Mutation and variation

Extensive genetic variation is contained within any species. This is clearly visible in the domestic dog species.

Five different breeds of dogs
All these breeds of dog are the results of selective breeding from a common ancestor

Variation within genes leads to different genotypes and this can be seen by the individuals having different phenotypes. For example, the dogs above all have different fur colours and fur lengths.

All genetic variants arise from mutations and most have no effect on the phenotype.


A mutation is a random change in a gene or chromosome. Mutations arise spontaneously and happen continually. A mutation rarely creates a new phenotype, but if the phenotype is suited to a particular environment, it can lead to rapid change in a species.

For example, if a mutation led to brighter feather colouring in birds, the brighter feathers may allow those individuals with the mutation to reproduce more frequently, because they may be more attractive and seen as a more desirable mate. This would result in the bright feather phenotype being more likely to be passed on, meaning that over time there will be more bright feathered birds compared to the birds of the same species without the new phenotype.

Two blue-breasted bee-eaters

Generally, mutations will have no effect on the phenotype, and occasionally the mutation might have some influence on an organism's phenotype. It is only in rare cases that a mutation will fully determine an organism's phenotype, as in the bright feathers example above.