Variation
What Is Variation?
Variation refers to the differences that occur among individuals of the same species.
These differences may be in physical appearance, behavior, or genetic makeup.
Because of variation, no two individuals are exactly alike.
This diversity is essential for the survival and evolution of species.
Variation ensures that:
Individuals can adapt to changing environments
Some will survive diseases or environmental stresses
Populations remain genetically healthy
Types of Variation
Variation can be grouped into several types based on how it appears and what causes it.
1. Continuous Variation
Continuous variation shows a full range of values between two extremes. There are no clearly separated categories. It is usually influenced by many genes and the environment.
Examples:
Height
Weight
Skin color
Intelligence
When plotted on a graph, continuous variation forms a smooth, bell-shaped curve.
2. Discontinuous Variation
Here the traits fall into clearly defined categories. There are no intermediate forms. These traits are typically controlled by one or a few genes, and the environment has little effect.
Examples:
Blood group (A, B, AB, O)
Ability to roll the tongue
Earlobe type (free or attached)
Causes of Variation
Variation arises mainly from genetic factors, environmental factors, or a combination of both.
A. Genetic Causes of Variation
Genetic variation occurs due to differences in DNA or gene combinations. These are inherited from the parents.
1. Mutations
A mutation is a sudden and permanent change in DNA. It may occur naturally or due to exposure to radiation or chemicals. Mutations create new traits and introduce new genetic possibilities into a population.
Examples:
A mutation may change hair or eye color
Some genetic diseases are caused by mutations
2. Meiosis
Meiosis is the cell division process that forms gametes (sperm and egg). It introduces variation by:
Independent assortment: chromosomes are shuffled and distributed randomly
Crossing over: chromosomes exchange segments of DNA
This produces gametes with unique combinations of genes.
3. Fertilization
During fertilization, one sperm and one egg combine. Each gamete carries different genetic information, so the resulting offspring receives a unique mix of genes from both parents. This is why siblings (except identical twins) do not look exactly alike.
4. Genetic recombination
This includes all processes that rearrange genes, creating unique combinations in sexually reproducing organisms.
B. Environmental Causes of Variation
Environmental variation is caused by the surroundings in which an organism lives. These differences are not inherited genetically.
Examples:
Nutrition can influence height, weight, and overall health
Climate can affect skin tone and body type
Exercise and lifestyle change body shape and strength
Injuries and illnesses can cause physical differences
Environmental influences shape the characteristics developed during a lifetime.
C. Combined Causes (Genes and Environment)
Some traits are controlled by both genetic factors and environmental conditions.
Examples:
Height depends on genes but also on nutrition
Skin color depends on genes but also on sun exposure
Intelligence depends on heredity and education
Body weight depends on genes and lifestyle
These are called multifactorial traits.
Importance of Variation
Variation plays a crucial role in:
Helping populations survive environmental changes
Allowing natural selection to occur
Enabling evolution over generations
Maintaining diversity and preventing genetic disorders
Without variation, a species would be more vulnerable to extinction because all individuals would respond the same way to diseases, climate changes, or other challenges.