual reproduction in consequence of pollination and germination. In a physicochemical process, the male gametes (known as pollen) fuse with the female gametes (known as ovum) form diploid zygote after carpal pollinates. The entire process happens in the zygote which later germinates into a seed. During the process, what happens is male gametes are transferred into female reproductive organs through pollinators (butterflies, birds, honey bees, bats, and flower beetles). This results in an embryo being formed in a seed. Flowers are the reproductive organs of angiosperms and reproduce in an entirely different method.
The process of fertilisation in plants can be categorised into four major stages.
Pollination: In this, the male gametes covered in pollen are carried away by water, wind, or through other agents such as animals and insects. Then, the pollen is made to land on the stigma of the plant. This process is called pollination.
Germination: This is a process in which the pollen tube matures in a matter of minutes and enters the egg cell. The tube serves as a passage for the pollen grain to reach the egg.
Ovule Penetration: The pollen tube which contains the sperm penetrates into the embryo sag or ovule.
Fertilisation: After successfully penetrating into the ovule, the sperms travel through the tube to fertilise the egg. Most flower-bearing plants undergo double fertilisation in which the polar nuclei and egg in the ovule are fertilised.
Post fertilisation, the zygote cells divide and develop into an embryo which can also be termed as a developing plant. The embryo enveloped in a seed capsule lay dormant till favourable environmental conditions prevail to help it develop into a plant.
Fertilisation in Seed Plants
During the process of fertilisation in gymnosperms or seed-bearing plants, the seeds grow on both sides of the leaves or scales or develop cones or prevail at the end of short stalks. The seed remains confined in the ovary.
Fertilisation in Flower Bearing Plants
In flower-bearing plants or angiosperms, an additional fertilisation process occurs in the central cell. Two sperm cells get released from either one of the pollen grains. The first cell fuses with the zygote for egg fertilisation and the second fuses with the twin polar nuclei to produce endosperm.
Process of Fertilisation
As we said above, fertilisation happens as a result of the fusion of female and male gametes. For fusion to take place, both the female and male pollen grains reach the stigma's surface. This process is termed pollination. Once the pollen is transferred to the stigma, it undergoes germination, passing through the style to enter the ovule. The pollen or the microspores has two cells namely generative cell and pollen tube cell. This pollen tube cell develops a pollen tube by which generative cells navigate.
For pollen tubes to germinate, it requires oxygen, water, and several other chemical signals. While pollen passes through style to reach the ovule or embryo sac, it is the tissue of the style which supports the growth of the pollen tube. During the entire process, in case the generative cell has not yet ruptured into two cells, it breaks down into two sperm cells. The pollen is aided by the chemical secretion of synergids in the embryo sac as it penetrates into the ovule through the micropyle.
One sperm cell from the sperm cells germinates the egg cell to form a diploid zygote. The remaining sperm cells undergo fusion with the polar nuclei to form a triploid cell which produces an endosperm. These twin fertilisation events occurring in angiosperms or flowering plants are termed double fertilisation. Once the fertilisation process is over, it is not possible for another sperm to enter. The fertilised embryo sac produces the seed while the ovary’s tissues become the fruit that envelops the seed.
Self-Fertilisation
The process in which gametes of two different species – male and female cross-fertilise is known as allogamy. There is also autogamy or self-fertilisation when dual gametes from a single individual fuse. This is commonly seen in hermaphrodites such as certain plants and flatworms.
Types of Fertilisation
There are three types of fertilisation, categorised mainly on the way in which pollen tubes enter the ovule or embryo sac.
Porogamy
The most common form of fertilisation happens in flowering plants or angiosperms. In this form, a pollen tube reaches the ovule through a micropyle. A common example is lilies.
Chalazogamy
This form of fertilisation happens in a species of plants namely casuarina. Here, the pollen tube permeates into the ovule through chalaza rather than entering through micropyle. This is not very common. Examples would be Casuarina, Betula and Juglans.
Mesogamy
This form of fertilisation happens in cucurbit plants including bitter gourd, ridge gourd, various other gourd plants and pumpkin. In this form, a pollen tube passes through integuments or its middle part to penetrate into the ovule.
