Evolutionary Processes (DP IB Environmental Systems & Societies (ESS))
Revision Note
Evolutionary Processes
Biodiversity arises from evolutionary processes
Evolution is the cumulative change (i.e. the overall change over time) in the heritable characteristics of a population or species
Natural selection is the name of the mechanism that drives this evolutionary change
Natural selection occurs continuously and can take place over billions of years
The result of this process of natural selection is the biodiversity of life on Earth we see today
Natural Selection
In any environment, the individuals that have the best adaptive features are the ones most likely to survive and reproduce
This results in natural selection:
Individuals in a species show a range of variation caused by differences in genes (genetic diversity)
When organisms reproduce, they produce more offspring than the environment is able to support
This leads to competition for food and other resources, which results in a "struggle for survival"
Individuals with characteristics most suited to the environment have a higher chance of survival and more chances to reproduce
Therefore, the genes resulting in these characteristics are passed on to offspring at a higher rate than those with characteristics less suited to survival
This means that in the next generation, there will be a greater number of individuals with the better adapted variations in characteristics
This theory of natural selection was put forward by Charles Darwin and became known as "survival of the fittest"
Example of natural selection
Imagine a population of rabbits shows variation in fur colour
The rabbits have natural predators like foxes
This acts as a selection pressure
Rabbits with a white coat do not camouflage as well as rabbits with brown fur
This means predators are more likely to see white rabbits when hunting
As a result, rabbits with white fur are less likely to survive than rabbits with brown fur
The rabbits with brown fur therefore have a selection advantage
This means they are more likely to survive to reproductive age and be able to pass on their genes to their offspring
Over many generations, the frequency of the gene for brown fur will increase and the frequency of the gene for white fur will decrease
Remember that organisms better suited to their environments are more likely to survive
However, this does not mean their survival is guaranteed
Organisms that are less suited to an environment are still able to survive and potentially reproduce within it
However, their chance of survival and reproduction is lower than the individuals that are better-adapted
Also, it is important to be aware that an environment, and the selection pressures it exerts on an organism, can change over time
When a change occurs then a different characteristic may become more advantageous
Finally, remember that all organisms (not just animals) experience selection pressures as a result of the environment they are in
Speciation
Speciation is the generation of new species through evolution
It occurs when populations of a species become isolated and adapt to their environments in different ways
Over time, these populations become so different that they can no longer interbreed with each other to produce fertile offspring
When they cannot interbreed in this way, they are considered separate species
Exam Tip
There are many examples of natural selection and you cannot possibly be familiar with all of them, however, they ALL follow the same sequence:
Based on the idea that within a species there is always variation due to chance mutations, some individuals will develop a characteristic that gives them a survival advantage that allow them to live longer, breed more, and be more likely to pass their genes on. Repeated over generations, the advantageous characteristic will become the norm within a population.
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