Natural selection
In this topic you will:
- learn about the scientific theory of natural selection
- find out about some examples of natural selection in action
Key Words
- advantageous
- feature
- natural selection
- resistant
An imaginary story
A long time ago, some animals belonging to a species of herbivore lived on the grassy plains of Africa. They ate leaves from trees. As in all species, there was genetic variation among them. Some individuals had varieties of genes that gave them long necks, and some had varieties of genes that gave them shorter necks.
In some years, the rains did not come. The animals ran short of food. When all the lower leaves had been eaten, only the long-necked animals could get food.
Most of the animals with short necks died of starvation.
When the animals reproduced, they passed on their genes to their offspring. Because only the long-necked animals had survived, it was only their genes that passed to the next generation. Most of their offspring grew up to have long necks.
This imaginary story describes how giraffes might have come to have such long necks. We do not know if this is what happened, and we can never really know. But this theory does help to explain how almost every species is so well adapted to its environment.
You can summarise the theory like this:
1. In every species, there is variation among individual organisms.
2. Some of this variation is caused by differences in their genes.
3. Some individuals have features that make it more likely that they will survive than individuals that do not have these features.
4. The individuals with these advantageous features are therefore more likely to reproduce, and pass on the genes that produce the advantageous features to their offspring.
5. Over many generations, the genes that produce these advantageous features get a little bit more common, and the genes that are not so useful get a little bit less common.
This process is called natural selection. In the imaginary giraffe example, natural selection has caused genetic changes in the giraffes over time because some varieties of genes have become more common, and some have become less common.
Important Concept
Natural selection is the process by which individuals with advantageous features are more likely to survive, reproduce, and pass on their genes. Over generations, these beneficial traits become more common in the population, helping the species adapt to its environment.
Questions
Show Answer
Because only the long-necked animals could reach the higher leaves when the lower ones had been eaten, giving them access to food during the drought.
Show Answer
Only the long-necked animals survived and reproduced, so they passed on their genes. Over time, more offspring were born with long necks, making that feature more common.
Bacteria and antibiotics
The giraffe story is an imaginary one. We have no evidence that any of this ever happened. But we do have very strong evidence for natural selection in other organisms.
Antibiotics are medicinal drugs that we can take to cure diseases caused by bacteria. There are many different antibiotics. But doctors are finding that some antibiotics do not work anymore. Bacteria have become resistant to them.
This is what happened.
In a population of bacteria, not every one is alike. By chance, one may have a gene that makes it resistant to an antibiotic.
Antibiotic is added, which kills the bacteria that are not resistant.
The resistant one can now multiply and form a population of resistant bacteria just like itself.
Common Mistake
It’s a common mistake to think that antibiotics cause bacteria to become resistant. In reality, resistance already exists in some bacteria due to genetic variation. Antibiotics simply kill the non-resistant ones, allowing the resistant bacteria to survive and multiply.
Questions
Show Answer
It means that some bacteria are no longer killed by the antibiotic. These bacteria have developed genetic traits that allow them to survive even when the drug is used.
Show Answer
In a population of bacteria, some may have a random genetic mutation that makes them resistant. When antibiotics are used, these resistant bacteria survive and reproduce, passing the resistance gene on. Over time, more bacteria in the population carry the resistance gene.
Show Answer
Using antibiotics too often increases the chances of resistant bacteria surviving and spreading. This makes antibiotics less effective over time, so we should reserve them for serious cases to slow down resistance.
Peppered moths
Here is another example of natural selection in action.
Peppered moths live in England. Most peppered moths have pale wings, but some have a gene that gives them dark wings.
Peppered moths fly at night, and spend the daylight hours resting on tree trunks. They are hunted and eaten by birds. The pale colour of peppered moths camouflages them perfectly against lichen-covered tree bark. (Lichen is a plant-like organism that grows on rocks and trees.)
Until the year 1849, almost all peppered moths were pale. Then more and more dark ones started to appear. By 1900, almost all peppered moths near some English cities were dark ones.
What was happening? During this time, the Industrial Revolution was taking place in England. Many factories burnt coal, which polluted the air with smoke. The smoke killed lichens and made the tree trunks dark.
Scientists have done experiments that show that birds can see light moths more easily on dark tree trunks than on lichen-covered ones. And they can see dark moths more easily on lichen-covered tree trunks than on dark ones.
Now we can explain why the dark variety of the moth became more common. When the tree trunks got darker, the pale moths were not camouflaged. They were more likely than the dark ones to be eaten by birds.
The dark moths were more likely to survive and reproduce than the pale moths. They passed on their genes for their dark colour to their offspring. Over several generations of moths, more and more of the offspring inherited these advantageous genes for dark colour. Over time, the dark colour became more and more common. Each generation, more dark moths were born and fewer pale moths.
Today, pollution in England is much less. Lichens grow on tree trunks again. Today, most peppered moths are the pale variety.
Important Concept
The case of the peppered moth shows how natural selection can cause genetic changes in a population. As environments change—like tree bark darkening due to pollution—organisms with traits better suited to that environment are more likely to survive and reproduce. Over time, those traits become more common.
Questions
Use this list to explain how natural selection caused dark peppered moths to become more common than pale peppered moths, during the late nineteenth century in England.
Show Answer
1. There was variation in wing colour among peppered moths — some were pale and some were dark.
2. This variation was caused by differences in their genes.
3. During the Industrial Revolution, soot made tree bark darker. Pale moths became easier for birds to see and eat, while dark moths were better camouflaged.
4. The dark moths were more likely to survive and reproduce, passing on their genes for dark wings.
5. Over many generations, the population of dark-winged moths increased while the number of pale moths decreased. This is natural selection.
Extinction
The proportions of dark and pale peppered moths changed over time, when their environment changed. But imagine what might have happened to the peppered moths if the proportions of pale and dark moths in the population had not changed, when the tree trunks became darker. If the moths were still all pale, then most of them could have been eaten by birds. The population of moths might have become so small that the peppered moths all died out. The species might have become extinct.
Changes in the environment can cause a population to become extinct, if the species cannot change over time. Scientists are worried that climate change may cause a very large number of species to become extinct.
Common Mistake
It’s a common mistake to think that species will always adapt to environmental changes. In reality, if there is not enough genetic variation, or if the change happens too quickly, the species may not survive. This can lead to extinction.
Questions
Show Answer
If a species cannot adapt, its individuals may not survive in the new conditions. Without survival and reproduction, the population can shrink and eventually die out, leading to extinction.