Double Fertilisation
Double Fertilisation happens when a single female gamete undergoes fusion with two male gametes. Here, one of the sperm cells undergo fusion with the zygote while the other fuse with the two nuclei to produce endosperm. The entire angiosperm plants go through the process of double fertilisation.
What Makes Double Fertilisation Significant is
In double fertilisation, two products are formed
Increases the feasibility of the seeds of the angiosperm
The plant will have a greater chance to survive and polyembryony (the chance to form more than a single embryo from one seed or a single fertile ovum)
Double fertilisation results in an endosperm which nourishes the growing embryo
The two male gametes which are produced by pollen grains into effective use.
These are the different types of fertilization in plants and their processes. Understand the concept of fertilization to know the difference between these types of fertilization.
FAQs on Fertilisation in Plants and How It Occurs
1. What is fertilisation in plants?
Fertilisation in plants is the fusion of the male gamete and female gamete to form a zygote. In flowering plants, this process occurs inside the ovule after pollination. The zygote later develops into an embryo, which grows into a new plant. Fertilisation ensures the formation of seeds and continuation of the plant life cycle.
2. How does fertilisation occur in flowering plants?
Fertilisation in flowering plants occurs when male gametes reach the ovule through a pollen tube and fuse with female gametes inside the embryo sac. The process involves:
- Pollination – transfer of pollen from anther to stigma
- Growth of a pollen tube through the style
- Release of two male gametes into the ovule
- Fusion with female gametes leading to double fertilisation
This process results in the formation of both the embryo and endosperm.
3. What is double fertilisation in plants?
Double fertilisation is a unique process in angiosperms where two fusion events occur inside the ovule. It includes:
- One male gamete fuses with the egg to form a zygote (syngamy)
- The other male gamete fuses with two polar nuclei to form the endosperm (triple fusion)
This ensures the embryo receives nourishment from the endosperm during seed development.
4. What is the difference between pollination and fertilisation in plants?
Pollination is the transfer of pollen to the stigma, while fertilisation is the fusion of gametes inside the ovule. Key differences include:
- Pollination occurs outside the ovule and precedes fertilisation
- Fertilisation occurs inside the ovule after pollen tube formation
- Pollination enables fertilisation but does not involve gamete fusion
Both processes are essential for sexual reproduction in plants.
5. Where does fertilisation take place in a flower?
Fertilisation takes place inside the ovule, which is located in the ovary of the flower. After pollination, the pollen tube grows through the style and enters the ovule via the micropyle. The male gametes are then released into the embryo sac, where fertilisation occurs.
6. What happens after fertilisation in plants?
After fertilisation, the zygote develops into an embryo and the ovule transforms into a seed. The main changes include:
- Zygote develops into an embryo
- Endosperm forms to nourish the embryo
- Ovule becomes a seed
- Ovary develops into a fruit
These changes ensure protection and dispersal of the next generation.
7. Why is fertilisation important in plants?
Fertilisation is important because it leads to the formation of seeds and ensures genetic variation. It:
- Combines genetic material from two parents
- Produces a zygote that grows into a new plant
- Enables seed and fruit formation
Without fertilisation, sexual reproduction and continuation of most flowering plant species would not occur.
8. What are male and female gametes in plants?
In plants, male gametes are present in the pollen grain, and the female gamete is the egg cell inside the ovule. Specifically:
- Male gametes are formed inside the pollen grain in the anther
- The female gamete (egg cell) is located in the embryo sac within the ovule
Their fusion during fertilisation forms the zygote.
9. What is the role of the pollen tube in fertilisation?
The pollen tube transports male gametes from the stigma to the ovule for fertilisation. After pollination:
- The pollen grain germinates on the stigma
- A pollen tube grows down through the style
- It enters the ovule through the micropyle
- It releases male gametes into the embryo sac
Without the pollen tube, gamete fusion in flowering plants would not be possible.
10. Can fertilisation occur without pollination in plants?
Fertilisation cannot occur without pollination in sexually reproducing flowering plants because pollen must first reach the stigma. Pollination allows:
- Germination of the pollen grain
- Formation of the pollen tube
- Delivery of male gametes to the ovule
Without pollination, male gametes cannot reach the female gamete, so fertilisation does not take place.
