Pollination in plants is one of the most basic and important topics in agriculture and biology. Almost every crop we grow depends on it in some way. If you understand pollination properly, many other topics like fertilization, seed formation, breeding, and hybrid production become much easier.

Let us go step by step and understand pollination in very simple words, just like a teacher explaining in class.

This topic is part of our Horticulture Notes series for agriculture students

What is Pollination in Plants ?

Pollination in Plants is the transfer of pollen grains from the anther (male part) to the stigma (female part) of a flower.

In simple terms, pollen must reach the stigma for fertilization to happen. Without pollination, seeds and fruits cannot form.

For example, in crops like tomato or wheat, pollination happens quietly inside the flower. In crops like watermelon or cucumber, insects help in pollination.

Types of Pollination in Plants

Pollination in Plants is mainly of three types:

Self-pollination
Cross-pollination
Often cross pollination

Difference between self and cross pollination in plants

1. Self-Pollination (Autogamy)

Self-pollination means pollen is transferred from the anther to the stigma of the same flower.

Usually, cross-pollination is less than 5%
It is the closest form of inbreeding
It leads to homozygosity, meaning similar genetic characters are maintained generation after generation.

This type of pollination is common in crops where flowers are designed to pollinate themselves.

Examples: Tomato, Brinjal, Okra, Soybean, Potato

These crops show very little variation because self-pollination maintains uniform characters. That is why farmers get similar plants every year.

Geitonogamy – A Special Case

Geitonogamy is another form of self-pollination.
Here, pollination occurs between two different flowers of the same plant.

Even though pollen moves from one flower to another, both flowers belong to the same plant. So genetically, the effect is same as autogamy.

This is why geitonogamy is also considered self-pollination.

2. Cross-Pollination (Allogamy)

Cross-pollination means pollen is transferred from the flower of one plant to the flower of another plant of the same species.

About 30% or more cross-pollination may occur.
It increases genetic diversity.
Plants become more vigorous and adaptable.

This type of pollination is common in crops that depend on wind, insects, or other agents.

Examples: Radish, Cabbage, Spinach, Onion, Garlic, Muskmelon, Watermelon

In crops like watermelon, bees play a major role in carrying pollen from one plant to another.

3. Often Cross-Pollinated Crops

Some crops are normally self-pollinated, but due to wind or insects, 5% to 30% cross-pollination may occur.

Examples: Sorghum, Cotton, Safflower

These crops show some variation even though they are mainly self-pollinated.

Before going further, it is important to understand some basic flower terms that often come in exams.

Typical Flower

typical flower has four main parts: Sepals, Petals, Stamens (male organ), Pistil (female organ)

Among these, stamen and pistil are reproductive organs.

Complete Flower

A flower that has all four parts – sepals, petals, stamens, and pistil is called a complete flower.

Examples: Hibiscus, Soybean

Incomplete Flower

If a flower lacks one or more floral parts, it is called an incomplete flower.

Examples

Grass family crops like paddy, maize, sorghum lack petals and sepals
Buckwheat and sugar beet flowers lack petals

Perfect Flower

A flower that has both stamens and pistil is called a perfect flower.

Examples: Cotton, Wheat

Imperfect Flower

A flower that has only stamens or only pistil (not both) is called an imperfect flower.
Such flowers encourage cross-pollination.

Fertilization

Fertilization is the fusion of male and female gametes.

Pollination must happen first. After that, fertilization leads to seed and fruit formation.
Without fertilization, no yield is possible.

Mechanisms Promoting Pollination in Plants

Plants have developed special mechanisms to promote either self-pollination or cross pollination.

Machanism promoting self and cross pollination in plants

A. Mechanisms Promoting Self-Pollination

1. Bisexuality (Hermaphrodite)

When both male and female organs are present in the same flower, self-pollination becomes easy.

2. Homogamy

In homogamy, anther and stigma mature at the same time.
This timing helps pollen to fall directly on the stigma.

3. Cleistogamy

In cleistogamy, pollination and fertilization occur in an unopened flower bud.

Flower never opens
Self-pollination is guaranteed

Examples: Some varieties of wheat, Barley, Oats

This is a very safe method to maintain pure lines.

4. Chasmogamy

In chasmogamy, flowers open only after pollination is completed. Fertilization occurs just after opening.

5. Position of Anthers

Sometimes the structure of the flower itself ensures self-pollination.

Stigma surrounded by anthers
- Examples: Tomato, Brinjal
Stamen and stigma enclosed by petals
- Examples: Green gram, Black gram, Soybean, Chickpea, Pea

B. Mechanisms Promoting Cross-Pollination

1. Dicliny

Dicliny refers to unisexual flowers.
It has two types: Monoecy and Dioecy

(a) Monoecy

Male and female flowers are separate but present on the same plant.

Two Conditions of Monoecy:

On the same inflorescence
- Examples: Mango, Castor, Banana
On different inflorescences
- Examples: Cucurbits, Grapes, Strawberry, Cassava, Rubber

(b) Dioecy

Male and female flowers are present on different plants.

Examples: Papaya, Date palm, Spinach, Hemp, Asparagus

Gynodioecy

In gynodioecy:

One plant bears both male and female flowers
Another plant bears only female flowers

This system also promotes cross-pollination.

2. Dichogamy

In dichogamy, anther and stigma mature at different times in the same flower

This prevents self-pollination.

Types of Dichogamy

Protogyny: Pistil matures before anther.
- Examples: Banana, Fig, Pomegranate, Bajra
Protandry: Anther matures before pistil.
- Examples: Groundnut, Coconut, Aonla, Walnut, Maize

To understand fruit crop examples of dichogamy in detail, read our article on Classification of Fruit Crops.

3. Heterostyly

In heterostyly, style and filament lengths are different.
This physical difference promotes cross pollination.

Example: Linseed

4. Herkogamy

In herkogamy, physical barriers prevent self-pollination.

For example, a thin membrane around anthers stops pollen from reaching the stigma of the same flower.

5. Self-Incompatibility

In self-incompatibility, pollen may be fertile but fails to fertilize the same flower. This is a genetic mechanism that forces cross-pollination.

6. Male Sterility

In male sterility, pollen grains are non functional.

Female part works normally
Very useful in hybrid seed production

Many hybrid crops in India are produced using this technique.

Conclusion

Pollination in plants is the foundation of crop production. Whether a crop is self-pollinated or cross-pollinated decides its breeding method, variability, and yield potential. For agriculture students and competitive exam aspirants, understanding pollination with examples makes learning easier and scoring better.

If you remember the concepts with crop examples, you can easily answer MCQs and descriptive questions in exams.

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One response to “Pollination in Plants: Definition, Types and Mechanisms Promoting Self and Cross Pollination”

Classification Of Fruit Crops In Horticulture | Complete PDF Guide
February 12, 2026
[…] To understand Dichogamy in detail, read our complete notes on Pollination in Plants: Definition, Types and Mechanisms Promoting Self and Cross Pollination […]