4.4 Variation and Evolution

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Species 
A population of organisms similar enough to breed and produce fertile young
Genetic drift 
A change in allele frequency because of chance, more likely in small populations
The founder effect 
When a small population has become separated from the original population and so an allele in the small population becomes more frequent in the succeeding generations
Speciation 
Allele changes can significantly alter the phenotype of the isolated population so that they can no longer breed with the original population to give fertile young. A new species has been formed
Speciation by natural selection
1. Mutations in alleles lead to changes in allele frequencies
2. Variation in phenotypes due to different alleles
3. Many offspring are produced and there is competition for limited resources
4. Selection pressures from the environment give some phenotypes a survival advantage and they survive long enough to breed
5. Successful phenotypes pass on their alleles increasing their frequency in the population
Natural selection 
A mechanism proposed by Charles Darwin and Alfred Russel Wallace for evolution
The mechanism describes how phenotypes in a population can be maintained or changed to be optimal in the environment
Selection pressures e.g. selective predation
Can confer survival advantages to phenotypes that show camouflage or mimicry
Mechanisms for isolation 
Allopatric speciation
Sympatric speciation
Morphological isolation
Hybrid sterility
Behavioural isolation
Seasonal isolation
Hybrid fertility
Allopatric speciation 
Evolution of a new species from demes isolated in different geographical locations
Sympatric speciation 
Evolution of a new species from demes sharing the same geographical location
Demes 
A sub-group of a population that interbreed more frequently, reducing gene flow with the rest of the population
Types of variation 
Heritable (can be passed on to offspring)
Non-heritable (cannot be passed on to offspring)
Heritable variation 
Genetic differences caused by crossing over, independent assortment, sexual reproduction (mixing of 2 parental genotypes)
Non-heritable variation 
Differences caused by the environment
Epigenetic differences
Types of competition and selection pressure
Interspecific (Between members of different species)
Intraspecific (Between members of the same species)
Competition for limited resources 
The phenotype of an organism could give an advantage, and that would increase the prevalence of the alleles that code for that phenotype in the population as the organism survives to breed and pass on the successful allele
Selection pressure 
The effect of selective agencies on the phenotypes in a population
Selective agencies 
Food availability
Breeding sites
Climate
Human impact
Selection pressure for 
Phenotypes have an advantage in competition so the alleles that code for them are selected for
Selection pressure against 
Phenotypes do not have an advantage and are unable to compete successfully. So, alleles that code for them are selected against
Gene pool 
All the alleles of all the genes of all the individuals in a population of sexually reproducing organisms
Genetic drift 
The change in allele frequency in a population by chance, most significant in small or isolated populations
Allele frequency 
Population genetics is concerned with all the alleles in the gene pool and describes the proportions of alleles present at any one time
Hardy Weinberg equation 
Estimates the allele frequency in a population, if a population is stable (large population, no migration, no mutation, no selection pressure) the allele frequency will stay the same from generation to generation (Hardy Weinberg equilibrium)
Continuous variation 
Characteristics have many possible values
Generally polygenic (being controlled by many genes)
Gene expression is influenced by the environment
Forms a normal distribution curve
Discontinuous variation 
Characteristics are discrete and have no intermediates
Monogenic (controlled by a single gene)
Gene expression not influenced by the environment
Usually drawn as a bar chart