Mutation, Natural Selection & Evolution (Edexcel International A Level Biology): Revision Note
Mutation, Natural Selection & Evolution
Species do not stay the same over time; the species that we see around us today have developed over millions of years
This process of species change is known as evolution
Evolution can be defined as changes in the heritable characteristics of organisms over generations
Heritable characteristics are those that can be inherited by, or passed on to, the next generation
Changes in characteristics that are not inherited, e.g. a plant having its leaves eaten, do not lead to evolution
Heritable characteristics are determined by the alleles of genes that are present in an individual
Alleles may change as a result of random mutation, causing them to become more or less advantageous
Heritable characteristics that are advantageous are more likely to be passed on to offspring, leading to a gradual change in a species over time
This is the process of natural selection
Natural Selection
Natural selection can be defined as the process by which organisms that are better adapted to their environment survive, reproduce, and pass on their advantageous alleles, causing advantageous characteristics to increase in frequency within a population
Natural selection involves the following stages
Variation exists between individuals in a population
Natural selection can only take place if variation is present
Variation results from small differences in DNA base sequences between individual organisms within a population
Sources of variation include
Mutation
Meiosis
Random fertilisation during sexual reproduction
In any habitat there are environmental factors that affect survival chances
E.g. predation, competition for food, and disease
Environmental factors that influence survival chances are said to act as selection pressures
In any population, due to the variation present, some individuals will have characteristics that make them better adapted for survival in the face of any selection pressures
This is sometimes described as 'survival of the fittest'
Individuals that are well adapted and survive into adulthood are more likely to find a mate and reproduce, producing many offspring
Individuals that are less well adapted do not survive long into adulthood are likely to reproduce less often than those that survive for longer, so producing fewer offspring
These individuals may not reach adulthood and so do not get the chance to reproduce at all
This means that they are more likely to pass on the alleles that code for these advantageous characteristics to their offspring
Note that non-heritable characteristics are not passed on to offspring
Non-heritable characteristics are those acquired during the lifetime of an organism e.g. gaining weight after eating lots of nuts and berries in autumn, or being injured by a predator
The number of individuals in a population with a particular favourable characteristic will increase over time; the characteristic is said to increase in frequency
Eventually this favourable characteristic will become the most common of its kind in the population; the population can be said to have adapted to its environment by the process of natural selection
While favourable characteristics increase in frequency by natural selection, unfavourable characteristics decrease in frequency by the same process
Individuals with unfavourable characteristics are less likely to survive, reproduce, and pass on the alleles for their characteristics, so unfavourable characteristics are eventually lost from the population
An example of natural selection in rabbits
Variation in fur colour exists within a rabbit population
One allele code for brown fur and another for white fur
Rabbits have natural predators, such as foxes, which act as a selection pressure
The brown rabbits are more likely to survive and reproduce due to having more effective camouflage
When the brown rabbits reproduce, they pass on their alleles to their offspring
The frequency of brown fur alleles in the population will increase
Over many generations, the frequency of brown fur will increase and the frequency of white fur will decrease
Selection pressures acting on a rabbit population for one generation; predation by foxes causes the frequency of brown fur in rabbits to increase and the frequency of white fur in rabbits to decrease
Examiner Tips and Tricks
Remember that evolution occurs as a result of natural selection, a process that acts on randomly occurring variation; it does not occur as a direct, purposeful response to an environment. Avoid any statements that imply that evolution occurs 'so that' an organism can survive in its environment. Instead, it is correct to say that evolution occurs by natural selection as a result of random variation in populations.
You should be able to apply the process of natural selection to any scenario that you are presented with in an exam, as with the rabbit example above. Remember the following essential stages
Variation is present in a population
Selection pressures affect a population
Those with advantageous alleles are more likely to survive and reproduce
Advantageous alleles are passed to offspring
Advantageous alleles become more frequent in the population
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