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Studied by 42 peopleNoteStudied by 16 peopleNoteStudied by 5 peopleNoteStudied by 5 peopleNoteStudied by 8 peopleNoteStudied by 4 people
Natural and Artificial Selection
4 Requirements for Natural Selection to Occur
Overpopulation of offspring: this puts pressure on limited resources e.g. food… not all of them can survive
Variation: all species have natural variations! Increased variation leads to an increased chance the species will survive
Selection: the organism with traits more suited to the environment survives
Reproduction of Favorable Traits: eventually the “fittest” individuals survive and make up the majority of the population
One example of natural selection taking place in the wild is the evolution of the peppered moth in England during the Industrial Revolution. Prior to the widespread use of coal, the light-colored form of the moth was more common because it blended in with the light-colored trees. However, as pollution from coal burning darkened the trees, the dark-colored form of the moth became more common because it was better camouflaged. This is an example of natural selection because the environment (in this case, pollution) selected certain traits (in this case, dark coloration) that gave the moth a survival advantage.
Genetic Isolation and Speciation
Speciation occurs when a new species is formed
Phyletic Evolution: population of a species progressively changes overtime to become a new species
Divergent Evolution: population is divided into two or more populations that are prevented from interbreeding e.g. island split like Pangea!
When different selective pressures act on each population, different characteristics are “favourable” and therefore those organisms survive
overtime the two populations become so different to each other, they can no longer interbreed to produce fertile offspring and are now two different species
Artificial Vs. Natural Selection
Artificial Selection
Humans consciously select for/against traits in an organism
Results in less genetic variation because few individuals are chosen (and not necessarily the ones that suit the environment best… just the ones that humans like best!)
Cattle that produce a high yield of good quality milk
Plants that grow abundant sweet apples
Issues of Natural Selection
In the wild, there is a large variation between plants. People select very similar traits in agricultural plants, which is an issue when a disease strikes… as there is limited variation so there is a risk all the plants will die
The Chihuahua is the world’s smallest dog but due to its breeding, it has many health issues like susceptibility to fractures, jawbone disorders, eye and heart conditions, teeth and gum disease. Many purebred species would not be able to survive in the wild!
Similarities between Natural and Artificial Selection
Traits are inherited from parents (or parent through asexual reproduction)
Results cause a change in the genetic traits of a species
Change occurs over many generations
Natural and Artificial Selection
4 Requirements for Natural Selection to Occur
Overpopulation of offspring: this puts pressure on limited resources e.g. food… not all of them can survive
Variation: all species have natural variations! Increased variation leads to an increased chance the species will survive
Selection: the organism with traits more suited to the environment survives
Reproduction of Favorable Traits: eventually the “fittest” individuals survive and make up the majority of the population
One example of natural selection taking place in the wild is the evolution of the peppered moth in England during the Industrial Revolution. Prior to the widespread use of coal, the light-colored form of the moth was more common because it blended in with the light-colored trees. However, as pollution from coal burning darkened the trees, the dark-colored form of the moth became more common because it was better camouflaged. This is an example of natural selection because the environment (in this case, pollution) selected certain traits (in this case, dark coloration) that gave the moth a survival advantage.
Genetic Isolation and Speciation
Speciation occurs when a new species is formed
Phyletic Evolution: population of a species progressively changes overtime to become a new species
Divergent Evolution: population is divided into two or more populations that are prevented from interbreeding e.g. island split like Pangea!
When different selective pressures act on each population, different characteristics are “favourable” and therefore those organisms survive
overtime the two populations become so different to each other, they can no longer interbreed to produce fertile offspring and are now two different species
Artificial Vs. Natural Selection
Artificial Selection
Humans consciously select for/against traits in an organism
Results in less genetic variation because few individuals are chosen (and not necessarily the ones that suit the environment best… just the ones that humans like best!)
Cattle that produce a high yield of good quality milk
Plants that grow abundant sweet apples
Issues of Natural Selection
In the wild, there is a large variation between plants. People select very similar traits in agricultural plants, which is an issue when a disease strikes… as there is limited variation so there is a risk all the plants will die
The Chihuahua is the world’s smallest dog but due to its breeding, it has many health issues like susceptibility to fractures, jawbone disorders, eye and heart conditions, teeth and gum disease. Many purebred species would not be able to survive in the wild!
Similarities between Natural and Artificial Selection
Traits are inherited from parents (or parent through asexual reproduction)
Results cause a change in the genetic traits of a species
Change occurs over many generations
NoteStudied by 42 peopleNoteStudied by 16 peopleNoteStudied by 5 peopleNoteStudied by 5 peopleNoteStudied by 8 peopleNoteStudied by 4 people